This project establishes a complete net zero emission system for waste conversion and reuse. The biomass wastes were pre-treated with novel technology and were then subjected to low-temperature torrefaction and carbonization to convert them into biochar to serve as a coal substitute. The waste gas produced during torrefaction was purified to clean CO2 through the PSA method and the CO2 was used to grow microalgae with high CO2 carbon sequestration efficiency in a continuous mode. The biomass produced can either be burned to generate heat energy or used to produce high-value chemicals through extraction or fermentation to achieve BECCS.
1.Heat pump combined with desiccant for dehumidification & 2.Smart defrost control method & 3.Design of AIoT EMCS communication system & 4.System and Method for a Non-Intrusive Refrigerant Leakage Detection and Adaptive Method for Threshold Thereof
The integration of energy-saving regenerative combustion and adsorption system for disposing industrial volatile organic compounds
Method for manufacturing an active substance for inducing self-lysis in microalgae cells, active substance obtained therefrom, and method for inducing self-lysis in microalgae cells
Method for manufacturing an active substance for inducing self-lysis in microalgae cells, active substance obtained therefrom, and method for inducing self-lysis in microalgae cells
Technology maturity:Prototype
Exhibiting purpose:Display of scientific results
Trading preferences:Exclusive license/assignment、Technical license/cooperation、Negotiate by self
Coming soon!