Background
Vietnam is rich in natural resources, yet it consistently faces the challenge of balancing energy supply with environmental protection during its industrialization process. The heavy reliance on traditional energy sources such as coal and gas for heating has increasingly revealed limitations in both cost control and ecological preservation.
In the project location, small and medium-sized enterprises long depended on gas as their primary heating source. The combustion of gas not only releases large amounts of carbon dioxide but also emits harmful gases and particulate matter such as sulfides and nitrogen oxides, significantly impacting air quality. Residents chronically exposed to such conditions are prone to respiratory diseases and other health risks. Moreover, as gas supply depends on fossil fuels, it is subject to price volatility and unstable supply chains, further increasing the economic burden on households and small businesses and exacerbating "energy poverty" in some regions.
This locally based renewable biomass energy solution converts forestry waste into valuable energy, reducing the pollution caused by traditional burning methods and decreasing dependence on fossil fuels, thereby creating a virtuous cycle of "resources-energy-environment." The project not only provides a stable and reliable heat supply but also explores a sustainable development path that harmonizes industrial growth with environmental protection, offering a valuable model for Southeast Asia and other countries facing similar challenges.
Pioneering solution
Based on Vietnam's challenging energy landscape, we have delivered a groundbreaking integrated solution to ensure reliable and stable thermal energy supply.
Our innovative system features an updraft gasifier specifically engineered for wood waste, integrated with a tar-water separation unit and an incineration system to guarantee the quality of purified syngas and provide consistent fuel supply. This robust configuration operates over 8,000 hours annually, delivering round-the-clock thermal energy to the entire plant and replacing conventional coal gas.
Utilizing wood chip waste as feedstock, the project converts biomass into syngas through gasification, displacing traditional coal gas for heating. This initiative not only reduces dependence on an unstable grid through clean electricity generation but also establishes a replicable, sustainable, and self-sufficient industrial energy model for Vietnam.
Key Customer Benefits
1. Energy Independence, Uninterrupted Production
Achieve a stable and reliable thermal energy supply, completely eliminating dependence on volatile and unstable gas supply, thereby ensuring continuity and stability in industrial operations.
2. Significant Reduction in Energy Costs
Utilize locally sourced, cost-effective wood chips as feedstock to replace expensive gas, directly lowering heating costs and enhancing product market competitiveness.
3. Generation of Additional Revenue Streams
The by-product, biochar, can be sold as a high-quality soil amendment and fuel, while the tar can also be marketed as fuel, creating multiple additional revenue streams. It also holds significant potential for future carbon credit revenue.
4. Enhanced Environmental Image and Community Relations
Achieve near-zero emissions of pollutants like sulfur oxides and particulate matter, significantly improving local air quality and building a responsible corporate image for better community relations.
5. Establishment of a Circular Economy Model
Transform forestry waste (wood chips) into valuable resources, converting it into clean energy and high-value products, reducing open burning pollution, and forming a virtuous "resource-energy-environment" cycle.
Industrial Project Timeline: Real-Time Progress Display
