Titanium equipment supplier Baoji City Changsheng Titanium Co.,Ltd
High Efficiency: Electrical efficiency can reach 45%–60%, and overall efficiency can exceed 80% when combined with thermal energy recovery.
Fuel Flexibility: Supports various hydrocarbon fuels and hydrogen, adaptable to different energy conditions.
Low Emissions: Nearly zero emissions of nitrogen oxides (NOx) and sulfur oxides (SOx).
System Stability: Stable operation suitable for continuous long-term use.
Scalability: Modular design allows easy capacity expansion or feature upgrades.
The Solid Oxide Fuel Cell (SOFC) is a high-efficiency and clean distributed power generation technology that directly converts the chemical energy of fuels into electricity and heat under high-temperature conditions. SOFC systems are characterized by high efficiency, low emissions, and wide fuel flexibility, making them suitable for distributed energy, industrial power supply, backup power, and clean energy applications
| Parameter Category | Parameter Name | HBSOFC-1 kW | HBSOFC-3 kW | HBSOFC-5 kW | HBSOFC-10 kW | HBSOFC-20 kW | Remarks |
|---|---|---|---|---|---|---|---|
| System Model | HBSOFC-1 kW | HBSOFC-3 kW | HBSOFC-5 kW | HBSOFC-10 kW | HBSOFC-20 kW | Equipped with battery | |
| Power Output | 1.0 kW | 3.0 kW | 5.0 kW | 10 kW | 20 kW | ||
| Input Parameters | Methanol-water flow rate | 0.5~6.5 L/h | 1.5~6.5 L/h | 2.5~8.5 L/h | 3~15 L/h | 10~25 L/h | Optional |
| Cold water flow rate | 2~15 L/h | 8~30 L/h | 20~80 L/h | 50~200 L/h | 150~300 L/h | Optional | |
| Output Parameters | Output voltage | AC220 V | AC220 V | AC220 V | AC380 V | AC380 V | |
| Power generation efficiency | 40~55% | 40~55% | 40~55% | 40~55% | 40~55% | Stack power generation efficiency | |
| System cogeneration efficiency | 70~85% | 70~85% | 70~85% | 70~85% | 70~85% | ||
| Startup time | 10~24 h | 10~24 h | 10~24 h | 10~24 h | 10~24 h | ||
| Operating temperature | 700~750℃ | 700~750℃ | 700~750℃ | 700~750℃ | 700~750℃ | ||
| Exhaust gas temperature | 150~230℃ | 150~230℃ | 150~230℃ | 150~230℃ | 150~230℃ | With waste heat recovery 50~150℃ | |
| Hot water temperature | 40~80℃ | 40~80℃ | 40~80℃ | 40~80℃ | 40~80℃ | ||
| System lifespan | >10000 h | >10000 h | >10000 h | >10000 h | >10000 h | Excluding stack |
The SOFC power generation system can utilize a variety of hydrocarbon and hydrogen-based fuels, including:
Methanol
Methane (e.g., natural gas, biogas)
Propane (LPG)
Hydrogen
The SOFC power generation system supports a wide range of hydrocarbon and hydrogen-based fuels, including methanol, methane (natural gas, biogas), propane (LPG), and hydrogen. This flexibility allows the system to adapt to various energy infrastructures and fuel supplies worldwide.
The SOFC power generation system integrates the following key modules:
Fuel Control Module – Manages fuel intake, pretreatment, and reforming.
Electrical Control Module – Handles DC/AC conversion, grid connection, and power management.
SOFC Stack Thermal Zone – The system core where electrochemical reactions take place to generate power.
Heat Recovery Module – Utilizes waste heat for heating or combined heat and power (CHP) applications to enhance efficiency.
Monitoring & Safety System – Provides real-time operational monitoring, fault diagnosis, and safety protection.
High Efficiency: Electrical efficiency reaches 45%–60%, and with heat recovery the overall efficiency can exceed 80%.
Fuel Flexibility: Compatible with various hydrocarbon fuels and hydrogen, adaptable to different energy sources.
Low Emissions: Nearly zero nitrogen oxides (NOx) and sulfur oxides (SOx), with carbon emissions significantly lower than traditional combustion methods.
High Reliability: Equipped with real-time monitoring, fault diagnostics, and safety protection to ensure long-term stable operation.
Modular Design: Stack modules can be scaled as needed, covering applications from several kilowatts to multi-megawatt levels.
Distributed Energy & Microgrids
Combined Heat and Power (CHP) for Industrial & Commercial Use
Backup Power for Data Centers & Telecom Base Stations
Clean Energy & Hydrogen System Integration
Marine & Transportation Power (Future Prospects)
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