HIGHER EDUCATION FOOD TECHNOLOGY LABORATORY (12HE) * Center: " " * Country: " " * Date: * Issue: " " " " Quality Certificates: Worlddidac Member ISO 9000: Quality Management (for Design, Manufacturing, Commercialization and After-sales service) European Union Certificate (total safety) Certificates ISO 14000 and ECO-Management and Audit Scheme (environmental management) Worlddidac Quality Charter Certificate (Worlddidac Member) issue:01/11 ELEMENTARY FOOD TECHNOLOGY.BASIC MODULE Ref: 1210 ITEM 1 / REFERENCE PASC PASC.Unit PASC/CIB DAB PASC/CCSOF DESCRIPTION COMPUTER CONTROLLED LABORATORY PASTEURISER, FORMED BY: LABORATORY PASTEURISER CONTROL INTERFACE BOX FOR LABORATORY PASTEURISER DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ACQUISITION + DATA MANAGMENT SOFTWARE FOR LABORATORY PASTEURISER QTY 1 1 PASC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR LABORATORY PASTEURISER (RESULTS CALCULATION AND ANALYSIS) SBANC SBANC.Unit SBANC/CIB DAB SBANC/CCSOF TRAY DRIER,COMPUTER CONTROLLED FORMED BY: TRAY DRIER CONTROL INTERFACE BOX FOR TRAY DRIER DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ACQUISITION + DATA MANAGEMENT SOFTWARE FOR TRAY DRIER 1 1 SBANC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR TRAY DRIER (RESULTS CALCULATION AND ANALYSIS) 1210PARTS COMPONENTS AND SPARE PARTS 1210PA COMPLEMENTARY ITEM 1210IYPM INSTALLATION AND STARTING-UP 1210CAPRO TRAINING AND BRINGING UP TO DATE OF TEACHERS 1210TD TEACHING TECHNIQUES "KNOW-HOW" 1210MANU DOCUMENTATION AND MANUALS 10 Ref: 1210 / Notes: 1) Multipost option: This module has only one unit in each item, but we can recommend the number of units for 10 or 30 students working simultaneously 2)Supply conditions: a) Technical conditions included: - Laboratories adaptation Installation of all units supplied Starting up for all units Training about the exercises to be done with any unit - Teacher training related with t and the teaching unit and the teaching techniques uses - Technology transfer b) Commercial conditions: - Packing - Financing charges - C.I.F charges c) Others conditions: - Manuals for each EDIBON teaching unit: Required services manual Assembly and installation manual Interface and software/control console manual Set in operation manual Safety norms manual Practices manual Maintenance manual Calibration manual See Catalogues in next pages 12.1- Food Technology (Basic) PADC Computer Controlled Teaching Autonomous Pasteurization Unit Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Data Software for: Acquisition - Computer Control Board - Data Acquisition Cables and Accessories - Data Management Manuals Control Interface Box Unit: PADC Teaching Autonomous Pasteurization Unit OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL PRACTICAL POSSIBILITIES SPECIFICATIONS SUMMARY Items supplied as standard PADC Unit: Anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit Main metallic elements in stainless steel Pasteurization capacity: 250 l/h Flow of water in the exchange section: 750 l/h Thermal Clycle: 4-56-72-20 ºC Time of retention: 20 seconds to 250 l/s of milk Temperature of the water in the heating section: 79 ºC Badges in the regeneration section: 17 Badges in the pasteurization process: Temperature sensors Start tank Heat exchanger Milk pump Water pump Water tank with resistance Retention milk tank Expansion water tank Water temperature sensor Milk temperature sensor Milk inlet valve Valves On/Off Defective valve 250/500L Water fulled water Purge valve Safety valve Pneumatic Valve PADC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the PC of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time PID control with flexibility of modifications from the PC keyboard of the PID parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface, and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs PADC/CCSOF Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) = Unit: 1250 x 850 x 1550 mm Weight: 70 Kg Control Interface: 490x330x310 mm Weight: 10 Kg Food & Water Technologies 12 Food & Water Technologies More information in: www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ PADC.pdf 1.- Setting up; filling of the circuit of water 2.- Set up of the pasteurization plant; operation with water 3.- Determination of the relation between the temperature of the heating water in function of the flow of the liquid to be pasteurized 4.- Determine the curve of survival for the different bacterial flora 5.- Determine the threshold temperature for a constant time of heating of the milk 6.- Determine the necessary time to obtain a wanted volume of sterility 7.- Determine the curve of the time of thermal reduction 8.- Cleaning of the unit with sodium hydroxide 9.- Cleaning of the unit with nitric acid 10.- Manual cleaning of the heat exchanger Other possible practices: 11.- Sensors calibration 12.- Method for a Direct Recount with a Microscope 13.- Method for the Recount in Agar Sheets 14-32.- Practices with PLC SBANC Computer Controlled Tray Drier Always included in the supply: SCADA EDIBON Computer Control System Unit: SBANC Tray Drier Teaching Technique used Data Software for: Acquisition - Computer Control Board - Data Acquisition - Data Management Cables and Accessories Manuals Control Interface Box OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL SPECIFICATIONS SUMMARY Items supplied as standard SBANC Unit: This unit has been designed for studying fluid mechanics, surfaces chemistry, solid structures and substances and energy balances, related to the drying processes Its size is specially appropriate for laboratories.This tray drier dries solids by passing a stream of hot air over trays of wet material Anodized aluminium structure Panels and main metallic elements in stainless steel Diagram in the front panel with similar distribution that the elements in the real unit Stainless steel rectangular conduct (1000 x 320 x 300 mm), which includes a support, a drying chamber with a door and a set of four bans, a square nozzle 300 mm long, whose side goes from 315 to 100 mm progressively Shielded Propeller Fan, with speed control from computer (PC) Fan protector Weighing system for following the changes in weight of the solid due the evaporation or vaporisation of moisture during operation Load Cell-force sensor Temperature Sensors: temperature sensors of Dry and Wet Bulb, before the electrical resistance temperature sensor in the electrical resistance temperature sensors of Dry and Wet Bulb, after the electrical resistance temperature sensors of Dry and Wet Bulb, after the drying chamber Differential pressure sensor Air flow sensor Humidity sensor Electrical heater (resistance 3KW), computer controlled SBANC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the PC of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time PID control with flexibility of modifications from the PC keyboard of the PID parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface, and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs SBANC/CCSOF Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) = Unit: 2000x320x400 mm Weight: 190 Kg Control Interface: 490x330x310 mm Weight: 10 Kg More information in: www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ SBANC.pdf Page 24 PRACTICAL POSSIBILITIES 1.- Demonstration of drying rate regimens 2.- Determination of the efficiency of the warm-up resistance 3.- Effect of the warm-up in an installation 4.- Heat and mass transfer analogies 5.- Obtaining of drying curves 6.- Influence of the particle size 7.- Influence of the air speed 8.- Influence of the air temperature 9.- Application of the psychometric in the drying Other possible practices: 10.-Example of the determination of the properties of the air 11.-Use of a psychometric map 12.-Determination of the air flow 13.-Dynamic simulation of the control systems 14.-Sensors calibration Practices to be done by PLC Module (PLC-PI)+PLC Control Software: 15.-Control of the SBANC unit process through the control interface box without the computer 16.-Visualization of all the sensors values used in the SBANC unit process 17.-Calibration of all sensors included in the SBANC unit process 18.-Hand on of all the actuators involved in the SBANC unit process 19.-Realization of different experiments, in automatic way, without having in front the unit (This experiment can be decided previously) 20.-Simulation of outside actions, in the cases not exist hardware elements (Example: test of complementary tanks, complementary industrial environment to the process to be studied, etc) 21-33.- Practices with PLC issue:01/11 PLC´s MODULE Ref: 1210/PLC ITEM / REFERENCE DESCRIPTION QTY PLC-PI PASC/PLC-SOF PLC MODULE PLC CONTROL SOFTWARE FOR LABORATORY PASTEURISER 1 PLC-PI SBANC/PLC-SOF PLC MODULE PLC CONTROL SOFTWARE FOR TRAY DRIER 1 1210PARTS COMPONENTS AND SPARE PARTS 1210PA COMPLEMENTARY ITEM 1210IYPM INSTALLATION AND STARTING-UP 1210CAPRO TRAINING AND BRINGING UP TO DATE OF TEACHERS 1210TD TEACHING TECHNIQUES "KNOW-HOW" 1210MANU DOCUMENTATION AND MANUALS Notes: 1) Multipost option: This module has only one unit in each item, but we can recommend the number of units for 10 or 30 students working simultaneously 2)Supply conditions: a) Technical conditions included: - Laboratories adaptation Installation of all units supplied Starting up for all units Training about the exercises to be done with any unit - Teacher training related with t and the teaching unit and the teaching techniques uses - Technology transfer b) Commercial conditions: - Packing - Financing charges - C.I.F charges c) Others conditions: - Manuals for each EDIBON teaching unit: Required services manual Assembly and installation manual Interface and software/control console manual Set in operation manual Safety norms manual Practices manual Maintenance manual Calibration manual See Catalogues in next pages 6.2- Automatics PLC-PI Module for the Control of Industrial Processes (for working with EDIBON Computerized Teaching Units) Always included in the supply: PLC-SOF PLC Control Software for each particular EDIBON Computerized Teaching Unit Unit: PLC-PI PLC Module for the Control of Industrial Processes (for working with EDIBON Computerized Teaching Units) SPECIFICATIONS SUMMARY Items supplied as standard PLC-PI Unit: This PLC-PI unit contains a box, with a front panel in order to manipulate the unit in a simple and easy way, the power supply and all necessary connectors and cabling and, additionally, the PLC itself with its own touch screen We have design and supply the proper software for any particular application (for each particular EDIBON Computerized Teaching Unit) Steel box Circuit diagram in the front panel Front panel: Digital inputs(X) and Digital outputs (Y) block 16 Digital inputs 14 Digital outputs Analog inputs block: 16 Analog inputs Analog outputs block: Analog outputs Touch screen Back panel: Power supply connector Fuse 2A RS-232 connector to PC Inside: Power supply outputs: 24 Vdc, 12 Vdc, -12 Vdc, 12 Vdc variable Panasonic PLC: High-speed scan of 0.32msec for a basic instruction Program capacity of 32 Ksteps, with a sufficient comment area Multi-point PID control Digital inputs/outputs and analog inputs/outputs Panasonic modules Communication RS232 wire, to computer (PC) PLC-SOF PLC Control Software: For each particular EDIBON Computerized Teaching Unit Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) =Unit: 490 x 330 x 310 mm Weight: 30 Kg More information in: www.edibon.com/products/catalogues/en/units/ PRACTICAL POSSIBILITIES 1.- Control of theparticular unit process through the control interface box without the computer 2.- PID control 3.- Visualization of all the sensors values used in the particular unit process 4.- Calibration of all sensors included in the particular unit process 5.- Hand on of all the actuators involved in the particular unit process 6.- Realization of different experiments, in automatic way, without having in front the particular unit (These experiments can be decided previously) 7.- Simulation of outside actions, in the cases not exist hardware elements (Example: test of complementary tanks, complementary i n d u s t r i a l environment to the process to be studied, etc) 8.- PLC hardware general use 9.- PLC process application for the particular unit 10.- PLC structure 11.- P L C i n p u t s a n d o u t p u t s configuration 12.- PLC configuration possibilities 13.- PLC program languages 14.- PLC different programming standard languages (ladder diagram (LD), structured text (ST), instructions list (IL), sequential function chart (SFC), function block diagram (FBD)) 15.- N e w c o n f i g u r a t i o n a n d development of new process 16.- Hand on an established process 17.- To visualize and see the results and to make comparisons with the particular unit process 18.- Possibility of creating new process in relation with the particular unit 19.- PLC Programming Exercises 20.- Own PLC applications in accordance with teacher and student requirements automationsystems/plcunitoperations/PLC-PI.pdf PLCE PLC Trainer PLC Programming Software PLCE Touch Screen Programming Software Unit: PLCE PLC Trainer PRACTICAL POSSIBILITIES SPECIFICATIONS SUMMARY Items supplied as standard PLCE Unit: This PLCE unit contains a box, with a front panel in order to manipulate the unit in a simple and easy way, the power supply and all necessary connectors and cabling and, additionally, the PLC itself with its own touch screen Steel box Circuit diagram in the front panel Front panel: Several 12V sources that can be activated through switches, lever type and push button type switches with their corresponding led that indicates the ON/OFF state of the source variable sources (potentiometer), to 10V 16 digital inputs 14 digital outputs analog inputs analog outputs ON/OF power switch Several mass connections (GND) Touch screen Back panel: Power supply connector Fuse 2A RS-232 connector to computer (PC) Inside: Power supply 100 240V (AC) Panasonic PLC: High-speed scan of 0.32 msec for a basic instruction Program capacity of 32 Ksteps, with a sufficient comment area High-speed counter Multi-point PID control Digital inputs/outputs and analog inputs/outputs Panasonic modules Communication RS 232 wire, to computer (PC) PC Bases Programming PLC Programming Software: Compatible with actual Windows operating systems Several programming languages can be used: ladder diagram (LD), structured text (ST), instructions list (IL), sequential function chart (SFC), function block diagram (FBD) Variables editors, configuration, programming and documentation To symbolize the application objects: bits, words, function blocks, inputs/outputs Operants available: inputs and outputs (X/Y), as well as internal memory areas, internal relays, special internal relays, timers and counters, data registers, special data registers, file registers, link registers and relays You can use either Matsushita and/or IEC addresses There are type on constants: decimal, hexadecimal and BCD This software provides elementary and user defined data types Matsushita Floating Point Instructions Set Uploading of source programs from PLC possible “Black boxing” of programs Reuse of programs is easy PLCE Touch Screen Programming Software: Tools for Screen Creation Plenty of functions Screens Creation Drawing Functions Easy Operativity (Click and slip) Easy creation of user libraries Printing Easy use Bitmaps Editor Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions=490 x 330 x 310 mm approx Weight: 20 Kg approx More information in: www.edibon.com/products/catalogues/en/units/ automationsystems/plcprocessemulation/PLCE.pdf Page 85 Using the PLC Programing Software: 1.- Creating applications for a PLC and loading them in the PLCE The programs can be written in several programming languages: Ladder diagram (LD) Structured text (ST) Instructions list (IL) Sequential function chart (SFC) Function block diagram (FBD) 2.- Check the digital inputs and their value and how to store in the variable 3.- Use of several inputs with the purpose of activating an output 4.- To assign names to the contacts in the edition area 5.- Use of all digital inputs (16) and to create a variable per digital input 6.- Interacting with a digital output, whose value will depend on that established in a variable 7.- How to use several digital variables and outputs 8.- How to use analog inputs 9.- How to use analog outputs 10.- Use of temporizers 11.- Logic functions implementation 12.- Application of the instructions set and reset 13.- Program jumps (conditional and non-conditional) 14.- Timer, counter and comparators 15.- Use of subroutines and interruptions events 16.- Functions library 17.- Regulation controls PID function 18.- Analog Inputs/Outputs Real Time visualization * Some applications related to these practices are included in the supply Using the PLCE Touch Screen Programming Software: 19.- How to create a simple application for the PLCE screen 20.- How to commute digital outputs of the PLC through the screen 21.- How to commute several digital outputs simultaneously (Working with words) 22.- Writing on and reading from a data register 23.- How to write a data register in a range of values 24.- Switching from one screen to another * Some applications related to these practices are included in the supply Other practical possibilities: -It is possible to make simulations without need of any external element, causing analog inputs and/or digital ones, and to observe what happens in the outputs -It is also possible to introduce real analog inputs (for example: the transducer value in volts of a temperature sensor) and/or digital inputs (for example: an external pulser) and to connect real actuators in the output, (for example: a pump) www.edibon.com 6.- Systems & Automatics Always included in the supply: issue:01/11 ELEMENTARY FOOD TECHNOLOGY.MEDIUM MODULE Ref: 1211 ITEM 1 / REFERENCE AEHC AEHC.Unit AEHC/CIB DAB AEHC/CCSOF DESCRIPTION COMPUTER CONTROLLED HYDROGENATION UNIT, FORMED BY: HYDROGENATION UNIT CONTROL INTERFACE BOX FOR HYDROGENATION UNIT DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ACQUISITION + DATA MANAGEMENT SOFTWARE FOR HYDROGENATION UNIT QTY 1 1 AEHC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR HYDROGENATION UNIT (RESULTS CALCULATION AND ANALYSIS) AEDC COMPUTER CONTROLLED DEODORISING UNIT, FORMED BY: DEODORISING UNIT CONTROL INTERFACE BOX FOR DEODORISING UNIT DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ACQUISITION + DATA MANAGEMENT SOFTWARE FOR DEODORISING UNIT AEDC.Unit AEDC/CIB DAB AEDC/CCSOF 1 1 AEDC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR DEODORISING UNIT (RESULTS CALCULATION AND ANALYSIS) TFDC TEACHING FRIGORIFIC TANK, COMPUTER CONTROLLED FORMED BY: TEACHING FRIGORIFIC TANK CONTROL INTERFACE BOX FOR TEACHING FRIGORIFIC TANK DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ACQUISITION + DATA MANAGEMENT SOFTWARE FOR TEACHING FRIGORIFIC TANK TFDC.Unit TFDC/CIB DAB TFDC/CCSOF 1 1 TFDC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR TEACHING FRIGORIFIC TANK (RESULTS CALCULATION AND ANALYSIS) MINI-LAB LABORATORY HOMOGENISER 1211PARTS COMPONENTS AND SPARE PARTS 1211PA COMPLEMENTARY ITEM 10 1211IYPM INSTALLATION AND STARTING-UP 11 1211CAPRO TRAINING AND BRINGING UP TO DATE OF TEACHERS 12 1211TD TEACHING TECHNIQUES "KNOW-HOW" 13 1211MANU DOCUMENTATION AND MANUALS Ref: 1211 / Notes: 1) Multipost option: This module has only one unit in each item, but we can recommend the number of units for 10 or 30 students working simultaneously 2)Supply conditions: a) Technical conditions included: - Laboratories adaptation Installation of all units supplied Starting up for all units Training about the exercises to be done with any unit - Teacher training related with t and the teaching unit and the teaching techniques uses - Technology transfer b) Commercial conditions: - Packing - Financing charges - C.I.F charges c) Others conditions: - Manuals for each EDIBON teaching unit: Required services manual Assembly and installation manual Interface and software/control console manual Set in operation manual Safety norms manual Practices manual Maintenance manual Calibration manual See Catalogues in next pages 12.1- Food Technology (Basic) 10 (continuation) AEHC Computer Controlled Hydrogenation Unit Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Data EDIBON Software for: Acquisition - Computer Control Board - Data Acquisition - Data Management Cables and Accessories Manuals Control Interface Box Unit: AEHC Hydrogenation Unit OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL SPECIFICATIONS SUMMARY PRACTICAL POSSIBILITIES AEHC Unit: This unit is a floor-standing batch processing vessel, which is used to adjust the degree of saturation of 25l batches of edible oils Stainless steel and anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit All equipment in contact with the process fluid in stainless steel.Hydrogenation unit capable of processing batch sizes of 25 l Hydrogenation vessel: total volume: 46 l, working volume: 25 l, max working temperature: 1800C, cooling/ heating element, hydrogen gas sparge ring, variable speed agitator, driven by pneumatic motor, baffle arrangement Catalyst tank of l and stirrer Liquid ring vacuum pump Filter pump, centrifugal type Stainless steel pressure leaf filter Temperature, Pressure and Flow sensors Flameproof electrical equipment Reusable filter mesh AEHC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the PC of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time PID control with flexibility of modifications from the PC keyboard of the PID parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface, and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs AEHC/CCSOF Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) =Unit: 1300x1000x1900 mm Weight: 400 Kg Control Interface: 490x330x310 mm Weight: 10 Kg 1.- Study of the effect of process temperature 2.- Study of the effect of degree of agitation 3.- Study of the effect of hydrogen gas pressure 4.- Operation of small scale version of the industrial hydrogenation process 5.- To determine the optimum catalyst dosage 6.- To demonstrate the operation of pressure leaf filter for catalyst recovery 7.- Study of the effect of catalyst type Other possible practices: 8.- Sensors calibration 9-27.- Practices with PLC More information in: www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ AEHC.pdf AEDC Computer Controlled Deodorising Unit Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Data EDIBON Software for: Acquisition - Computer Control Board - Data Acquisition - Data Management Cables and Accessories Manuals Control Interface Box OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL Unit: AEDC Deodorising Unit SPECIFICATIONS SUMMARY PRACTICAL POSSIBILITIES Items supplied as standard AEDC Unit: Unit suitable for teaching/training and research into the principles of steam stripping of fatty acids from edible oils This unit is a floor-standing batch vessel Stainless steel and anodized aluminium support structure Diagram in the front panel with similar distribution that the elements in the real unit Elements in contact with the process fluid are constructed in stainless steel Deodoriser vessel: 60 litres overall volume, 25 litres working volume, product maximum temperature: 250oC., electrical heating element computer controlled, cooling water coil, steam distribution tube, window for the process visualization Steam ejector Condenser Vacuum pump Polishing filter Sensors of pressure, temperature and level.Sample collecting Modes of operation: Deodorising and Polishing AEDC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the PC of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time PID control with flexibility of modifications from the PC keyboard of the PID parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface, and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs AEDC/CCSOF Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) = Unit: 1300x700x1600 mm Weight: 400 Kg Control Interface: 490x330x310 mm Weight: 10 Kg 1.- Study of the operation of small scale version of the industrial process 2.- To determinate the optimum process conditions for different oil types 3.- Effect of variation of process pressure 4.- E f f e c t o f v a r i a t i o n p r o c e s s temperature 5.- Effect of variation of quantity of direct steam added 6.- Effect of variation of overall process time Other possible practices: 7.- Sensors calibration 8-26.- Practices with PLC More information in: www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ AEDC.pdf Page 25 www.edibon.com 12 Food & Water Technologies Items supplied as standard 12.1- Food Technology (Basic) (continuation) TFDC Computer Controlled Teaching Frigorific Tank Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Data EDIBON Software for: Acquisition - Computer Control Board - Data Acquisition - Data Management Cables and Accessories Manuals Control Interface Box Unit: TFDC Teaching Frigorific Tank OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL SPECIFICATIONS SUMMARY PRACTICAL POSSIBILITIES Items supplied as standard 12 Food & Water Technologies Food & Water Technologies 12 Food & Water Technologies TFDC Unit: Tank, covers and lining built in stainless steel Also all the surfaces in contact with the milk are made of stainless steel, with a degree of refined appropriate polishing Printed bottom with evaporator that assures the maximum efficiency and minimum consumption ( 1,5 Kw/100 L, 1, Kw/100L) Effective isolation by means of injected polyurethane to increase, increments of temperature in the milk Inclination of the bottom to achieve a quick casting Started anti-air the milk to archive the volume measurement, in the tank Automatic operation of the cooling group and the stirrer to assure a good homogenization of the milk Coolant Adjustable legs Volume measurement of the milk Compensated hinge Frame of stainless steel Singlephase 220V Sensors: temperature and level TFDC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the PC of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time PID control with flexibility of modifications from the PC keyboard of the PID parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface, and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs TFDC/CCSOF.Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals More information in: www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ TFDC.pdf EDLC Computer Controlled Teaching Machine for Putting in Plastic Packing Liquids Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Data EDIBON Software for: Acquisition - Computer Control Board - Data Acquisition - Data Management Cables and Accessories Manuals Control Interface Box OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL Unit: EDLC Teaching Machine for Putting in Plastic Packing Liquids SPECIFICATIONS SUMMARY Items supplied as standard EDLC Unit: Main metallic elements in stainless steel Diagram in the front panel with similar distribution that the elements in the real unit Starting from a virgin polyethylene roll the machine give forms, it put in the amount and fill the bags They are adapted for all type of liquid milk, juices, etc Fill 1/8 to 1L All parts in contact with the milk, done by stainless steel Steel frame Unroll system with step of the film.Vertical chuck with date engraving Horizontal chuck Dosage system for the liquid Control board Automatism for the manual control Heating with two impulse generators phase + neutral + earth It needs 100 L/h of cooling water It needs bars compressed air Power, Kw EDLC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the PC of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time control with flexibility of modifications from the PC keyboard of the parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface, and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs EDLC/CCSOF.Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals More information in: www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ EDLC.pdf Page 26 PRACTICAL POSSIBILITIES 6.2- Automatics PLC-PI Module for the Control of Industrial Processes (for working with EDIBON Computerized Teaching Units) Always included in the supply: PLC-SOF PLC Control Software for each particular EDIBON Computerized Teaching Unit Unit: PLC-PI PLC Module for the Control of Industrial Processes (for working with EDIBON Computerized Teaching Units) SPECIFICATIONS SUMMARY Items supplied as standard PLC-PI Unit: This PLC-PI unit contains a box, with a front panel in order to manipulate the unit in a simple and easy way, the power supply and all necessary connectors and cabling and, additionally, the PLC itself with its own touch screen We have design and supply the proper software for any particular application (for each particular EDIBON Computerized Teaching Unit) Steel box Circuit diagram in the front panel Front panel: Digital inputs(X) and Digital outputs (Y) block 16 Digital inputs 14 Digital outputs Analog inputs block: 16 Analog inputs Analog outputs block: Analog outputs Touch screen Back panel: Power supply connector Fuse 2A RS-232 connector to PC Inside: Power supply outputs: 24 Vdc, 12 Vdc, -12 Vdc, 12 Vdc variable Panasonic PLC: High-speed scan of 0.32msec for a basic instruction Program capacity of 32 Ksteps, with a sufficient comment area Multi-point PID control Digital inputs/outputs and analog inputs/outputs Panasonic modules Communication RS232 wire, to computer (PC) PLC-SOF PLC Control Software: For each particular EDIBON Computerized Teaching Unit Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) =Unit: 490 x 330 x 310 mm Weight: 30 Kg More information in: www.edibon.com/products/catalogues/en/units/ PRACTICAL POSSIBILITIES 1.- Control of theparticular unit process through the control interface box without the computer 2.- PID control 3.- Visualization of all the sensors values used in the particular unit process 4.- Calibration of all sensors included in the particular unit process 5.- Hand on of all the actuators involved in the particular unit process 6.- Realization of different experiments, in automatic way, without having in front the particular unit (These experiments can be decided previously) 7.- Simulation of outside actions, in the cases not exist hardware elements (Example: test of complementary tanks, complementary i n d u s t r i a l environment to the process to be studied, etc) 8.- PLC hardware general use 9.- PLC process application for the particular unit 10.- PLC structure 11.- P L C i n p u t s a n d o u t p u t s configuration 12.- PLC configuration possibilities 13.- PLC program languages 14.- PLC different programming standard languages (ladder diagram (LD), structured text (ST), instructions list (IL), sequential function chart (SFC), function block diagram (FBD)) 15.- N e w c o n f i g u r a t i o n a n d development of new process 16.- Hand on an established process 17.- To visualize and see the results and to make comparisons with the particular unit process 18.- Possibility of creating new process in relation with the particular unit 19.- PLC Programming Exercises 20.- Own PLC applications in accordance with teacher and student requirements automationsystems/plcunitoperations/PLC-PI.pdf PLCE PLC Trainer PLC Programming Software PLCE Touch Screen Programming Software Unit: PLCE PLC Trainer PRACTICAL POSSIBILITIES SPECIFICATIONS SUMMARY Items supplied as standard PLCE Unit: This PLCE unit contains a box, with a front panel in order to manipulate the unit in a simple and easy way, the power supply and all necessary connectors and cabling and, additionally, the PLC itself with its own touch screen Steel box Circuit diagram in the front panel Front panel: Several 12V sources that can be activated through switches, lever type and push button type switches with their corresponding led that indicates the ON/OFF state of the source variable sources (potentiometer), to 10V 16 digital inputs 14 digital outputs analog inputs analog outputs ON/OF power switch Several mass connections (GND) Touch screen Back panel: Power supply connector Fuse 2A RS-232 connector to computer (PC) Inside: Power supply 100 240V (AC) Panasonic PLC: High-speed scan of 0.32 msec for a basic instruction Program capacity of 32 Ksteps, with a sufficient comment area High-speed counter Multi-point PID control Digital inputs/outputs and analog inputs/outputs Panasonic modules Communication RS 232 wire, to computer (PC) PC Bases Programming PLC Programming Software: Compatible with actual Windows operating systems Several programming languages can be used: ladder diagram (LD), structured text (ST), instructions list (IL), sequential function chart (SFC), function block diagram (FBD) Variables editors, configuration, programming and documentation To symbolize the application objects: bits, words, function blocks, inputs/outputs Operants available: inputs and outputs (X/Y), as well as internal memory areas, internal relays, special internal relays, timers and counters, data registers, special data registers, file registers, link registers and relays You can use either Matsushita and/or IEC addresses There are type on constants: decimal, hexadecimal and BCD This software provides elementary and user defined data types Matsushita Floating Point Instructions Set Uploading of source programs from PLC possible “Black boxing” of programs Reuse of programs is easy PLCE Touch Screen Programming Software: Tools for Screen Creation Plenty of functions Screens Creation Drawing Functions Easy Operativity (Click and slip) Easy creation of user libraries Printing Easy use Bitmaps Editor Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions=490 x 330 x 310 mm approx Weight: 20 Kg approx More information in: www.edibon.com/products/catalogues/en/units/ automationsystems/plcprocessemulation/PLCE.pdf Page 85 Using the PLC Programing Software: 1.- Creating applications for a PLC and loading them in the PLCE The programs can be written in several programming languages: Ladder diagram (LD) Structured text (ST) Instructions list (IL) Sequential function chart (SFC) Function block diagram (FBD) 2.- Check the digital inputs and their value and how to store in the variable 3.- Use of several inputs with the purpose of activating an output 4.- To assign names to the contacts in the edition area 5.- Use of all digital inputs (16) and to create a variable per digital input 6.- Interacting with a digital output, whose value will depend on that established in a variable 7.- How to use several digital variables and outputs 8.- How to use analog inputs 9.- How to use analog outputs 10.- Use of temporizers 11.- Logic functions implementation 12.- Application of the instructions set and reset 13.- Program jumps (conditional and non-conditional) 14.- Timer, counter and comparators 15.- Use of subroutines and interruptions events 16.- Functions library 17.- Regulation controls PID function 18.- Analog Inputs/Outputs Real Time visualization * Some applications related to these practices are included in the supply Using the PLCE Touch Screen Programming Software: 19.- How to create a simple application for the PLCE screen 20.- How to commute digital outputs of the PLC through the screen 21.- How to commute several digital outputs simultaneously (Working with words) 22.- Writing on and reading from a data register 23.- How to write a data register in a range of values 24.- Switching from one screen to another * Some applications related to these practices are included in the supply Other practical possibilities: -It is possible to make simulations without need of any external element, causing analog inputs and/or digital ones, and to observe what happens in the outputs -It is also possible to introduce real analog inputs (for example: the transducer value in volts of a temperature sensor) and/or digital inputs (for example: an external pulser) and to connect real actuators in the output, (for example: a pump) www.edibon.com 6.- Systems & Automatics Always included in the supply: issue:01/11 WATER HANDLING MEDIUM MODULE Ref: 1311 ITEM 1 / REFERENCE ESHC(2X1M) ESHC(2X1M).Unit ESHC(2X1M)/CIB DAB ESHC(2X1M)/CCSOF DESCRIPTION HYDROLOGIC SYSTEMS, RAIN SIMULATOR AND IRRIGATION SYSTEMS UNIT (2X1M) COMPUTER CONTROLLED FORMED BY: HYDROLOGIC SYSTEMS, RAIN SIMULATOR AND IRRIGATION SYSTEMS UNIT (2X1M) CONTROL INTERFACE BOX FOR HYDROLOGIC SYSTEMS, RAIN SIMULATOR AND IRRIGATION SYSTEMS UNIT (2X1M) DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ACQUISITION + DATA MANAGEMENT SOFTWARE FOR HYDROLOGIC SYSTEMS, RAIN SIMULATOR AND IRRIGATION SYSTEMS UNIT (2X1M) QTY 1 1 ESHC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR HYDROLOGIC SYSTEMS, RAIN SIMULATOR AND IRRIGATION SYSTEMS UNIT (RESULTS CALCULATION AND ANALYSIS) PAHSC COMPUTER CONTROLLED SOIL MOISTURE SUCTION SAND EQUIPMENT, FORMED BY: SOIL MOISTURE SUCTION AND EQUIPMENT CONTROL INTERFACE BOX FOR SOIL MOISTURE SUCTION SAND EQUIPMENT DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ACQUISITION + DATA MANAGEMENT SOFTWARE FOR SOIL MOISTURE SUCTION SAND EQUIPMENT PAHSC.Unit PAHSC/CIB DAB PAHSC/CCSOF 1 1 PAHSC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR SOIL MOISTURE SUCTION SAND EQUIPMENT (RESULTS CALCULATION AND ANALYSIS) PDSC SEDIMENTATION TANK, COMPUTER CONTROLLED FORMED BY: SEDIMENTATION TANK CONTROL INTERFACE BOX FOR SEDIMENTATION TANK DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ACQUISITION + DATA MANAGEMENT SOFTWARE FOR SEDIMENTATION TANK PDSC.Unit PDSC/CIB DAB PDSC/CCSOF PDSC/CAL 1 1 COMPUTER AIDED LEARNING SOFTWARE FOR SEDIMENTATION TANK (RESULTS CALCULATION AND ANALYSIS) PEFP PERMEABILITY/FLUIDISATION STUDIES UNIT PEFP/CAL COMPUTER AIDED LEARNING SOFTWARE FOR PERMEABILITY/FLUIDISATION STUDIES UNIT (RESULTS CALCULATION AND ANALYSIS) HVFLM MOBILE BED AND FLOW VISUALISATION UNIT 10 HVFLM/CAL COMPUTER AIDED LEARNING SOFTWARE FOR MOBILE BED AND FLOW VISUALISATION UNIT (RESULTS CALCULATION AND ANALYSIS) 11 1311PARTS COMPONENTS AND SPARE PARTS 12 1311PA COMPLEMENTARY ITEM 13 1311IYPM INSTALLATION AND STARTING-UP 14 1311CAPRO TRAINING AND BRINGING UP TO DATE OF TEACHERS 15 1311TD TEACHING TECHNIQUES "KNOW - HOW" Ref: 1311 / ITEM 16 REFERENCE 1311MANU DESCRIPTION DOCUMENTATION AND MANUALS Notes: 1) Multipost option: This module has only one unit in each item, but we can recommend the number of units for 10 or 30 students working simultaneously 2)Supply conditions: a) Technical conditions included: - Laboratories adaptation Installation of all units supplied Starting up for all units Training about the exercises to be done with any unit - Teacher training related with t and the teaching unit and the teaching techniques uses - Technology transfer b) Commercial conditions: - Packing - Financing charges - C.I.F charges c) Others conditions: - Manuals for each EDIBON teaching unit: Required services manual Assembly and installation manual Interface and software/control console manual Set in operation manual Safety norms manual Practices manual Maintenance manual Calibration manual See Catalogues in next pages QTY 13.1- Water Handling 12 ESHC Computer Controlled Hydrologic Systems, Rain Simulator and Irrigation Systems Unit Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Data Software for: Acquisition - Computer Control Board - Data Acquisition - Data Management Cables and Accessories Manuals Control Interface Box Unit: ESHC Hydrologic Systems, Rain Simulator and Irrigation Systems Unit Versions available: - ESHC (2x1m) Hydrologic Systems, Rain Simulator and Irrigation Systems Unit (2x1m) - ESHC (4x2m) Hydrologic Systems, Rain Simulator and Irrigation Systems Unit (4x2m) OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL SPECIFICATIONS SUMMARY Items supplied as standard ESHC Unit: There are two versions: ESHC (2x1m) Hydrologic Systems, Rain Simulator and Irrigation Systems Unit (2x1m) ESHC (4x2m) Hydrologic Systems, Rain Simulator and Irrigation Systems Unit (4x2m) Diagram in the front panel with similar distribution that the elements in the real unit Test tank, which is a large sized tank that provides a large working surface: For ESHC(2x1m): tank dimensions: L=2m, W=1m For ESHC(4x2m): tank dimensions: L=4m, W=2m Storage tanks, that supply the water required: For ESHC (2x1m) = two 400 litres tanks For ESHC (4x2m) = four 400 litres tanks porous “well” tubes Drain Water outlet river simulation Over flow outlet pipes Filter Single-phase motor pump with bar at maximum pressure, 100 l/min as maximum flow Rain simulator comprised of spray nozzles, and showers outlet tanks for the flow measurement in the drains and wells water inlet valves (2 auxiliary inlets, rain inlet, river inlet, french wells inlets) Independent flexible pipes 34 Pressure sensors 27 Sample capturing takings Flow sensors (orifice plate) Load Cell Pump with speed control ESHC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the computer of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time control with flexibility of modifications from the computer keyboard of the parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs ESHC/CCSOF.Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) =ESHC (2x1m) Unit : 2700 x 1500 x 1800 mm Weight: 950 Kg ESHC (4x2m) Unit : 4600 x 2250 x 1800 mm Weight: 1990 Kg Control Interface: 490x330x310 mm Weight: 20 Kg PRACTICAL POSSIBILITIES 1.- Determination of the superficial dragging 2.- Hydrograph curve, Strong storm 3.- Calculation of concentration time for a short storm 4.- Storm hydrographs from single or multiple storms 5.- Storm hydrograph from a previously saturated catchment 6.- Storm runoff from an impermeable catchment 7.- Drainagedensitydetermination 8.- Effect of a moving storm flood hydrograph 9.- Effect of a reservoir storage on flood hydrograph 10.- Effect of land drains on flood hydrograph 11.-Reservoir filling and flooding 12.- Gravity force of water 13.- F l u v i a l - m e c h a n i c a l experiments 14.- Model stream flow in alluvial material 15.- Sediment transport in river models 16.- Formation and development ofriverfeaturesovertime 17.- Meandering river 18.- Erosion on river beds and current speed 19.- Sediment transport, bedload motion, scour and erosion 20.- Underground water capture studies 21.- Well depression cone 22.- Interaction of depression cones by two adjoining wells 23.- Well in the centre of a circular island 24.- Draw-down curves for one well and two wells systems Other possible practices: 25.-Sensors calibration 26-44.- Practices with PLC More information in: www.edibon.com/products/catalogues/en/units/environment/ waterhandling/ESHC(2x1m).pdf 13 Environment PAHSC Computer Controlled Soil Moisture Suction Sand Unit Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Control Interface Box Cables and Accessories Data Software for: Acquisition - Computer Control Board - Data Acquisition - Data Management Manuals Unit: PAHSC Soil Moisture Sand Unit OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL SPECIFICATIONS SUMMARY Items supplied as standard PAHSC Unit: Anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit Suction system Pump Water jet pump Water tank Circular tank filled with sand Filter Soil samples Sensors: of pressure, of water volume and of flow PAHSC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the computer of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time control with flexibility of modifications from the computer keyboard of the parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs PAHSC/CCSOF.Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) = Unit: 400 x 500 x 1200 mm Weight: 90 Kg Control Interface: 490x330x310 mm Weight: 10 Kg More information in: www.edibon.com/products/catalogues/en/units/environment/waterhandling/PAHSC.pdf Non computer controlled version available Page 44 PRACTICAL POSSIBILITIES 1.- To understand the relationship between water retentivity and soil 2.- To understand the basic principles of water retentivity in terms of soil suction 3.- Derive soil moisture characteristic curves for several soils 4.- Effect of the atmospheric pressure Other possible practices: 5.- Sensors calibration 6-24.- Practices with PLC 13.1- Water Handling 10 (continuation) PDFDC Computer Controlled Drainage and Seepage Tank Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Some models: Control Interface Box Cables and Accessories Data Software for: Acquisition - Computer Control Board - Data Acquisition - Data Management Manuals OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL Unit: PDFDC Drainage and Seepage Tank SPECIFICATIONS SUMMARY PRACTICAL POSSIBILITIES Items supplied as standard PDFDC Unit: Anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit Rectangular tank, with front side in methacrylate and back in stainless steel, containing sand Water tank Pump Control valve 12 Pressure sensors Level sensor Dye injection system A selection of models: seepage under a sheet pile wall, seepage through an earth dam, seepage through a phreatic layer, manometric probes bank under a dam PDFDC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the computer of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time control with flexibility of modifications from the computer keyboard of the parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs PDFDC/CCSOF.Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) =Unit: 1600 x 600 x 1500 mm Weight: 190 Kg Control Interface: 490x330x310 mm Weight: 10 Kg 1.2.3.4.- Flow net construction Flow line visualisation Verification of Darcy´s Law Comparison of experimental results with analytical solutions 5.- To determine seepage rates 6.- Seepage through an earth dam 7.- Seepage underneath a sheet pile wall 8.- Control of seepage through permeable soils by sub-soil drainage 9.- To reduce uplift pressure and lateral thrust by drainage 10.- Distribution of uplift pressure on hydraulic structures 11.- B e h a v i o u r & Fo r m a t i o n o f “Quicksand” 12.- To drain an excavation site using wells 13.- Stability of an earth dam Other possible practices: 14.- Sensors calibration 15-33.- Practices with PLC More information in: www.edibon.com/products/catalogues/en/units/environment/waterhandling/PDFDC.pdf PDSC Computer Controlled Sedimentation Tank Always included in the supply: Teaching Technique used Data Acquisition Board Cables and Accessories Manuals Control Interface Box Unit: PDSC Sedimentation Tank Software for: - Computer Control - Data Acquisition - Data Management OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL SPECIFICATIONS SUMMARY Items supplied as standard PDSC Unit: Unit designed to demonstrate the hydraulic characteristics and settling efficiencies of a model settling basin Anodized aluminium structure Main metallic elements in stainless steel Diagram in the front panel with similar distribution that the elements in the real unit Settling tank (1000 x 400 x 250 mm approx.) Baffle plate Sediment sump tank (capacity 140 l approx.) Pump and motor Flow sensors Dye injection system to allow hydraulic tracer and flow visualization studies Flow sparge device to continuously agitate the mix Valves PDSC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the computer of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time control with flexibility of modifications from the computer keyboard of the parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs PDSC/CCSOF.Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) = Unit: 2000 x 600 x 1500 mm Weight: 250 Kg Control Interface: 490x330x310 mm Weight: 10 Kg More information in: www.edibon.com/products/catalogues/en/units/environment/waterhandling/PDSC.pdf Non computer controlled version available Page 45 PRACTICAL POSSIBILITIES 1.- Study of the effect of flow rate, inlet water temperature and baffle position on dispersion 2.- Measuring sediment removal efficiencies and relating these to the hydraulic characteristics 3.- To measure the flow short-circuiting and dead space using a tracer - Comparison of real flow regimes with idealised flow models Other possible practices: - Sensors calibration 6-24.- Practices with PLC www.edibon.com 13 Environment SCADA EDIBON Computer Control System 13.1- Water Handling 12 PL Demonstration Lysimeter SPECIFICATIONS SUMMARY Unit designed for the measurement of evapotranspiration by water-balance method Anodized aluminium structure Panels and main metallic elements in stainless steel Diagram in the front panel with similar distribution that the elements in the real unit Base and inner disc to support soil filled recipient and plant Hydraulic sensing device located in the base, connected to a graduated water column Water column (graduated) mounted above the lysimeter Three 300 mm diameter containers Each container can then in turn be placed on a hydraulically mounted plate which is used to monitor system weight changes arising for evapotranspiration Calibration weights Cables and accessories, for normal operation Manual: This unit is supplied Manuals Dimensions (approx.) = 470 x 450 x 1700 mm Weight: 60 Kg (continuation) PRACTICAL POSSIBILITIES 1.- Study of the measurement of evapotranspiration by waterbalance method 2.- To use lysimeter unit 3.- To determine plant water usage 4.- To understand the relationship between reference maximum and actual transpiration More information in: www.edibon.com/products/catalogues/en/ units/environment/waterhandling/PL.pdf PPD Drain Permeameter SPECIFICATIONS SUMMARY Unit designed for the study and laboratory investigation of field drain filter materials This drain permeameter is suited for use both as a teaching and demonstration unit and for laboratory testing and research Anodized aluminium structure Panels and main metallic elements in stainless steel Diagram in the front panel with similar distribution that the elements in the real unit Transparent acrylic column of 100mm diameter, supported on a stand Removable test section at the base of the column to house the filter medium to be tested Cables and accessories, for normal operation Manual: This unit is supplied Manuals Dimensions (approx.) = 400 x 400 x 1100 mm Weight: 50 Kg PRACTICAL POSSIBILITIES 1.- Investigation of drain filter materials 2.- To select optimum filter/ soil combinations 3.- To determine relative efficiences of drain filter materials More information in: www.edibon.com/products/catalogues/en/ units/environment/waterhandling/PPD.pdf PEIF Filterability Index Unit 13 Environment SPECIFICATIONS SUMMARY The Filterability Index Unit(PEIF) enables a water quality test to be made on a suspension to be filtered through sand or similar granular media It utilises a bed of granular material, normally sand, which can be chosen by the student to suit his own purposes The measurements taken with this unit enable a filterability number to be calculated which has significance in deep bed filter performance Anodized aluminium structure Panels and main metallic elements in stainless steel Diagram in the front panel with similar distribution that the elements in the real unit Bench top unit l vessel connected by transparent tubing to a 60 mm high filter unit A needle valve controls flow, which is observed on a variable area flow meter A 0.5 m water manometer measures head loss Test filter cell diameter: 38 mm Flow meter range: 20-280ml/min The filter unit can be demounted This unit and all tubing connections are transparent so that the operation can be observed and air bubbles avoided l glass beaker(to collect filtrate) l measuring cylinder thermometer stopwatch Cables and accessories, for normal operation Manual: This unit is supplied Manuals Dimensions (approx.) = 500 x 400 x 1000 mm Weight: 35 Kg PRACTICAL POSSIBILITIES 1.- To study the basic principles of filter operation 2.- Procedure for filtration 3.- Calculation of filterability index number from measurements taken 4.- To measure the filterability of a given suspension performance of a standard water quality test 5.- Preliminary assessment of pretreatment processes and filter media 6.- Flow through permeable layers 7.- Deep bed filtration of suspensions with different particle layers 8.- Filtration characteristics More information in: www.edibon.com/products/catalogues/en/ units/environment/waterhandling/PEIF.pdf PEFP Permeability/Fluidisation Studies Unit SPECIFICATIONS SUMMARY Unit to verify Darcy’s Law, to examine Kozeny’s equation and to observe liquid fluidisation behaviour of a granular bed Anodized aluminium structure Main metallic elements in stainless steels Diagram in the front panel with similar distribution that the elements in the real unit Permeameter: transparent acrylic cylinder of 50 mm diameter, 500 mm length Filter metallic disks Piezometer taps located along the vertical axis of the cylinder, distance between two taking is 125 mm Piezometric taking collector Piezometer or Manometer: of water: 500 mm length Manometers, Bourdon type, of 0-1000 mm H2O Constant head supply device: max height variation: 500 mm Flowmeter: l/min max Sand of different diameters Cables and accessories for normal operation Manual: This unit is supplied Manuals Dimensions (approx.) = 850 x 400 x 1100 mm Weight: 70 Kg More information in: www.edibon.com/products/catalogues/en/ units/environment/waterhandling/PEFP pdf Page 46 PRACTICAL POSSIBILITIES 1.- Pressure drop measurements and correlations for flow through packed beds 2.- To calculate the density of each specimen 3.- To calculate the relative density of specimen mixing 4.- Study and verification of CarmanKozeny´s equation 5.- Calculation the void ratio 6.- To determine the permeability constant (Darcy´s Law) 7.- Observation of a liquid fluidised bed 8.- Characteristic of a liquid fluidised bed 9.- Attrition test 10.- Measurement of permeability of selected solids issue:01/11 PLC´s MODULE Ref: 1311/PLC / ITEM REFERENCE DESCRIPTION PLC-PI ESHC(2X1M)/PLCSOF PLC MODULE PLC CONTROL SOFTWARE FOR HYDROLOGIC SYSTEMS, RAIN SIMULATOR AND IRRIGATION SYSTEMS UNIT (2X1M) 1 PLC-PI PAHSC/PLC-SOF PLC MODULE PLC CONTROL SOFTWARE FOR SOIL MOISTURE SUCTION SAND EQUIPMENT 1 PLC-PI PDSC/PLC-SOF PLC MODULE PLC CONTROL SOFTWARE FOR SEDIMENTATION TANK 1 1311PARTS COMPONENTS AND SPARE PARTS 1311PA COMPLEMENTARY ITEM 1311IYPM INSTALLATION AND STARTING-UP 1311CAPRO TRAINING AND BRINGING UP TO DATE OF TEACHERS 1311TD TEACHING TECHNIQUES "KNOW - HOW" 1311MANU DOCUMENTATION AND MANUALS Notes: 1) Multipost option: This module has only one unit in each item, but we can recommend the number of units for 10 or 30 students working simultaneously 2)Supply conditions: a) Technical conditions included: - Laboratories adaptation Installation of all units supplied Starting up for all units Training about the exercises to be done with any unit - Teacher training related with t and the teaching unit and the teaching techniques uses - Technology transfer b) Commercial conditions: - Packing - Financing charges - C.I.F charges c) Others conditions: - Manuals for each EDIBON teaching unit: Required services manual Assembly and installation manual Interface and software/control console manual Set in operation manual Safety norms manual Practices manual Maintenance manual Calibration manual See Catalogues in next pages QTY 6.2- Automatics PLC-PI Module for the Control of Industrial Processes (for working with EDIBON Computerized Teaching Units) Always included in the supply: PLC-SOF PLC Control Software for each particular EDIBON Computerized Teaching Unit Unit: PLC-PI PLC Module for the Control of Industrial Processes (for working with EDIBON Computerized Teaching Units) SPECIFICATIONS SUMMARY Items supplied as standard PLC-PI Unit: This PLC-PI unit contains a box, with a front panel in order to manipulate the unit in a simple and easy way, the power supply and all necessary connectors and cabling and, additionally, the PLC itself with its own touch screen We have design and supply the proper software for any particular application (for each particular EDIBON Computerized Teaching Unit) Steel box Circuit diagram in the front panel Front panel: Digital inputs(X) and Digital outputs (Y) block 16 Digital inputs 14 Digital outputs Analog inputs block: 16 Analog inputs Analog outputs block: Analog outputs Touch screen Back panel: Power supply connector Fuse 2A RS-232 connector to PC Inside: Power supply outputs: 24 Vdc, 12 Vdc, -12 Vdc, 12 Vdc variable Panasonic PLC: High-speed scan of 0.32msec for a basic instruction Program capacity of 32 Ksteps, with a sufficient comment area Multi-point PID control Digital inputs/outputs and analog inputs/outputs Panasonic modules Communication RS232 wire, to computer (PC) PLC-SOF PLC Control Software: For each particular EDIBON Computerized Teaching Unit Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) =Unit: 490 x 330 x 310 mm Weight: 30 Kg More information in: www.edibon.com/products/catalogues/en/units/ PRACTICAL POSSIBILITIES 1.- Control of theparticular unit process through the control interface box without the computer 2.- PID control 3.- Visualization of all the sensors values used in the particular unit process 4.- Calibration of all sensors included in the particular unit process 5.- Hand on of all the actuators involved in the particular unit process 6.- Realization of different experiments, in automatic way, without having in front the particular unit (These experiments can be decided previously) 7.- Simulation of outside actions, in the cases not exist hardware elements (Example: test of complementary tanks, complementary i n d u s t r i a l environment to the process to be studied, etc) 8.- PLC hardware general use 9.- PLC process application for the particular unit 10.- PLC structure 11.- P L C i n p u t s a n d o u t p u t s configuration 12.- PLC configuration possibilities 13.- PLC program languages 14.- PLC different programming standard languages (ladder diagram (LD), structured text (ST), instructions list (IL), sequential function chart (SFC), function block diagram (FBD)) 15.- N e w c o n f i g u r a t i o n a n d development of new process 16.- Hand on an established process 17.- To visualize and see the results and to make comparisons with the particular unit process 18.- Possibility of creating new process in relation with the particular unit 19.- PLC Programming Exercises 20.- Own PLC applications in accordance with teacher and student requirements automationsystems/plcunitoperations/PLC-PI.pdf PLCE PLC Trainer PLC Programming Software PLCE Touch Screen Programming Software Unit: PLCE PLC Trainer PRACTICAL POSSIBILITIES SPECIFICATIONS SUMMARY Items supplied as standard PLCE Unit: This PLCE unit contains a box, with a front panel in order to manipulate the unit in a simple and easy way, the power supply and all necessary connectors and cabling and, additionally, the PLC itself with its own touch screen Steel box Circuit diagram in the front panel Front panel: Several 12V sources that can be activated through switches, lever type and push button type switches with their corresponding led that indicates the ON/OFF state of the source variable sources (potentiometer), to 10V 16 digital inputs 14 digital outputs analog inputs analog outputs ON/OF power switch Several mass connections (GND) Touch screen Back panel: Power supply connector Fuse 2A RS-232 connector to computer (PC) Inside: Power supply 100 240V (AC) Panasonic PLC: High-speed scan of 0.32 msec for a basic instruction Program capacity of 32 Ksteps, with a sufficient comment area High-speed counter Multi-point PID control Digital inputs/outputs and analog inputs/outputs Panasonic modules Communication RS 232 wire, to computer (PC) PC Bases Programming PLC Programming Software: Compatible with actual Windows operating systems Several programming languages can be used: ladder diagram (LD), structured text (ST), instructions list (IL), sequential function chart (SFC), function block diagram (FBD) Variables editors, configuration, programming and documentation To symbolize the application objects: bits, words, function blocks, inputs/outputs Operants available: inputs and outputs (X/Y), as well as internal memory areas, internal relays, special internal relays, timers and counters, data registers, special data registers, file registers, link registers and relays You can use either Matsushita and/or IEC addresses There are type on constants: decimal, hexadecimal and BCD This software provides elementary and user defined data types Matsushita Floating Point Instructions Set Uploading of source programs from PLC possible “Black boxing” of programs Reuse of programs is easy PLCE Touch Screen Programming Software: Tools for Screen Creation Plenty of functions Screens Creation Drawing Functions Easy Operativity (Click and slip) Easy creation of user libraries Printing Easy use Bitmaps Editor Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions=490 x 330 x 310 mm approx Weight: 20 Kg approx More information in: www.edibon.com/products/catalogues/en/units/ automationsystems/plcprocessemulation/PLCE.pdf Page 85 Using the PLC Programing Software: 1.- Creating applications for a PLC and loading them in the PLCE The programs can be written in several programming languages: Ladder diagram (LD) Structured text (ST) Instructions list (IL) Sequential function chart (SFC) Function block diagram (FBD) 2.- Check the digital inputs and their value and how to store in the variable 3.- Use of several inputs with the purpose of activating an output 4.- To assign names to the contacts in the edition area 5.- Use of all digital inputs (16) and to create a variable per digital input 6.- Interacting with a digital output, whose value will depend on that established in a variable 7.- How to use several digital variables and outputs 8.- How to use analog inputs 9.- How to use analog outputs 10.- Use of temporizers 11.- Logic functions implementation 12.- Application of the instructions set and reset 13.- Program jumps (conditional and non-conditional) 14.- Timer, counter and comparators 15.- Use of subroutines and interruptions events 16.- Functions library 17.- Regulation controls PID function 18.- Analog Inputs/Outputs Real Time visualization * Some applications related to these practices are included in the supply Using the PLCE Touch Screen Programming Software: 19.- How to create a simple application for the PLCE screen 20.- How to commute digital outputs of the PLC through the screen 21.- How to commute several digital outputs simultaneously (Working with words) 22.- Writing on and reading from a data register 23.- How to write a data register in a range of values 24.- Switching from one screen to another * Some applications related to these practices are included in the supply Other practical possibilities: -It is possible to make simulations without need of any external element, causing analog inputs and/or digital ones, and to observe what happens in the outputs -It is also possible to introduce real analog inputs (for example: the transducer value in volts of a temperature sensor) and/or digital inputs (for example: an external pulser) and to connect real actuators in the output, (for example: a pump) www.edibon.com 6.- Systems & Automatics Always included in the supply: issue:01/11 CLEAR WATER TREATMENT BASIC MODULE Ref: 1321 ITEM 1 / REFERENCE EFLPC EFLPC.Unit EFLPC/CIB DAB EFLPC/CCSOF EFLPC/CAL DESCRIPTION DEEP BED FILTER UNIT, COMPUTER CONTROLLED FORMED BY: DEEP BED FILTER UNIT CONTROL INTERFACE BOX FOR DEEP BED FILTER UNIT DATA ACQUISITION BOARD COMPUTER CONTROL + DATA ADQUISITION + DATA MANGEMENT SOFTWARE FOR DEEP BED FILTER UNIT QTY 1 1 COMPUTER AIDED LEARNING SOFTWARE FOR DEEP BED FILTER UNIT (RESULTS CALCULATION AND ANALYSIS) EMLS SOLID-LIQUID MIXING EQUIPMENT EMLS/CAL COMPUTER AIDED LEARNING SOFTWARE FOR LIQUID/SOLID MIXING EQUIPMENT (RESULTS CALCULATION AND ANALYSIS) EII ION EXCHANGE UNIT EII/CAL COMPUTER AIDED LEARNING SOFTWARE FOR ION EXCHANGE UNIT (RESULTS CALCULATION AND ANALYSIS) EEC CORROSION STUDY UNIT EEC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR CORROSION STUDY UNIT (RESULTS CALCULATION AND ANALYSIS) CAS SEDIMENT TANSPORT DEMONSTRATION CHANNEL 10 CAS/CAL COMPUTER AIDED LEARNING SOFTWARE FOR SEDIMENT TRANSPORT DEMONSTRATION CHANNEL (RESULTS CALCULATION AND ANALYSIS) 11 ESED SEDIMENTATION STUDY UNIT 12 ESED/CAL COMPUTER AIDED LEARNING FOR SEDIMENTATION STUDY UNIT 13 BL-6 WATER DEMINERALIZER 14 DESMI D ION EXCHANGE DEMINERALIZER 15 1310PARTS COMPONENTS AND SPARE PARTS 16 1321PA COMPLEMENTARY ITEM 17 1321IYPM INSTALLATION AND STARTING-UP 18 1321CAPRO TRAINING AND BRINGING UP TO DATE OF TEACHERS 19 1321TD TEACHING TECHNIQUES "KNOW - HOW" 20 1321MANU DOCUMENTATION AND MANUALS Ref: 1321 / Notes: 1) Multipost option: This module has only one unit in each item, but we can recommend the number of units for 10 or 30 students working simultaneously 2)Supply conditions: a) Technical conditions included: - Laboratories adaptation Installation of all units supplied Starting up for all units Training about the exercises to be done with any unit - Teacher training related with t and the teaching unit and the teaching techniques uses - Technology transfer b) Commercial conditions: - Packing - Financing charges - C.I.F charges c) Others conditions: - Manuals for each EDIBON teaching unit: Required services manual Assembly and installation manual Interface and software/control console manual Set in operation manual Safety norms manual Practices manual Maintenance manual Calibration manual See Catalogues in next pages 13.2- Water Treatment 10 EFLPC Computer Controlled Deep Bed Filter Unit Always included in the supply: Teaching Technique used SCADA EDIBON Computer Control System Control Interface Box Data Software for: Acquisition - Computer Control Board - Data Acquisition Cables and Accessories - Data Management Manuals OPEN CONTROL + MULTICONTROL + REAL TIME CONTROL Unit: EFLPC Deep Bed Filter Unit SPECIFICATIONS SUMMARY Items supplied as standard EFLPC Unit: Anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit Transparent filtration column of circular section, with removable inferior an superior covers Support filter of the porous bed Filtering bed Column height: 1300 mm Valves to establish different circuits and regulate the flows 30 Pressure sensors 29 Sample capturing takings Centrifugal pump, 0.6 kW, 2850 r.p.m.Tank with reservoirs with 350 litres each one (700 litres total capacity); both reservoirs have water height level and system for agitation with help of the water return Flow sensor Mesh filter EFLPC/CIB Control Interface Box : With process diagram in the front panel The unit control elements are permanently computer controlled Simultaneous visualization in the computer of all parameters involved in the process Calibration of all sensors involved in the process Real time curves representation All the actuators’ values can be changed at any time from the keyboard Shield and filtered signals to avoid external interferences Real time control with flexibility of modifications from the computer keyboard of the parameters, at any moment during the process Open control allowing modifications, at any time and in a real time, of parameters involved in the process safety levels: mechanical in the unit, electronic in control interface and the third one in the control software DAB Data Acquisition Board: PCI Data acquisition National Instruments board to be placed in a computer slot 16 Analog inputs Sampling rate up to: 250 KS/s Analog outputs 24 Digital Inputs/Outputs EFLPC/CCSOF.Computer Control+Data Acquisition+Data Management Software: Flexible, open and multicontrol software Management, processing, comparison and storage of data Sampling velocity up to 250,000 data per second It allows the registration of the alarms state and the graphic representation in real time Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) =Unit: 2750 x 2400 x 1500 mm Weight: 250 Kg Control Interface: 490x330x310 mm Weight: 10 Kg PRACTICAL POSSIBILITIES 1.- Lost of initial load of a porous bed 2.- Evolution with the time of the lost load of the bed 3.- Effectiveness of the filter Saturation 4.- Effectiveness of the filtration Clarification 5.- Filter laundry Fluidification 6.- Washing and filtering circuits 7.- The column may be readily adapted for absorption and ion exchange studies Other possible practices: 8.- Sensors calibration 9-27.- Practices with PLC EII Ion Exchange Unit SPECIFICATIONS SUMMARY Self-contained unit either single bed water softening or double bed system for demineralisation Anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit Exchange capacity of the different materials, as resins and used reagents, as well as the problem water Use of simple or double bed for demineralisation tanks (treated water, demineralized water, hydrochloric acid and sodium hydroxide) Pump diaphragm type Flow meter l./h,resistant to hydrochloric acid transparent vertical columns for the anionic and cationic resins, volume: 0.16l spare column Valves and pipes circuit Conductivity meter (with conductivity cell): scale 0.0 to 19.99 µS., operating temperature: to 50ºC., Accuracy +/-2% Typical commercial anionic and cationic resins Switch board Manuals: This unit is supplied Manuals Dimensions (approx.) = 1200 x 500 x 1000 mm Weight: 50 Kg More information in: www.edibon.com/products/ catalogues/en/units/environment/watertreatment/EII.pdf Non computer controlled version available Page 47 PRACTICAL POSSIBILITIES 1.2.3.4.5.6.7.8.9.10.11.12.13.14.15.16.- Study of general techniques of ion exchange Familiarization with the operation modes of column ionic exchange The exchange capabilities of different resins materials Water softening using a cationic resin Hard water softening (H+ ) Hard water softening (OH - ) Resin regeneration efficiency (H+ ) Demineralisation Demineralisation efficiency Determination of saline ions concentration Separation of Ni 2+ , Zn2+ Hard water softening (sodic resin) Resin regeneration efficiency (Na+ ) How to operate the conductivity meter Regeneration efficiency of a softening system Desmineralisation using two-bed exchange www.edibon.com 13 Environment More information in: www.edibon.com/products/catalogues/en/units/environment/watertreatment/EFLPC.pdf 8.3- Fluid Mechanics (Flow Channels) (continuation) CAS Sediment Transport Demonstration Channel 8.- Fluid Mechanics & Aerodynamics SPECIFICATIONS SUMMARY Some available accessoires: CFPS Single bridge pier CFRM Level gauge for measurement of the water height (hook and point gauges) CFPR Adjustable undershot weir CFDA Sand Distributor CFTP Pitot tube and manometer board CFVDG Broad and thin crested weirs CFSDL Syphon spillway Dam with launching pad CFSDS Air regulated syphon Dam with hard inclination Dam with soft inclination CFPVP Dams spillway and flow splitters (3 different models of dams) PRACTICAL POSSIBILITIES Flow over a mobile sand-bed Transparent, inclinable flow channel through which (bedforms associated with increasing flow intensity and water can be recirculated by a pump over a mobile sediment transport rate) bed to demonstrate the whole range of bed forms from 1.- Lower Regime (bedforms exhibed): - Plane- bed (no motion) incipient particle movement to bed wash-out - Ripples and dunes Anodized aluminium structure and supports in painted - Washed- out dunes steel -Ripples Main metallic elements in stainless steel -Dunes 2.- Upper Regime(bedforms exhibed): Channel of rectangular section with transparent walls, - Plane- bed (with motion) formed by folded methacrylate transparent pieces - Chutes and pools The channel is assembled on two supports, with a - Anti- dunes - Breaking anti- dunes system to control the inclination of the channel - Standing waves Channel slope: adjustable between 0% and +10% Flow over fixed, gravel-bed Channel section: 80mm, lenght: 2.5 m 3.- Although the channel can not transport gravel, this can The unit is self-contained and it can be installed with be used to investigate flow resistance in gravel and polder- bed rivers easiness, and it has a complete range of profiles 4.- We can calculate the flow resistance coeficients, using Inlet tank (capacity: 38 litres), with stilling of flow and equations such as those of Bray, Limerinos, Hey, Lacey, with drain valve Thompson and Campbell and Bathurst and the results compared to the actual values obtained by Pipes observation Diaphragm flow meter Flow structures Sediment filter in tank and inlet section 5.- We can examine the structure of turbulence in the flow, Manometric tubes panel It is formed by two using dye injection, interesting for the dune bedform configuration and clearly demonstrates separation on methacrylate tubes of 500 mm of length, with a the lee face graduated panel Hand pump Fixed, smooth bed flow: The grain diameter of the sediment oscillates among (the channel may be used without sediment on the bed to 0.1 to 0.3 mm demonstrate several flow phenomena and equations) 6.- Rapid, super- critical flow- dominance of intertial over Accessories included:(not included in the standard gravity forces, shock waves from flow obstructions supply) 7.- Turbulence CFRM Level gauge for measurement of the 8.- Governing equations of open channel flow-Reynold’s number, Froude number, continuity, Bernoulli,s water height (hook and point gauges), equation, weir equations to calibrate the overshot weir 9.- Tranquil, sub-critical flow- movement of surface waves CFDA Sand distributor upstream against flow CFPR Adjustable undershot weir 10.- Hydraulic jump- transition from super to sub critical flow, air entrainment, mixing CFPS Single bridge pier 11.- Flow measurement- using sharp crested weirs CFCV Vertical flat weir Bedform hysteresis The speed of discharge can be selected by means of 12.- If the discharge in the channel changes quickly, there is the valve that is placed in the Basic Hydraulic Feed no sufficient time for bedforms to adjust to the new flow regime Hence, if a flood hydrograph is simulated by System (FME00/B) increasing and then decreasing the discharge, Basic Hydraulic Feed System (FME00/B): different depths will occur for the same discharge on Centrifugal pump: 0.37 KW, 30 - 80 l/min at the rising and falling limbs Data collection and numerical evaluation(computational 20.1-12.8m., single-phase 220V / 50Hz or work) 110V / 60Hz 13.- In addition to illustrating flow and sediment Stainless steel impeller phenomena, we can use the channel for basic data Tank capacity:140 litres approx collection and numerical evaluation of the following: - Flow resistance: Flowmeter Manning, Chezy and Darcy-Weisbach fricion Membrane type flow adjusting valve factors for several bedform configuration Pump breaker starting - Bedform prediction: Safety differential switch Velocity-Hjulstrom diagram Suspended load-movement by suspension Cables and accessories, for normal operation Shields parameter-Bogardi diagram Manuals: Stream power-Simons and Richarson charts This unit is supplied with manuals Boundary shear stress-Leeder chart - Initiation of motion: Optional accessories: (not included in the standard Shields diagram supply) Hjulstrom’s curve CFTP Pitot tube and manometer board Mechanics of sediment transport CFVDG Broad and thin crested weirs (One 14.- We can observe the movement of grains, starting from a plane- bed with no motion, on the following: broad weir and thin weirs) - Initiation of motion CFCVR Vertical flat gate and radial gate - Trajectory of initial motion CFSDL Syphon spillway - Movement by rolling and sliding (contact load) - Movement by hopping (saltation load) CFPVP Dams spillway (3 different models) - Movement by suspension and flow splitters Depositionary features and facies CFCA Culvert fitting 15.- We can observe the deposition of sediment load and CFVC Crump weir the resulting patterns of grains within the sand body may be identified CFVEN Venturi flume Local scour CFSDS Air regulated syphon 16.- Scour under boils and vortices in the flow is observed CFFS False floor sections under both the lower and upper regime bedforms CFPLR Artificial roughened bed (3 different Obstructions may be introduced to represent bridge piers, sills, revetments, etc, and the resulting pattern of models) scour examined Dimensions (approx.): 3600 x 1000 x 1700mm Other possible practices: Weight (approx.): 250Kg 17.- Behaviour study of the connection to the drain of a channel with sendiment More information in: www.edibon.com/products/ 18.- Turbulence study by means coloration catalogues/en/units/fluidmechanicsaerodynamics/ 19.- Calculation of water flow fluidmechanicsflowchannels/CAS.pdf Page 22 11.4- Chemical Process 10 SPECIFICATIONS SUMMARY PRACTICAL POSSIBILITIES This unit permits the study of the agitation process in order to familiarise the student with the different magnitudes (torque, turning speed, etc) that take part in the process Anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit Brake Dynamo Motor: power: 0.37 kW, revolutions: from to 3000 rpm Torque meter: crowbar (load cell): 18.3 cm., force range: -39.2 N Carry-agitators: It is the element that allows installing different type of agitators Vertical platform: It allows displacing the brake dynamo motor vertically A screw and transfer guide its activation by lineal bearings Agitators: shovel, dia.: 100 mm., shovel, dia.: 50 mm., turbine, dia.: 100 mm., turbine, dia.: 50 mm., helix, dia.: 100 mm., helix, dia.: 50 mm Tanks: they are cylindrical and of transparent material, with have removable covers to avoid spills and splashes: tanks of 300 mm dia and 300 mm height, one with deflectors and the other without deflectors; tanks of 150 mm dia and 300 mm height, one with deflectors and the other without deflectors The capacity of the tanks is approximately 21 and litres The rotation speed of the turbine agitators oscillates between 1000-2500 rpm, and it is possible to obtain 3000 rpm The propeller agitators are used for mixing with a viscosity superior to 2000 cp Speed controller Cables and accessories for normal operation Manuals: This unit is supplied Manuals Dimensions (approx.) = 1940 x 700 x 910 mm Weight: 95 Kg 1.- Visualization of fluid fields 2.- Power required in the agitation process 3.- Suspensions of solid in liquids 4.- Formation of solutions solidsliquids 5.- Emulsion of unmiscible liquids 6.- Mixing of miscible liquids 7.- Heating process of liquid masses 8.- Test with models at scale 9.- Quality of mixing / mixing time 10.-Power speed of the different impellers 11.- Demonstration of the different factors (deposits, deflectors, agitators ) That affect the mixing, using visualization techniques and appropiate measurement More information in: www.edibon.com/products/catalogues/en/ units/chemicalengineering/chemicalprocess/EMLS.pdf EEC Corrosion Study Unit SPECIFICATIONS SUMMARY The “EEC” unit allows the corrosion simultaneous study of up corrosion cells, each containing different test specimens Anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit glass cells Each one consisting of: a 600 ml vessel (Pyrex) with a cover Such cover has four orifices: two to adapt the test sheets, one for the reference electrode and another one for the gases diffuser tube Number of cells selector Simultaneous study of corrosion in several cells Ag/AgCl reference electrode A group of test sheets (electrodes): It consists of 40 x 20 mm sheets of variable thickness depending on the material, and on materials such as stainless steel, carbon steel, zinc, brass, copper, aluminum, graphite, and iron (nails) Connection cables with mm terminals for the reference electrode (Ag/AgCl) and the test sheets Laboratory digital pH-meter Air pump for agitation Air pump switch Connection for air pump Inert gas inlet (If the customer wants to work in other kind of atmosphere) Milliammeter Millivoltmeter Milliammeter/ Millivoltmeter selector Two rotameters (flow meters): One for the air and another one for the gas Flow rate: 1-7.5 l/min Power supply of direct current (D C.) with 0-30V and 0-3A output, with intensity and voltage indicator Control valves for air and gas flow Unit main switch Safety differential switch Manuals: This unit is supplied Manuals Dimensions (approx.) = 1200 x 300 x500 mm Weight: 50 Kg More information in: www.edibon.com/products/catalogues/en/ units/chemicalengineering/chemicalprocess/EEC.pdf PRACTICAL POSSIBILITIES 1.2.3.4.5.6.7.8.- Galvanic potentials Galvanic pairs study Iron passivation pH influence Aluminium anodization Cathodic protection Galvanic corrosion + oxidation Efect of dissolved oxygen concentration 9.- Electrolytic corrosion 10.- Chemical inhibition 11.- Prevention of scaling 12.- Effect of internal stress 13.- Simultaneous study of corrosion in several cells Other possible practices: 14.- Water treatment studies: - Calcium carbonate stabilization - Oxidation of iron and manganese in ground waters - Water softening by chemical precipitation - Disinfection of waste water with chlorine solutions ESED Sedimentation Study Unit SPECIFICATIONS SUMMARY PRACTICAL POSSIBILITIES The sedimentation is a process widely used in the classification (by either equivalence or density), water clarification and wastewater treatment “ESED” unit provides a facility for studying the basic physical procesess involved in sedimentation, which the applications cover fields like chemical engineering, or concentration, water treatment and other industrial processes Five graduated cylinders of methacrylate (1m x 50 mm approx.) mounted vertically on a panel, illuminated from behind, and with the possibility of being removable for cleaning Stopwatch Screen with two fluorescent tubes Three beakers Specific gravity bottle Manuals: This unit is supplied with manuals Dimensions (approx.) = 550 x 400 x 1300 mm Weight: 35 Kg 1.- Variation of the sedimentation characteristics with the concentration a n d s u s p e n s i o n height 2.- Effect of initial concentration on sedimentation characteristics 3.- E f f e c t o f i n i t i a l h e i g h t o n sedimentation characteristics 4.- Construction of the rate of settling curver against concentration form a single batch test 5.- Effect of particle size distribution 7.- Identification of the different sedimentation regimens 8.- Use of flocculating additives 9.- Construction of settling rate curves 10.- Visualization of the retarded sedimentation 11.- Study of the differences between a clarified and classifier 12.- Study and visualization of the differential sedimentation 13.- Study of the methods of sinking and floating More information in: www.edibon.com/products/catalogues/en/ units/chemicalengineering/chemicalprocess/ESED.pdf QMS Solids Handling Study Unit SPECIFICATIONS SUMMARY This unit is designed to introduce students in different aspects of solids behaviour, unit operations such as size reduction, mixing, transport, discharge, weighting, etc Anodized aluminium structure Diagram in the front panel with similar distribution that the elements in the real unit Ball mill with various sizes of balls Motor for the ball mill Vibratory shaker and a set of eight sieves with several hole mesh from mm to 0.063 mm V-Blender Motor for the V-Blender Blowing and ejector Compressor Cyclone and pneumatic conveyor Rotary cylinder Hoppers with different sizes of exit orifices Collecting tray Balance Graduated test tube Manuals: This unit is supplied Manuals Dimensions (approx.) = 1020x840x1680 mm Weight: 200 Kg More information in: www.edibon.com/products/catalogues/en/ units/chemicalengineering/chemicalprocess/QMS.pdf Page 19 PRACTICAL POSSIBILITIES 1.- Sieving techniques 2.- To determine the angle of repose 3.- To determine bulk solids parameters of density 4.- Hopper discharge To use the hopper to measure solids discharge rates and relate to initial load and hoper exit orifice size 5.- Cyclone operation 6.- Pneumatic conveying 7.- Observe the comminution of granular solids processed through a ball mill 8.- Study of solids mixing 9.- Study of the solids properties 10.- Solids weighing: Balance Other possible practices: 11.- Mixer operation 12.- Siever operation www.edibon.com 11.Chemical Engineering EMLS Liquid/Solid Mixing Unit issue:01/11 PLC´s MODULE Ref: 1321/PLC ITEM / REFERENCE DESCRIPTION QTY PLC-PI EFLPC/PLC-SOF PLC MODULE PLC CONTROL SOFTWARE FOR DEEP BED FILTER UNIT 1 1321PARTS COMPONENTS AND SPARE PARTS 1321PA COMPLEMENTARY ITEM 1321IYPM INSTALLATION AND STARTING-UP 1321CAPRO TRAINING AND BRINGING UP TO DATE OF TEACHERS 1321TD TEACHING TECHNIQUES "KNOW - HOW" 1321MANU DOCUMENTATION AND MANUALS Notes: 1) Multipost option: This module has only one unit in each item, but we can recommend the number of units for 10 or 30 students working simultaneously 2)Supply conditions: a) Technical conditions included: - Laboratories adaptation Installation of all units supplied Starting up for all units Training about the exercises to be done with any unit - Teacher training related with t and the teaching unit and the teaching techniques uses - Technology transfer b) Commercial conditions: - Packing - Financing charges - C.I.F charges c) Others conditions: - Manuals for each EDIBON teaching unit: Required services manual Assembly and installation manual Interface and software/control console manual Set in operation manual Safety norms manual Practices manual Maintenance manual Calibration manual See Catalogues in next pages 6.2- Automatics PLC-PI Module for the Control of Industrial Processes (for working with EDIBON Computerized Teaching Units) Always included in the supply: PLC-SOF PLC Control Software for each particular EDIBON Computerized Teaching Unit Unit: PLC-PI PLC Module for the Control of Industrial Processes (for working with EDIBON Computerized Teaching Units) SPECIFICATIONS SUMMARY Items supplied as standard PLC-PI Unit: This PLC-PI unit contains a box, with a front panel in order to manipulate the unit in a simple and easy way, the power supply and all necessary connectors and cabling and, additionally, the PLC itself with its own touch screen We have design and supply the proper software for any particular application (for each particular EDIBON Computerized Teaching Unit) Steel box Circuit diagram in the front panel Front panel: Digital inputs(X) and Digital outputs (Y) block 16 Digital inputs 14 Digital outputs Analog inputs block: 16 Analog inputs Analog outputs block: Analog outputs Touch screen Back panel: Power supply connector Fuse 2A RS-232 connector to PC Inside: Power supply outputs: 24 Vdc, 12 Vdc, -12 Vdc, 12 Vdc variable Panasonic PLC: High-speed scan of 0.32msec for a basic instruction Program capacity of 32 Ksteps, with a sufficient comment area Multi-point PID control Digital inputs/outputs and analog inputs/outputs Panasonic modules Communication RS232 wire, to computer (PC) PLC-SOF PLC Control Software: For each particular EDIBON Computerized Teaching Unit Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions (approx.) =Unit: 490 x 330 x 310 mm Weight: 30 Kg More information in: www.edibon.com/products/catalogues/en/units/ PRACTICAL POSSIBILITIES 1.- Control of theparticular unit process through the control interface box without the computer 2.- PID control 3.- Visualization of all the sensors values used in the particular unit process 4.- Calibration of all sensors included in the particular unit process 5.- Hand on of all the actuators involved in the particular unit process 6.- Realization of different experiments, in automatic way, without having in front the particular unit (These experiments can be decided previously) 7.- Simulation of outside actions, in the cases not exist hardware elements (Example: test of complementary tanks, complementary i n d u s t r i a l environment to the process to be studied, etc) 8.- PLC hardware general use 9.- PLC process application for the particular unit 10.- PLC structure 11.- P L C i n p u t s a n d o u t p u t s configuration 12.- PLC configuration possibilities 13.- PLC program languages 14.- PLC different programming standard languages (ladder diagram (LD), structured text (ST), instructions list (IL), sequential function chart (SFC), function block diagram (FBD)) 15.- N e w c o n f i g u r a t i o n a n d development of new process 16.- Hand on an established process 17.- To visualize and see the results and to make comparisons with the particular unit process 18.- Possibility of creating new process in relation with the particular unit 19.- PLC Programming Exercises 20.- Own PLC applications in accordance with teacher and student requirements automationsystems/plcunitoperations/PLC-PI.pdf PLCE PLC Trainer PLC Programming Software PLCE Touch Screen Programming Software Unit: PLCE PLC Trainer PRACTICAL POSSIBILITIES SPECIFICATIONS SUMMARY Items supplied as standard PLCE Unit: This PLCE unit contains a box, with a front panel in order to manipulate the unit in a simple and easy way, the power supply and all necessary connectors and cabling and, additionally, the PLC itself with its own touch screen Steel box Circuit diagram in the front panel Front panel: Several 12V sources that can be activated through switches, lever type and push button type switches with their corresponding led that indicates the ON/OFF state of the source variable sources (potentiometer), to 10V 16 digital inputs 14 digital outputs analog inputs analog outputs ON/OF power switch Several mass connections (GND) Touch screen Back panel: Power supply connector Fuse 2A RS-232 connector to computer (PC) Inside: Power supply 100 240V (AC) Panasonic PLC: High-speed scan of 0.32 msec for a basic instruction Program capacity of 32 Ksteps, with a sufficient comment area High-speed counter Multi-point PID control Digital inputs/outputs and analog inputs/outputs Panasonic modules Communication RS 232 wire, to computer (PC) PC Bases Programming PLC Programming Software: Compatible with actual Windows operating systems Several programming languages can be used: ladder diagram (LD), structured text (ST), instructions list (IL), sequential function chart (SFC), function block diagram (FBD) Variables editors, configuration, programming and documentation To symbolize the application objects: bits, words, function blocks, inputs/outputs Operants available: inputs and outputs (X/Y), as well as internal memory areas, internal relays, special internal relays, timers and counters, data registers, special data registers, file registers, link registers and relays You can use either Matsushita and/or IEC addresses There are type on constants: decimal, hexadecimal and BCD This software provides elementary and user defined data types Matsushita Floating Point Instructions Set Uploading of source programs from PLC possible “Black boxing” of programs Reuse of programs is easy PLCE Touch Screen Programming Software: Tools for Screen Creation Plenty of functions Screens Creation Drawing Functions Easy Operativity (Click and slip) Easy creation of user libraries Printing Easy use Bitmaps Editor Cables and Accessories, for normal operation Manuals: This unit is supplied with manuals Dimensions=490 x 330 x 310 mm approx Weight: 20 Kg approx More information in: www.edibon.com/products/catalogues/en/units/ automationsystems/plcprocessemulation/PLCE.pdf Page 85 Using the PLC Programing Software: 1.- Creating applications for a PLC and loading them in the PLCE The programs can be written in several programming languages: Ladder diagram (LD) Structured text (ST) Instructions list (IL) Sequential function chart (SFC) Function block diagram (FBD) 2.- Check the digital inputs and their value and how to store in the variable 3.- Use of several inputs with the purpose of activating an output 4.- To assign names to the contacts in the edition area 5.- Use of all digital inputs (16) and to create a variable per digital input 6.- Interacting with a digital output, whose value will depend on that established in a variable 7.- How to use several digital variables and outputs 8.- How to use analog inputs 9.- How to use analog outputs 10.- Use of temporizers 11.- Logic functions implementation 12.- Application of the instructions set and reset 13.- Program jumps (conditional and non-conditional) 14.- Timer, counter and comparators 15.- Use of subroutines and interruptions events 16.- Functions library 17.- Regulation controls PID function 18.- Analog Inputs/Outputs Real Time visualization * Some applications related to these practices are included in the supply Using the PLCE Touch Screen Programming Software: 19.- How to create a simple application for the PLCE screen 20.- How to commute digital outputs of the PLC through the screen 21.- How to commute several digital outputs simultaneously (Working with words) 22.- Writing on and reading from a data register 23.- How to write a data register in a range of values 24.- Switching from one screen to another * Some applications related to these practices are included in the supply Other practical possibilities: -It is possible to make simulations without need of any external element, causing analog inputs and/or digital ones, and to observe what happens in the outputs -It is also possible to introduce real analog inputs (for example: the transducer value in volts of a temperature sensor) and/or digital inputs (for example: an external pulser) and to connect real actuators in the output, (for example: a pump) Presentation-CLICK HERE www.edibon.com 6.- Systems & Automatics Always included in the supply: ... www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ AEDC.pdf Page 25 www.edibon.com 12 Food & Water Technologies Items supplied as standard 12.1- Food Technology (Basic) (continuation)... 490x330x310 mm Weight: 10 Kg Food & Water Technologies 12 Food & Water Technologies More information in: www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ PADC.pdf... www.edibon.com/products/catalogues/en/units/foodwatertechnologies/foodtechnologybasic/ TPCC.pdf Page 28 PRACTICAL POSSIBILITIES 1.2.3.4.- Study of industrial freezing process Study of food preservation Study the effect of freezing on food