| Place of Origin: | China |
| Brand Name: | CEC TANKS |
| Certification: | ISO 9001:2008, AWWA D103 , OSHA , BSCI |
| Model Number: | W |
| Minimum Order Quantity: | 1set |
| Price: | $5000~$20000 one set |
| Packaging Details: | PE poly-foam between each two steel plates ; wooden pallet and wooden |
| Delivery Time: | 10-30 days after deposit received |
| Payment Terms: | L/C,T/T |
| Supply Ability: | 60 sets per month |
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Detail Information |
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| Place of Origin | China | Brand Name | CEC TANKS |
|---|---|---|---|
| Certification | ISO 9001:2008, AWWA D103 , OSHA , BSCI | Model Number | W |
| Tank Body Color: | Dark Green / Can Be Customized | Corrosion Integrity: | Excellent |
| Steel Plates Thickness: | 3mm To 12mm , Depends On The Tank Structure | Chemical Resistance: | Excellent |
| Size Of Panel: | 2.4M * 1.2M | Easy To Clean: | Smooth, Glossy, Inert, Anti-adhesion |
| Highlight: | biogas project GFS tanks,CSTR process silage straw,wastewater treatment biogas solutions |
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Japan’s agricultural sector is increasingly focused on modernization and sustainability, yet the effective management of abundant silage straw residues presents a complex challenge. In many regions, the accumulation of this biomass creates significant logistical bottlenecks, requiring extensive storage space and careful handling to prevent fire risks and environmental degradation. Furthermore, traditional disposal methods in Japan are proving insufficient to meet the rising demand for cleaner, more efficient agricultural practices. By shifting toward advanced waste-to-energy solutions, Japanese producers can successfully overcome these disposal hurdles. Transitioning to innovative anaerobic digestion allows for the transformation of problematic crop residues into a valuable, renewable energy source, thereby enhancing operational cleanliness and supporting the broader national goal of achieving a circular, sustainable agricultural economy.
Repurposing silage straw for biogas production provides a strategic advantage for Japanese agricultural facilities aiming for high-level sustainability. This conversion process offers several key benefits: first, it streamlines the management of farm waste, substantially reducing both logistical expenses and the environmental impact associated with traditional field disposal. Second, the anaerobic digestion process efficiently captures latent methane energy within the straw, providing a stable and reliable source of renewable fuel for industrial heating, electrical power generation, or specialized equipment. By adopting this technology, farmers move toward a highly efficient circular model, turning a material that was once a cost burden into a productive energy asset that improves long-term financial resilience.
Center Enamel offers comprehensive, expert-led design packages meticulously calibrated to the specific requirements of Japanese biogas projects. We recognize that successful energy conversion requires a deep understanding of Japan’s unique regional climate variations and the specific physical properties of local silage straw. Our engineering team employs advanced high-fidelity simulations and precision modeling to forecast potential gas outputs and optimize the layout of the entire plant. From conducting preliminary site feasibility studies to drafting long-term, scalable operational blueprints, our professional services are focused on maximizing safety, improving process efficiency, and ensuring that each biogas project remains highly profitable and durable for years to come.
The foundation of our facility designs is the Continuous Stirred-Tank Reactor (CSTR), a technology specifically optimized for handling high-solids waste streams such as silage straw. The CSTR process establishes a perfectly controlled environment where biomass and active microbial colonies are maintained in a state of consistent, high-intensity mixing. By incorporating a robust mechanical stirring mechanism, our reactors successfully eliminate "dead zones," ensuring that every part of the organic input is fermented completely. This high level of process control results in accelerated gas generation rates and produces a significantly more stable digestate, making the CSTR the industry standard for efficient waste-to-energy conversion.
Our storage architecture utilizes the powerful combination of Glass-Fused-to-Steel (GFS) tanks and integrated double membrane roofs. GFS tanks are manufactured by fusing high-grade glass to steel at temperatures between 820°C and 930°C, creating an inorganic bond capable of withstanding extreme chemical corrosion. When paired with a double membrane roof—which acts simultaneously as a durable protective cover and an expandable gas holder—the system achieves remarkable space efficiency and airtight performance. This dual-layer technology ensures that biogas is captured without any loss, while the durable tank construction guarantees structural integrity under the high-pressure demands of large-scale anaerobic digestion projects.
Beyond our flagship double membrane roofs, Center Enamel provides a diverse portfolio of specialized cover technologies to meet specific site requirements:
A fully functional biogas plant relies on a sophisticated ecosystem of ancillary equipment provided by Center Enamel to maintain peak operational performance:
Center Enamel operates as a comprehensive, single-source partner, providing integrated EPC (Engineering, Procurement, and Construction) services for the Japanese renewable energy market:
By integrating cutting-edge CSTR technology, corrosion-resistant GFS tanks, and high-performance double membrane roofs, Center Enamel delivers a definitive solution for biomass energy in Japan. Our integrated EPC approach minimizes technical project risks while maximizing operational output. By choosing a globally trusted manufacturer and service provider, you ensure that your biogas facility is constructed to the highest international standards, providing a sustainable, profitable, and reliable waste-to-energy solution that meets the evolving demands of the modern Japanese agricultural sector.