ABOUTUS
The company’s business revolves around “carbon.”
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Carbonization
Energy Reconversion—Carbon Cycle™ Technology
First, traditional energy sources rely on fossil fuels, and their ultimate emissions are predominantly in the form of CO₂. The technology roadmap focused on energy conservation and carbon reduction emphasizes CO₂ capture and utilization, paving the way for a "blue hydrogen" approach. Our company’s technology is based on the carbonization of biomass or municipal solid waste, producing biochar that significantly reduces the carbon emissions originally released. At the same time, this biochar can be used to generate green energy; the CO₂ consumed in the process will serve as nutrients for the biomass, thus creating a closed-loop carbon cycle.
II. Currently, virtually all green energy production projects on the market operate on an energy-for-energy model—using renewable energy sources such as wind, solar, hydro, and nuclear to generate electricity, which is then used to produce green hydrogen or other forms of green energy. However, Huichao has introduced the concept of Carbon Cycling™ (CARBONCYCLING™), under which the entire energy consumption cycle for producing green energy originates entirely from bio-waste (such as biomass). By extracting various forms of energy from bio-waste, we achieve the full utilization of pure biomass energy.
Carbon Cycle™ Technology Process Route
Organic solid wastes (biomass or municipal solid waste) undergo a carbonization reaction to produce biochar. Biochar exhibits excellent energy stability—its particles are in the millimeter range, it has a high energy density, is primarily composed of carbon with trace amounts of other elements—and, similar to sub-bituminous coal, serves as an ideal feedstock for gasification processes. The gasification products resulting from biochar powder are relatively simple, consisting mainly of CO, H₂, and CO₂. After undergoing a series of dust removal, purification, desulfurization, and decarbonization reactions, biochar is transformed into syngas (CO and H₂). This syngas can then be used via conventional coal-to-chemicals processes to produce a variety of green energy sources, including green methanol, green sustainable aviation fuel (SAF), green ammonia, and green hydrogen.
Technical Features: Taking Methanol as an Example
Traditional Methanol Production Process
Among the three conventional processes for producing green methanol, the green-electricity electrolysis and green-natural-gas processes have long process flows and relatively high costs, and have now become non-mainstream technologies. Direct gasification of biomass to produce syngas and subsequently bio-methanol is currently the mainstream technology; however, both domestically and internationally, this approach has yet to achieve satisfactory technological stability, and direct biomass gasification still faces numerous technical challenges.
Methanol Production Technology Plan
This scheme involves the carbonization of biomass, which produces biochar powder and combustible syngas. The combustible syngas is used to power the equipment, and the equipment’s reactions do not require any additional auxiliary energy sources. The biochar powder is converted into syngas through a mature and highly efficient coal chemical process, and the syngas is further used to produce green methanol. The reaction process is highly efficient and stable. Since biochar powder is purer, has a higher calorific value, and is more uniform than raw biomass, the conversion process—from biochar powder directly gasifying into syngas—is actually more efficient and stable compared to the one-step direct gasification of biomass.
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No. 227, Jinhui Road, Wenquan Subdistrict, Zhaoyuan City, Yantai City, Shandong Province