Environment Governance
Zhonglin International Group focuses on research and exploration of environmental solutions and energy utilization, and has always adhered to a development strategy centered on technological innovation. It is committed to the industrial promotion and application of new technologies and upgraded alternative technologies. The group relies on its own technical team, We have developed a "Jienengshi" technology platform with independent intellectual property rights, which includes high water content solid waste pretreatment technologies such as "modified agent pressure filtration dehydration technology", "low energy consumption multi effect drying system", as well as "intermittent sulfurization bed pyrolysis gas production process", "subcritical hydrolysis anaerobic process", and "organic solid waste preparation solid biomass fuel process" Organic solid waste energy conversion technology. Through technological innovation and process optimization, we utilize advanced energy conversion technology to achieve maximum cleanliness, efficiency, and economy in the system operation process and products.
Subcritical hydrolysis anaerobic project
Subcritical hydrolysis mainly targets harmless, reduced, and resourceful treatment of medical waste, aquaculture waste, kitchen waste, municipal sludge, and other waste materials. This technology has significant characteristics that traditional processes cannot match, such as high gas production, short treatment time, low solid waste emissions, and low energy consumption. Through this technology, efficient biogas power generation can be achieved, and waste can be recycled!
Municipal organic solid waste to biomass-fuel project
This project mainly focuses on the preparation of biomass solid fuel rods from municipal organic solid waste in landfills. Through RDF technology, the recycling operation of the landfill can be truly achieved. The project deeply treats and reduces the capacity of the landfill, achieving a benign operation state of simultaneous landfill treatment and reduction, greatly extending the service life of the landfill, increasing the overall capacity of the landfill, and effectively alleviating the further spread of environmental impact. At the same time, through this project, the sealed landfill can be cleared and treated, and economically valuable land can be revitalized, integrating it into urban construction and creating higher economic benefits.
Organic solid waste pyrolysis gasification project
The pyrolysis gasification project mainly targets the environmentally friendly and resourceful treatment of agricultural and forestry biomass, traditional Chinese medicine residue, papermaking industry waste residue, industrial organic waste, etc. The technology has obvious advantages in terms of technology and economy for high moisture organic solid waste. The project eliminates pollution emissions from the source and efficiently converts the organic components in waste into composite gas through thermal decomposition gasification. Gas can be converted into secondary energy such as electricity and steam, with a gasification efficiency of up to 78%. Ash is rich in potassium and phosphorus, and can be used for agricultural fertilizers or as a type of ternary soil in construction projects. This project adopts various innovative processes, including "modified agent pressure filtration room temperature dehydration technology", "low energy consumption multi effect drying technology", "intermittent vulcanization bed pyrolysis gas production technology", "gas reforming technology", and "dual effect tar cracking technology". Its significant characteristics are high efficiency, no tar phenols, and high degree of resource utilization.