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Real-Time Monitoring of Micro-Electricity Generation Through the Voltage Across a Storage Capacitor Charged by a Simple Microbial Fuel Cell Reactor with Fast Fourier Transform

机译：通过简单的微生物燃料电池反应堆通过快速傅里叶变换的存储电容上电压的实时监测微发电通过电压产生的电压

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The pattern of micro-electricity production of simple two-chamber microbial fuel cells (MFC) was monitored in this study. Piggery wastewater and anaerobic sludge served as fuel and inocula for the MFC, respectively. The output power, including voltage and current generation, of triplicate MFCs was measured using an on-line monitoring system. The maximum voltage obtained among the triplicates was 0.663 V. We also found that removal efficiency of chemical oxygen demand (COD) and biochemical oxygen demand (BOD) in the piggery wastewater was 94.99 and 98.63%, respectively. Moreover, analytical results of Fast Fourier Transform (FFT) demonstrated that the output current comprised alternating current (AC) and direct current (DC) components, ranging from mA to μA.

机译：在本研究中监测简单的双腔微生物燃料电池（MFC）的微电量模式。 Piggery废水和Anaerobic污泥分别用作MFC的燃料和海湾。使用在线监测系统测量三份MFC的输出功率，包括电压和电流产生。三份子酸盐中获得的最大电压为0.663V。我们还发现，杀猪废水中的化学需氧量（COD）和生化氧需氧（BOD）的去除效率分别为94.99和98.63％。此外，快速傅里叶变换（FFT）的分析结果证明了输出电流包括交流电流（AC）和直流（DC）组分，范围为MA至μA。

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Jung-Chieh Su; Szu-Ching Tang; Po-Jui Su; Jung-Jeng Su;
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年度 2019
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1. Real-Time Monitoring of Micro-Electricity Generation Through the Voltage Across a Storage Capacitor Charged by a Simple Microbial Fuel Cell Reactor with Fast Fourier Transform [J] . Jung-Chieh Su, Szu-Ching Tang, Po-Jui Su, Energies . 2019,第13期

机译：通过带有快速傅里叶变换的简单微生物燃料电池反应堆充电的存储电容器两端的电压实时监测微电的产生
2. Real-Time Monitoring of Micro-Electricity Generation Through the Voltage Across a Storage Capacitor Charged by a Simple Microbial Fuel Cell Reactor with Fast Fourier Transform [J] . Jung-Chieh Su, Szu-Ching Tang, Po-Jui Su, Energies . 2019,第13期

机译：通过带有快速傅里叶变换的简单微生物燃料电池反应堆充电的存储电容器两端的电压实时监测微电的产生
3. Powering microbial electrolysis cells by capacitor circuits charged using microbial fuel cell [J] . Marta C. Hatzell, Younggy Kim, Bruce E. Logan Journal of power sources . 2013,第MAYa1期

机译：通过使用微生物燃料电池充电的电容器电路为微生物电解池供电
4. Design and Modelling of LLCL Filter for Real-time Harmonic Mitigation with Actual Prototype Implementation for Monitoring of Signal Variation using Fast Fourier Transform and NI MyRIO [C] . Jessie R. Balbin, John Ray O. Aguilar, Ian R. Guieb, International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management . 2020

机译：使用快速傅里叶变换和Ni Myrio的信号变化监测实际原型实现LLCL滤波器的设计与建模
5. Dynamic kernel function for high-speed real-time fast Fourier transform processors. [D] . Lee, Yu-Heng George. 2009

机译：动态内核功能，用于高速实时快速傅立叶变换处理器。
6. Simple fast and accurate methodology for quantitative analysis using Fourier transform infrared spectroscopy with bio-hybrid fuel cell examples [O] . David M. Mackie, Justin P. Jahnke, Marcus S. Benyamin, 2016

机译：使用傅里叶变换红外光谱法进行生物分析的简单快速准确的定量分析方法以及生物混合燃料电池示例
7. High voltage generation from wastewater by microbial fuel cells equipped with a newly designed low voltage booster multiplier (LVBM) [O] . N’Dah Joel Koffi, Satoshi Okabe 2020

机译：通过配备新设计的低压增压器倍增器（LVBM）的微生物燃料电池从废水中产生高压
8. A Simple Derivation of Glassman's General N Fast Fourier Transform [R] . Ferguson, W. E. 1979

机译：Glassman一般N快速傅里叶变换的简单推导

Real-Time Monitoring of Micro-Electricity Generation Through the Voltage Across a Storage Capacitor Charged by a Simple Microbial Fuel Cell Reactor with Fast Fourier Transform

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