Capstone Turbine

Capstone Turbine Corporation, incorporated in 1988, is a California based gas turbine manufacturer that specializes in microturbine power along with heating and cooling cogeneration systems. Key to the Capstone design is its use of air bearings, which provides maintenance and fluid-free operation for the lifetime of the turbine and reduces the system to a single moving part. This also eliminates the need for any cooling or other secondary systems. The Capstone microturbine is a versatile and dispatchable technology that is fuel flexible and scalable enough to fit a variety of applications.

Capstone Turbine Corp.
TypePublic
NASDAQ: CPST
Russell Microcap Index component
IndustryIndustrial Electrical Equipment
Founded1988
HeadquartersVan Nuys, California, United States
Key people
Darren R. Jamison (CEO)
ProductsMicroturbines
Revenue$82.8 Million (Period Ending 31-Mar-18)
Number of employees
171[1]
Websitewww.capstoneturbine.com
Cross-section cutaway illustration of Capstone C65 (65kW) microturbine

The company sells microturbine generators for electrical power generation, cogeneration, biogas-fueled renewable energy, and hybrid vehicle power. Capstone has microturbine offerings in the following sizes: 30 kW, 60 kW, 65 kW, 200 kW, 600 kW, 800 kW and 1 MW. Multiple turbines can be combined with Capstone's APS or Advanced Power Server to create multiple megawatt installations.

Capstone microturbines have generated some interest as a range extender for hybrid electric vehicles, in particular hybrid electric work trucks. Their light weight, small size and quick starting time make them ideal as "instant-on" backup power to recharge the main batteries. An example of a hybrid vehicle is the Capstone CMT-380, with a 30 kW gas turbine generator running on diesel, that recharges Li-Poly batteries when necessary. The CMT-380 has a proposed range of 80 miles on battery alone, but when combined with the microturbine that range is pushed to over 500+ miles.

Capstone is a member of the U.S. Environmental Protection Agency's Combined Heat and Power Partnership, which is committed to improving the efficiency of the nation's energy infrastructure and reducing emissions of pollutants and greenhouse gases. A DQS-Certified ISO 9001:2015 and ISO 14001:2015 certified company, Capstone is headquartered in the Los Angeles area with sales and/or service centers in the United States, Latin America, Europe, Middle East and Asia.

Microturbine operation is represented by the Brayton cycle. In this cycle, the compressor first raises the pressure of the ambient air to the required pressure ratio. The compressed combustion air is then routed through a non-mixing exhaust-to-air heat exchanger called a recuperator. The recuperator allows the microturbine to utilize a portion of the exhaust energy to preheat the incoming combustion air. By using preheated air in the combustion process, less fuel is necessary to obtain the exhaust temperature required for expansion across the turbine. This results in an increase in the overall fuel-to-electrical efficiency of the microturbine.

In the next step of the cycle, the compressed and preheated air is fed to a combustor where it is mixed with the fuel and hence burned. This combustion process releases energy in the form of heat. The heated combustion exhaust gases are expanded through a gas turbine to drive the rotation of the central shaft and its attached compressor and permanent magnet generator. Since the turbine, compressor and generator are mounted on a single rotating shaft, they rotate at the same speed to produce electrical power while continuously drawing in air to maintain the overall process. The faster the shaft spins in the magnetic field, the more electrical output is achieved by the generator. Output power conditioning is obtained using inverter based power electronics.

Sponsorship

Capstone Turbine is a sponsor of NTT IndyCar Series driver Colton Herta

See also

References

  1. "Company Profile for Capstone Turbine Corp (CPST)". Archived from the original on 2011-10-05. Retrieved 2008-10-22.
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