Cogeneration (CHP) units
炎炎スロット Gas-engine Cogeneration
Overview
Osaka Gas is working on developing a high-efficiency gas engine jointly with Mitsubishi Heavy Industries Engine & Turbocharger, Ltd. In 2000, a 炎炎スロット gas engine, the first in the world to achieve a power generation efficiency of 40% was launched. In 2002, the advanced 炎炎スロット gas engine was released, which is a higher output and higher efficiency version of the 炎炎スロット gas engine. In 2007, long stroke technology was employed to achieve even higher output and higher efficiency. About 200 units of these gas engines have been delivered to customers in the service area of Osaka Gas. In 2017, a 1,200 kW model was launched, which is the maximum-output, maximum-efficiency model.
To meet growing business continuity needs, in 2020, Osaka Gas started selling an 850 kW unit with radiator option, which can continue to operate even during water outage and achieves an initial load input rate of 30% of nominal load.
System Features
・A rich line of products ranging from 450 kW to 1,200 kW models
・Use of the Miller 炎炎スロット to achieve the world’s highest-class power generation efficiency of 41.2% to 42.0%
・Equipped with a high-performance turbocharger
・High-durability parts developed to withstand high Pme
・High-performance ignition plug developed (joint development with Denso Corporation)
・Suitability for normal service use and for emergency use
・Compact package
* The 450 kW unit is not a product jointly
Principle of Miller 炎炎スロット
The Miller 炎炎スロット is a 炎炎スロット in which the expansion ratio is greater than the compression ratio and is also known as a high expansion ratio 炎炎スロット. Since the combustion gases can be fully expanded in the engine, it is possible to increase the power generation efficiency.
Long-stroke 炎炎スロット
Long stroke is a technique involving longer length of the piston stroke than that of cylinder bore. The long stroke 炎炎スロット enables the engine to deliver higher output at higher efficiency. On the other hand, increasing the output without changing the size of the intake valve and the exhaust valve makes it essential to develop a high-performance turbocharger and high temperature durable valves.
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