Center Enamel: One-Stop Biogas EPC Solutions for Global Organic Waste Treatment

The global biogas industry competitive landscape shows divergence. Leading companies dominate major project market shares through the "EPC + Operation" integrated model, while small and medium-sized enterprises focus on county-level distributed projects and specialized equipment segments. China's biogas equipment exports continue to expand, with generator sets primarily flowing to emerging markets. Business model innovation is accelerating, with carbon asset development becoming a standard feature of large projects, converting methane emission reductions into tradable carbon credits.
Some countries have piloted digestate fertilizer carbon credit trading, encouraging the integration of digestate application to farmland with carbon accounting. The "biogas operation outsourcing" service model is emerging, improving operational efficiency of county-level projects through professional management. From a technology and equipment perspective, anaerobic digestion is the core process of biogas engineering. Glass-fused-to-steel (GFS) tanks, with their excellent sealing, corrosion resistance, and construction convenience, have become the mainstream choice for large anaerobic digestion tanks. Their modular design can be combined with membrane gas holders to form an integrated "fermentation + gas storage" solution, with penetration rates continuing to rise in new projects in biogas industry clusters.
CSTR Process Overview
CSTR, or Continuously Stirred Tank Reactor, is a suspended-growth continuous-flow anaerobic digestion process suitable for high-solids, high-concentration organic pollutant treatment, and is the most widely used classic anaerobic treatment technology. The process relies on a mechanical stirring system to solve the technical challenges of material stratification, sludge sedimentation, and surface crusting in traditional anaerobic reactors, achieving homogeneous mixing of wastewater, anaerobic sludge, functional microorganisms, and organic substrates throughout the reactor, ensuring full contact between microorganisms and pollutants.
Unlike attached-growth anaerobic processes, CSTR requires no media carriers, relying on suspended sludge bacterial communities for degradation reactions. It withstands high-suspended-solids and high-viscosity wastewater shocks, making it the mainstream process for food waste, livestock manure, and municipal sludge anaerobic digestion. The process architecture is simple, operation logic straightforward, and it is adaptable to various high-pollution organic solid-liquid mixed systems.
Malaysia Palm Oil Biogas Project
The project uses Center Enamel GFS tanks as the core anaerobic digestion facility with 5 tanks, each with effective volume of 5,400 m³, total effective volume 27,000 m³. Influent COD ≥ 60,000 mg/L, BOD ≤ 25,000 mg/L. After anaerobic digestion, effluent COD drops to below 12,000 mg/L, BOD ≤ 5,000 mg/L—overall organic removal efficiency approximately 80%. Single tank daily biogas production 4,400 m³, total project daily biogas 22,000 m³—stable biogas yield of 0.45 m³ per kg COD removed—efficient biogas energy recovery while solving palm oil processing wastewater pollution.
Center Enamel’s 30-Year Development Journey
Center Enamel has been deeply engaged in the environmental bolted storage equipment field for over 30 years. Starting with proprietary enamel anti-corrosion material technology, the company has gradually completed the full-industry-chain upgrade from a single tank manufacturer to a comprehensive environmental EPC service provider. Throughout its 30+ year history, the company has been recognized as a National High-Tech Enterprise, National Specialized and Sophisticated "Little Giant," Manufacturing Single Champion, and Provincial Green Factory. It has successfully delivered over 30,000 environmental projects globally, establishing itself as a leading enterprise in the global GFS tank storage industry. The company has fully integrated the entire chain from enamel frit R&D, intelligent environmental equipment manufacturing, to EPC project contracting—every business breakthrough has been achieved through proprietary core anti-corrosion technology.
Core Technology: Anti-Corrosion Enamel Barrier
Center Enamel has independently developed over 200 anti-corrosion enamel formulations, with proprietary double-sided double-layer enameling technology—GFS tank anti-corrosion service life exceeds 30 years—far surpassing concrete and ordinary equipment—suitable for global high-corrosion wastewater and biogas fermentation conditions.
Integrated Biogas Storage – Gas Holder
Center Enamel's Gas Holder (independent double-membrane biogas holder) is a ground-mounted biogas storage device installed independently from the fermentation tank. It adopts a double-layer high-strength membrane structure, with the inner membrane forming the gas storage cavity and the outer membrane forming the protective shell. Continuous aeration between the inner and outer membranes maintains constant positive pressure, ensuring stable sealing of the gas storage cavity. The Gas Holder is installed separately from the fermentation tank and connected via biogas transmission pipelines.
Biogas produced from the fermentation tank is sent to the holder for storage after desulfurization and dehydration, then pressure-regulated and stably delivered to end-use equipment, enabling separated management of biogas production, storage, and utilization. The gasholder volume can be customized from tens to thousands of cubic meters to meet storage and peak-shaving requirements for different production rates and consumption cycles.
The Gas Holder is equipped with a comprehensive safety control system, including biogas leak detection, inner membrane overpressure protection, emergency flare stack, and lightning protection grounding, ensuring full operational safety. The membrane material uses high-strength PVDF outer membrane and biogas-corrosion-resistant inner membrane, with a service life of over 15 years. Maintenance is simple, requiring only periodic checks of membrane integrity and aeration system operation, with significantly lower lifecycle maintenance costs than steel gasholders.