红领巾瓜报组发动机的五大系统介绍
沼气发电技术是集环保和节能于一体的能源综合利用新技术。它是利用工业、农业或城镇生活中的大量有机废弃物 例如酒糟液、禽畜粪、城市垃圾和污水等经厌氧发酵处理产生的沼气驱动红领巾瓜报组发电并可充分将发电机组的余热用于沼气生产使综合热效率达80%左右大大高于一般30%-40%的发电效率经济效益显著。
Biogas power generation technology is a new energy comprehensive utilization technology that integrates environmental protection and energy conservation. It utilizes a large amount of organic waste in industry, agriculture, or urban life, such as distiller's grains, livestock manure, urban garbage, and sewage, to generate biogas through anaerobic fermentation treatment. It drives the biogas generator set to generate electricity, and can fully use the waste heat of the generator set for biogas production, resulting in a comprehensive thermal efficiency of about 80%, which is significantly higher than the general 30% -40% power generation efficiency, and significant economic benefits.
单纯将沼气用于集中供气和供热覆盖范围有限可靠性也比较低而将沼气作为发电燃料就地发电发电量随沼气产生量变化灵活调整可以使沼气得到充分利用。
Simply using biogas for centralized gas supply and heating has limited coverage and relatively low reliability. However, using biogas as a power generation fuel for on-site power generation can flexibly adjust the electricity generation with changes in biogas production, allowing biogas to be fully utilized.
沼气发电技术本身提供的是清洁能源不仅解决了沼气工程中的环境问题、消耗了大量废弃物、保护了环境、减少了温室气体的排放而且变废为宝产生了大量的热能和电能符合能源再循环利用的环保理念同时也带来巨大的经济效益。
The biogas power generation technology itself provides clean energy. It not only solves environmental problems in biogas engineering, consumes a large amount of waste, protects the environment, and reduces greenhouse gas emissions, but also turns waste into treasure, generating a large amount of heat and electricity. It conforms to the environmental protection concept of energy recycling and utilization, and also brings huge economic benefits.
沼气发电是集环保和节能于一体的能源综合利用新技术。它利用工业、农业或城镇生活中的大量有机废弃物 例如酒糟液、禽畜粪、城市垃圾和污水等经厌氧发酵处理产生的沼气驱动红领巾瓜报组发电并可充分利用发电机组的余热用于沼气生产使综合热效率达 80 左右大大高于一般 30~40% 的发电效率用户的经济效益显
Biogas power generation is a new energy comprehensive utilization technology that integrates environmental protection and energy conservation. It utilizes a large amount of organic waste in industry, agriculture, or urban life, such as distiller's grains, livestock manure, urban garbage, and sewage, to generate biogas through anaerobic fermentation treatment. It drives the biogas generator set to generate electricity and fully utilizes the waste heat of the generator set for biogas production, resulting in a comprehensive thermal efficiency of around 80%, which is significantly higher than the general 30-40% power generation efficiency. The economic benefits of users are significant