|By JCN Newswire||
|September 20, 2013 12:05 AM EDT||
MHI began developing the pressurized hybrid power generation system in 2008 at its Nagasaki Shipyard & Machinery Works, working in collaboration with the New Energy and Industrial Technology Development Organization (NEDO). The first stage of power generation takes place in the SOFC module by injecting city gas as fuel to produce electricity through chemical reaction. The unreacted portion of the gas and hot air discharged from the SOFC module are then used to drive an MGT. This two-stage system achieves significantly higher power generation efficiency and, as a result, saves substantial energy. In addition, as the high-temperature exhaust gas from the MGT can be used to generate hot water and steam, the hybrid system is capable of performing combined heat and power (CHP) supply functions.
In the pressurized hybrid system, air pressurized by the MGT's compressor is supplied to SOFCs and used as oxidant; then the thermal energy and pressure of the high-temperature exhaust gas from the SOFC module are transferred to the MGT to be used, together with the unreacted portion of the gas, to produce electricity. In this system, the inherent ability of pressurized SOFCs to increase voltage significantly is effectively utilized to enhance power generation efficiency. The system has also reduced installation space requirements by half, by boosting power density through enhanced SOFC module performance and a simplified system configuration.
Tokyo Gas' Senju Techno Station, where the pressurized hybrid system was installed, also contains a facility where the utility introduces its advanced energy-related technologies to its stakeholders. The station agreed to cooperate with MHI in its continuous operating test in consideration of its function as a supplier of city gas -the fuel used in the hybrid system. The testing demonstrated stable operation even in the heavy-load summer season.
SOFCs are ceramic-based fuel cells that operate at a high temperature above 900 degrees Celsius (1,650 degrees Fahrenheit) and produce electricity directly by chemical reaction between hydrogen and carbon oxide removed from city gas and oxygen in the air. MHI has been vigorously pursuing power generation methods to reduce carbon dioxide (CO2) emissions, including high-efficiency thermal power generation systems, nuclear power systems, and renewable energies such as wind power, and it sees SOFC technology as a promising method.
MHI has been conducting joint development of the hybrid system with Toyota Motor Corporation since 2008. Toyota Turbine and Systems Inc., which markets MGTs, is a Toyota affiliate.
Based on the successful operation of the pressurized SOFC-MGT hybrid power generation system, going forward MHI now plans to conduct safety verification tests and explore the market for the system's business and industrial applications.
* Lower heating value: the heat value of a combustion process excluding latent heat from vaporization of water. Higher heating value (HHV) is the gross value including such latent heat.
About Mitsubishi Heavy Industries
Mitsubishi Heavy Industries, Ltd. (MHI), headquartered in Tokyo, Japan, is one of the world's leading heavy machinery manufacturers, with consolidated sales of 2,820.9 billion for the year ended March 31, 2012. MHI's diverse lineup of products and services encompasses shipbuilding, power plants, chemical plants, environmental equipment, steel structures, industrial and general machinery, aircraft, space rocketry and air-conditioning systems. For more information, please visit the MHI website at www.mhi.co.jp.
Source: Mitsubishi Heavy Industries
Mitsubishi Heavy Industries Hideo Ikuno email@example.com +81-3-6716-5277
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