A natural gas compression system is provided. The system may include a natural gas compressor configured to compress, and thereby pump, natural gas through a pipeline. The system may also include a natural gas burning engine, operatively coupled to the gas compressor, the engine being supplied with
A natural gas compression system is provided. The system may include a natural gas compressor configured to compress, and thereby pump, natural gas through a pipeline. The system may also include a natural gas burning engine, operatively coupled to the gas compressor, the engine being supplied with air by an induction system. The induction system may include a supercharger driven by the engine and configured to compress intake air and a turbocharger downstream from the supercharger and driven by exhaust gases produced by the engine. The induction system may also include a supercharger compressor bypass configured to selectively recirculate a portion of the compressed output of the supercharger upstream of the supercharger.
대표청구항▼
1. A natural gas compression system, comprising: a natural gas compressor configured to compress, and thereby pump, natural gas through a pipeline;a natural gas burning engine, operatively coupled to the natural gas compressor to drive the natural gas compressor, the engine being supplied with an in
1. A natural gas compression system, comprising: a natural gas compressor configured to compress, and thereby pump, natural gas through a pipeline;a natural gas burning engine, operatively coupled to the natural gas compressor to drive the natural gas compressor, the engine being supplied with an intake charge of a mixture of air and natural gas by an induction system including: a supercharger driven by the engine and configured to compress the intake charge;a turbocharger downstream from the supercharger and driven by exhaust gases produced by the engine; anda supercharger compressor bypass configured to selectively recirculate a portion of a compressed output of the supercharger to upstream of the supercharger. 2. The system of claim 1, further including a turbo compressor bypass configured to selectively recirculate a portion of a compressed turbo compressor output upstream of a turbo compressor of the turbocharger. 3. The system of claim 1, further including a wastegate configured to selectively route a portion of the exhaust gases past a turbine of the turbocharger. 4. The system of claim 1, wherein the engine is configured to perform a speed turndown wherein engine torque output is maintained substantially constant while engine speed is reduced to reduce the speed of the gas compressor. 5. The system of claim 4, further including a controller configured to control components of the system to perform the speed turndown. 6. The system of claim 1, wherein the natural gas that fuels the engine is introduced into the induction system upstream from the supercharger. 7. The system of claim 1, further including an intake throttle positioned downstream from the supercharger and the turbocharger, the intake throttle being configured to regulate the intake charge delivered to the engine. 8. The system of claim 7, further including a controller configured to control the intake throttle, wherein the controller is configured to reduce the intake charge delivered to the engine during engine startup. 9. A natural gas burning engine, comprising: an induction system configured to deliver an intake charge of a mixture of air and natural gas to the natural gas burning engine, the induction system including: a supercharger driven by the engine and configured to compress the intake charge;a turbocharger downstream from the supercharger and driven by exhaust gases produced by the engine; anda supercharger compressor bypass configured to selectively recirculate a portion of a compressed output of the supercharger to upstream of the supercharger. 10. The engine of claim 9, wherein the induction system further includes a turbo compressor bypass configured to selectively recirculate a portion of a compressed turbo compressor output upstream of a turbo compressor of the turbocharger. 11. The engine of claim 9, wherein the induction system further includes a wastegate configured to selectively route at least some of the exhaust gases past a turbine of the turbocharger. 12. The engine of claim 9, further configured to perform a speed turndown wherein engine torque output is maintained substantially constant while engine speed is reduced. 13. The engine of claim 12, wherein a controller is configured to control components of the induction system to perform the speed turndown. 14. The engine of claim 9, wherein the natural gas that fuels the engine is introduced into the induction system upstream from the supercharger. 15. The engine of claim 9, further including an intake throttle positioned downstream from the supercharger and the turbocharger, the intake throttle being configured to regulate the intake charge delivered to the engine. 16. The engine of claim 15, further including a controller configured to control the intake throttle, wherein the controller is configured to reduce the intake charge delivered to the engine during engine startup. 17. A method of pumping natural gas through a pipeline, comprising: supplying an intake charge of a mixture of air and natural gas to a natural gas burning engine with a supercharger driven by the engine and configured to compress the intake charge, and a turbocharger downstream from the supercharger and driven by exhaust gases produced by the engine;selectively recirculating at least some of a compressed output of the supercharger to upstream of the supercharger with a supercharger compressor bypass;driving a gas compressor with the engine; andoperating the gas compressor to pump natural gas through the pipeline. 18. The method of claim 17, further including: performing a speed turndown wherein engine torque output of the engine is maintained substantially constant while engine speed of the engine is reduced. 19. The method of claim 18, wherein the speed turndown is orchestrated by controlling components of the induction system with a controller.
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이 특허에 인용된 특허 (13)
Weber, James Richard; Leman, Scott A., Air and fuel supply system for combustion engine.
Leroy, Thomas; Chauvin, Jonathan; Chasse, Alexandre, Method of determining a pressure upstream of a compressor for an engine equipped with double supercharging.
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