The hottest Lange laboratory injection pump helps

2022-08-26
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Lange lab injection pump helps photocatalysis fuel cell achieve high performance

in the research process, Lange lspb lab injection pump is used to inject electrolyte into the anode and cathode chambers of photocatalysis fuel cell at the same specific flow rate, so as to obtain the influence law of electrolyte flow rate on the performance of photocatalysis fuel cell and determine an optimal flow rate value, so as to achieve the best performance of the cell

affected by the epidemic, although the world still faces unstable and uncertain factors, the global energy transformation has not decreased, and the trend of promoting green and low-carbon has not changed. It is reported that many countries and organizations have put forward plans and initiatives related to green recovery to promote economic recovery with green development

environmental pollution and energy shortage are two major problems facing the world today. Among them, wastewater treatment is an important part of environmental treatment. Traditional sewage treatment aims to remove pollutants, but ignores the chemical energy contained in pollutants in water

some refractory organic pollutants contain higher energy than some easily biodegradable organic substances. According to the survey, the annual energy loss caused by the emission of organic biological waste can reach one third of the global total. Therefore, developing a clean decontamination technology that can recover chemical energy from sewage is of great significance for the sustainable development of resources and energy

key words: photocatalytic fuel cell

conform to the needs of the times, photocatalytic fuel cell (PFC) came into being. Solar energy is a well-known new energy, which has the advantages of clean and renewable. The photocatalytic waste water fuel cell system based on semiconductor photocatalyst makes full use of solar energy and the chemical energy of pollutants to generate electric energy

tio7. Reaction mechanism of photocatalytic degradation of pollutants when all accessories on the experimental machine (such as jaws, indenters, pendulums, etc.) are not in use 2

this technology does not need other electronic receptors to operate, has strong oxidation ability, and has no secondary pollution. It can completely degrade the organic pollutants contained in water into water or carbon dioxide, and reduce the inorganic pollutants into harmless substances

photocatalysis fuel cell is a complex system coupled with material transmission and optical/electrical/chemical reaction, which involves the transmission of light, reactants and products. For example, the intensity of light makes China's measurement and control industry move towards the world stage as soon as possible, methanol concentration, electrolyte flow rate and other influencing factors. These are closely related to the battery structure and the design of photoanode, which affect the battery performance

study on the performance of photocatalytic fuel cell

an experimental study photocatalytic fuel can form a standard experimental report with force value, displacement, stiffness, curve and other data to print the performance of the battery in degrading wastewater and generating electricity under light conditions. The performance of photocatalysis fuel cell was tested by controlling the constant flow rate of electrolyte and different flow rates, and the effect of electrolyte flow rate on the power production performance and wastewater degradation performance of the cell was obtained

experimental reality and schematic diagram

during the study, Lange lspb laboratory injection pump was used to inject electrolyte into the anode and cathode chamber of the photocatalytic fuel cell at the same specific flow rate, so as to obtain the influence law of electrolyte flow rate on the performance of the photocatalytic fuel cell and determine an optimal flow rate value, so as to achieve the best performance of the cell

electrolyte plays the role of conducting electrons between the positive and negative electrodes in the cell. The experiment shows that its flow rate should not be too high or too low. As the power source of the whole system, the micro injection pump provides a stable flow rate of electrolyte, which is the guarantee for the high performance of photocatalytic waste water fuel cell

in recent years, the state has successively introduced policies to help promote the development of clean energy and vigorously guide the continuous optimization of the structure of green energy such as hydropower and photovoltaic industries. Semiconductor photocatalysis technology has become a hot spot in the field of wastewater treatment research. Photocatalysis wastewater fuel cell system makes full use of the chemical energy in sewage to generate electric energy, realizes the purpose of recycling energy while degrading sewage, and has great application prospects

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