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Đánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chất

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Đánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chấtĐánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến bộ gần đây về cơ chất

TẠP CHÍ KHOA HỌC TRƯỜNG ĐẠI HỌC QUY NHƠN Đánh giá tổng quan tế bào nhiên liệu vi sinh: Những tiến gần chất Đinh Kha Lil *, Imee Saladaga Padillo Khoa Khoa học Tự nhiên, Trường Đại học Cần Thơ, Việt Nam Khoa Công nghệ, Đại học bang Eastern Visayas, Phi-líp-pin Ngày nhận bài: 25/06/2022; Ngày sửa bài: /10/ ; Ngày nhận đăng: 18/10/2022; Ngày xuất bản: 28/10/2022 TÓM TẮT Trong hai thập kỷ qua, pin nhiên liệu vi sinh vật (Microbial fuel cells - MFCs) ý chúng chuyển đổi trực tiếp lượng hóa học từ hợp chất hữu để tạo điện sinh học Với việc sử dụng MFC, lượng sinh khối thu trực tiếp dạng điện năng, lượng sạch, phổ biến tiện lợi Do đó, MFC xem phương pháp đầy hứa hẹn khác để khai thác lượng bền vững sinh khối Có nhiều chất nghiên cứu để sử dụng làm nguồn cấp nguyên liệu sử dụng MFC Chúng bao gồm nhiều loại nước thải nhân tạo, nước thải thực sinh khối lignocellulosic Trong số yếu tố ảnh hưởng đến hiệu suất MFCs: thiết kế, vật liệu điện cực, chất, màng trao đổi, vi sinh vật hoạt động điện, pH, nhiệt độ vận hành,… Cơ chất thách thức quan trọng cơng nghệ MFCs, địi hỏi ổn định lâu dài Việc sử dụng chất không ổn định ảnh hưởng trực tiếp đến hiệu suất MFC Tương tự, ảnh hưởng chất lên cộng đồng vi sinh vật thảo luận Bài tổng quan cập nhật tiến gần việc cải tiến công nghệ MFC để tăng cường hiệu suất phát điện, đặc biệt chất khác dùng MFC chất tiềm tương lai Từ khóa: Cơ chất, mật độ lượng, pin nhiên liệu vi sinh, xử lý nước thải *Tác giả liên hệ Email: lildk93@gmail.com KWWSV GRL R J Tạp chí Khoa học Trường Đại học Quy Nhơn, TQMV , 16(5), A review of the general microbial fuel cell: Recent advances in substrates Dinh Kha Lil *, Imee Saladaga Padillo College of Natural Sciences, Can Tho University, Vietnam College of Engineering, Eastern Visayas State University, Philippines Received: 25/06/2022; Revised: /10/ ; Accepted: 18/10/2022; Published: 28/10/2022 ABSTRACT Over the past two decades, microbial fuel cells (MFCs) have gained attention because they can directly convert chemical energy from organic compounds to bioelectricity Using MFCs, biomass energy can be directly KD YHVWHG LQ WKH IR P RI HOHFW LFLW ZKLFK LV WKH PRVW FRQYHQLHQW ZLGHO DYDLODEOH DQG FOHDQ HQH J 7KH HIR H 0)&V D H FRQVLGH HG WR EH DQRWKH S RPLVLQJ ZD WR KD QHVV VXVWDLQDEOH HQH J LQ ELRPDVV DQG DGG D QHZ GLPHQVLRQ WR WKH ELRPDVV HQH J LQGXVW 0DQ VXEVW DWHV KDYH EHHQ VWXGLHG IR PLF RELDO QRX LVKPHQW 7KHVH include a variety of arti cial and natural wastewater and lignocellulosic biomass Among factors essential for longWH P VWDELOLW LQ 0)&V WKH VXEVW DWH LV WKH PRVW FKDOOHQJLQJ 6WXGLHV KDYH VKRZQ WKDW DQ XQVWDEOH VXEVW DWH GL HFWO KD PV WKH SH IR PDQFH RI 0)&V 7KLV HYLHZ GLVFXVVHV WKH HIIHFW RI VXEVW DWHV RQ WKH PLF RELDO FRPPXQLW )X WKH PR H LW S RYLGHV XSGDWHV RQ HFHQW DGYDQFHV LQ LPS RYLQJ 0)& WHFKQRORJ SD WLFXOD O WKH GLIIH HQW substrates discovered in MFCs to date, power generation ef ciency, and potential substrates in the future Keywords: Microbial fuel cell, substrate, wastewater 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