THERMOECONOMICAL METHOD OF ANALYSIS OF EFFICIENCY OF AIR COOLING AT ENGINE INTAKE BY WASTE HEAT RECOVERY COOLING MACHINES

REFERENCES

Nikolaevskie gazovye turbiny promyshlennogo primeneniya. – Nikolaev: GP NPKGT "Zorya"–"Mashproekt". – 2004. – 20 p.

Bhargava R. Parametric analysis of existing gas turbines with inlet evaporative and overspray fogging [Text] / R. Bhargava, C.B. Meher-Homji // Proceed-ings of ASME TURBO EXPO 2002. – Paper GT-2002-30560. – 15 p.

Bortmany J.N. Assesstment of aqua-ammonia re-frigeration for pre-cooling gas turbine inlet air [Text] / J.N. Bortmany // Proceedings of ASME TURBO EX-PO 2002. – Paper GT-2002-30657. – 12 p.

Campanary S. Technical and tariff scenarios effect on microturbine trigenerative applications [Text] / S. Campanary, Е. Macchi // Proceedings of ASME TURBO EXPO 2003. –Paper GT-2003-38275. – 10 p.

Capstone Turbine's Distribution Document Reposi-tory [Electronic resource]. – Access mode: http://docs.capstoneturbine.com/

Kohlenberger Associates Consulting Engineers [Electronic resource]. – Access mode: http://www. kaceenergy.com/paper3.htm

Ingersoll Rand. Energy Systems. Microturbine product and benefits. – 2011. – 24 p.

Thermo Efficiency System (TES) for reduction of fuel consumption and CO2 emission [Electronic re-source] // MAN B&W Diesel A/S. – Copenhagen, Denmark, 2005. – Access mode: http://www.

mandieselturbo.de/files/news/filesof5055/ P3339161.pdf. – 10.03.2014.

MAN B&W ME/ME-C/ME-GI/ME-B-TII engines [Electronic resource]. – Copenhagen, Denmark : MAN Diesel. – 2010. –357 р. – Access mode:

http://www.mandieselturbo.com/download/project_guides_tier2/ printed/s90mcc8.pdf

Schmid H. Marine technologies for reduced emis-sions /H. Schmid, G. Weisser // Wartsila Corporation. – April, 2005. – 12 p.

Environmental benefits and fuel savings success-fully combined in practice: Wartsila Corporation Press Release Trade & Technical Press. – 28 Sept., 2005.

Radchenko A.N. Metodologiya tekhniko-ekonomicheskogo obosnovaniya effektivnosti primeneniya trigeneratsii v gazoturbinnikh ustanovkakh [Text] / А.N. Radchenko, А.S. Morozova // Gazotur¬binnye tekhnologii: Rybinsk, Russia. – 2013. – № 3 (114). – P. 42–45.

Radchenko A.N. Otsenka potentsiala okhlazhdeniya vozdukha na vkhode gazoturbinnykh ustanovok transformatsiei teploty otrabotannykh gazov v teploispolzuyushchikh kholodilnykh mashinakh [Text] / А.N. Radchenko, S.А. Kantor // Aviatsionnaya kosmicheskaya tekhnika i tekhnologiya. – 2014. – № 4 (111). – P. 56 –59.

Radchenko A. Cooling cyclic intake air and charged gas-air mixture in gas engine of plant for combined energy supply [Text] / A. Radchenko, A. Konovalov // Proceedings of the 14 International Symposium on Heat Transfer and Renewable Sources of Energy: HTRSE2012.  Szczecin, Poland.  2012.  P. 497–502.

Chaker М. Inlet fogging of gas turbine engines: climatic analysis of gas turbine evaporative cooling potential of international locations [Text] / М. Chaker, С.В. Meher-Homji // Proceedings of ASME TURBO EXPO 2002. – Paper GT-2002-30559.

Літературне посилання

. Николаевские газовые турбины промышленного применения. – Николаев: ГП НПКГТ "Зоря"–"Машпроект". – 2004. – 20 с.

Bhargava R. Parametric analysis of existing gas turbines with inlet evaporative and overspray fogging [Text] / R. Bhargava, C.B. Meher-Homji // Proceed-ings of ASME TURBO EXPO 2002. – Paper GT-2002-30560. – 15 p.

Bortmany J.N. Assesstment of aqua-ammonia re-frigeration for pre-cooling gas turbine inlet air [Teкст] / J.N. Bortmany//Proceedings of ASME TURBO EXPO 2002. –Paper GT-2002-30657. – 12 p.

Campanary S. Technical and tariff scenarios effect on microturbine trigenerative applications [Teкст] / S. Campanary, Е. Macchi // Proceedings of ASME TURBO EXPO 2003. –Paper GT-2003-38275. – 10 p.

Capstone Turbine's Distribution Document Reposi-tory [Електронний ресурс]. – Режим доступа: http://docs.capstoneturbine.com/

Kohlenberger Associates Consulting Engineers [Електронний ресурс]. – Режим доступа: http://www.kaceenergy.com/paper3.htm

Ingersoll Rand. Energy Systems. Microturbine product and benefits. – 2011. – 24 p.

Thermo Efficiency System (TES) for reduction of fuel consumption and CO2 emission [Electronic re-source] // MAN B&W Diesel A/S. – Copenhagen, Denmark, 2005. – Access mode: http://www.mandieselturbo.de/files/news/filesof5055/P3339161.pdf. – 10.03.2014.

MAN B&W ME/ME-C/ME-GI/ME-B-TII engines [Electronic resource]. – Copenhagen, Denmark : MAN Diesel. – 2010. –357 р. – Access mode: http://www.mandieselturbo.com/download/project_guides_tier2/ printed/s90mcc8.pdf

Schmid H. Marine technologies for reduced emis-sions /H. Schmid, G. Weisser // Wartsila Corporation. – April, 2005. – 12 p.

Environmental benefits and fuel savings success-fully combined in practice: Wartsila Corporation Press Release Trade & Technical Press. – 28 Sept., 2005.

Радченко А.Н. Методология технико-экономического обоснования эффективности при-менения тригенерации в газотурбинных установ-ках [Teкст] / А.Н. Радченко, А.С. Морозова // Га-зотурбинные технологии: Рыбинск, Россия. – 2013. – № 3 (114). – С. 42–45.

Радченко А.Н. Оценка потенциала охлаждения воздуха на входе газотурбинных установок транс-формацией теплоты отработанных газов в тепло-использующих холодильных машинах [Teкст] / А.Н. Радченко, С.А. Кантор // Авиационно-космическая техника и технология. – 2014. – № 4 (111). – С. 56 –59.

Radchenko A. Cooling cyclic intake air and charged gas-air mixture in gas engine of plant for combined energy supply [Text] / A. Radchenko, A. Konovalov // Proceedings of the 14 International Symposium on Heat Transfer and Renewable Sources of Energy: HTRSE2012.  Szczecin, Poland.  2012.  P. 497–502.

Chaker М. Inlet fogging of gas turbine engines: climatic analysis of gas turbine evaporative cooling potential of international locations [Teкст] / М. Chaker, С.В. Meher-Homji // Proceedings of ASME TURBO EXPO 2002. – Paper GT-2002-30559.