Düşük Güçte Bir Motor Test Düzeneği Kurulumu ve Örnek Bir Uygulama Gerçekleştirilmesi
Year 2020,
, 376 - 389, 13.03.2020
Salih Özer
,
Mehmet Akçay
İlker Turgut Yılmaz
,
Erdinç Vural
Abstract
İçten
yanmalı motorların test edilmesi işleminde genellikle ithalat
yoluyla temin edilen, oldukça yüksek maliyetli motor test
dinamometreleri kullanılmaktadır. Bu çalışmanın amacı, oldukça
yüksek maliyetli olan içten yanmalı motor test dinamometreleri
yerine, tek silindirli dizel motorlu bir jeneratörün motor test
düzeneğine dönüştürülmesi ile düşük maliyetli bir içten
yanmalı motor test düzeneği elde etmektir. Elde edilen düzenekte
viskozitesi toluen ile iyileştirilmiş olan fuel-oil kullanılarak
motor performansına etkileri incelenmiştir. Bu çalışma
kapsamında 10 HP güce ve 3000 1/min sabit devire sahip dizel
motorlu jeneratör kullanılmıştır. Dizel motorun yüklenmesi
işlemi jeneratöre alıcı bağlanması ile gerçekleştirilmiştir.
Motorun gücü ve her bir krank mili açısı için silindir içi
basıncı, yakıt hattı basıncı anlık olarak gözlenmiş ve
kaydedilmiştir.
Dizel
ve dizel+fuel-oil karışımları kullanılarak gerçekleştirilen
deneylerde, fuel-oil katkısı ile silindir içi basınç değerinin
düştüğü, yakıt tüketiminin ve egzoz gazı sıcaklığının
arttığı görülmüştür.
Supporting Institution
Muş Alparslan Üniversitesi Bilimsel Araştırmalar ve Projeler Birimi
Project Number
BAP-17-MMF-4901-03
Thanks
Bu çalışma, BAP-17-MMF-4901-03 proje numarası ile Muş Alparslan Üniversitesi Bilimsel Araştırma Projeleri birimi tarafından desteklenmiştir. Proje desteği için teşekkür ederiz.
References
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- 3. Öz, İ.H., Borat, O., Sürmen, A. 2003. İçten Yanmalı Motorlar, Birsen Yayınevi, İstanbul.
- 4. Batmaz, U. 2010. Construction of a computer controlled diesel engine setup for performance and emission test, Master of Science in Mechanical EngineeringDepartment, Middle East Technical University, Ankara, Türkiye.
- 5. Aktaş, A., Aydın, M., Sekmen, P. 2016. Bir AC Jeneratörün Motor Dinamometresi Olarak Kullanılabilirliğinin Araştırılması, El-Cezeri Fen ve Mühendislik Dergisi, 3 (3), 498-505.
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- 7. Koç, T. 2012. Bir motor test ünitesinin kontrol sisteminin tasarımı, Yüksek Lisans Tezi, Fen Bilimleri Enstitüsü, Sakarya Üniversitesi.
- 8. Oliveira, A., Morais, A.M., Valente, O.S. and Sodré, J.R. 2014. Combustion, performance and emissions of a diesel power generator with direct injection of B7 and port injection of ethanol, J Braz. Soc. Mech. Sci. Eng., 39, 1087-1096.
- 9. Işık, M.Z., Bayındır, H., İscan, B., Aydın, H. 2017. The effect of n-butanol additive on low load combustion, performance and emissions of biodiesel-diesel blend in a heavy duty diesel power generator, Journal of the Energy Institute, 90, 174-184.
- 10. Lata, D.B., Misra, A., Medhekar, S. 2012. Effect of Hydrogen and LPG Addition on the Efficiency and Emissions of a Dual Fuel Diesel Engine, International Journal of Hydrogen Energy, 37: 6084-6096.
- 11. Singh, R.N., Singh S.P., Pathak, B.S. 2007. Investigations on Operation of CI Engine Using Producer Gas And Rice Bran Oil In Mixed Fuel Mode, Renewable Energy, 32: 1565-1580.
- 12. Chung, T.W., Liu, K.T. and Gao, S. 2012. Fuel Properties and Emissions from a Diesel Power Generator Fuelled with Jatropha Oil and Diesel Fuel Blends, Advanced Materials Research, (347-353), 2688-2691. doi:10.4028/www.scientific.net/AMR.347-353.2688
- 13. Killol, A., Reddy, N. 2019. Paruvada, S. and Murugan, S., Experimental studies of a diesel engine run on biodiesel n-butanol blends, Renewable Energy 135: 687-700.
- 14. Wittek, K., Geiger, F., Andert, J., Martins, M., Cogo, V. and Lanzanova, T. 2019. Experimental investigation of a variable compression ratio system applied to a gasoline passenger car engine, Energy Conversion and Management 183 753-763.
- 15. Kumar, M.S., Arul, K. and Sasikumar, N. 2019. Impact of oxygen enrichment on the engine's performance, emission and combustion behavior of a biofuel based reactivity controlled compression ignition engine, Journal of the Energy Institute 92 51-61.
- 16. Montoya, J.P.G., Diaz, G.J.A. and Arrieta, A.A.A. 2018. Effect of equivalence ratio on knocking tendency in spark ignition engines fueled with fuel blends of biogas, natural gas, propane and hydrogen, International journal of hydrogen energy, 43 23041-23049
- 17. Labeckas, G. And Slavinskas, S. 2013. Performance and emission characteristics of a direct injection diesel engine operating on KDV synthetic diesel fuel, Energy Conversion and Management 66:173-188.
- 18. Aydın, M., Irgin, A. and Çelik, M.B. 2018. The Impact of Diesel/LPG Dual Fuel on Performance and Emissions in a Single Cylinder Diesel Generator, Applied Sciences, 8(5), 825, 1-14.
- 19. Hawi, M., Elwardany, A., Ookawara, S. and Ahmed, M. 2019. Effect of compression ratio on performance, combustion and emissions characteristics of compression ignition engine fueled with jojoba methyl ester, Renewable Energy 141:632-645.
- 20. Karthickeyan, V. 2019. Effect of combustion chamber bowl geometry modification on engine performance, combustion and emission characteristics of biodiesel fuelled diesel engine with its energy and exergy analysis, Energy 176: 830-852.
- 21. Luo, Q., Hu, J.B., Sun, B., Liu, F., Wang, X., Li, C. and Bao, L. 2019. Experimental investigation of combustion characteristics and NOx emission of a turbocharged hydrogen internal combustion engine, International journal of hydrogen energy, 44 5573-5584.
- 22. Yeom, J.K., Jung, S.H. and Yoon, J.H. 2019. An experimental study on the application of oxygenated fuel to diesel engines, Fuel 248:262-277.
- 23. Öztürk, U., Hazar, H. and Yılmaz, F. 2019. Comparative performance and emission characteristics of peanut seed oil methyl ester (PSME) on a thermal isolated diesel engine, Energy 167:260-268.
- 24. Lee, J., Park, C., Kim, Y., Choi, Y., Bae, J. and Lim, B. 2019. Effect of turbocharger on performance and thermal efficiency of hydrogen-fueled spark ignition engine, International journal of hydrogen energy, 44: 4350-4360.
- 25. Asokan, M.A., Prabu, S.S., Bade, P.K.K., Nekkanti, V.M. and Gutta, S.S.G., 2019. Performance, combustion and emission characteristics of juliflora biodiesel fuelled DI diesel engine, Energy 173: 883-892.
- 26. Nour, M., El-Seesy, A.I., Abdel-Rahman, A.K. and Bady, M. 2018. Influence of adding aluminum oxide nanoparticles to diesterol blends on the combustion and exhaust emission characteristics of a diesel engine, Experimental Thermal and Fluid Science 98: 634-644.
- 27. Al-Dawody, M.F., Jazie, A.A., Abbas, H.A. 2019. Experimental and simulation study for the effect of waste cooking oil methyl ester blended with diesel fuel on the performance and emissions of diesel engine, Alexandria Engineering Journal 58, 9-17.
- 28. Alptekin, E., Sanli, H. and Canakci, M. 2019. Combustion and performance evaluation of a common rail DI diesel engine fueled with ethyl and methyl esters, Applied Thermal Engineering 149180-191.
- 29. Öztürk, E. 2015. Performance, emissions, combustion and injection characteristics of a diesel engine fuelled with canola oil–hazelnut soapstock biodiesel mixture, Fuel Processing Technology 129:183-191.
- 30. Özer, S. 2015. Pirina yağından fuzel yağı ile biyodizel üretimi ve dizel motor performans ve emisyonlarına etkisi, Fen Bilimleri Enstitüsü, Makine Eğitimi Anabilim Dalı, Doktora Tezi, Karabük, Türkiye.
- 31. Sandalcı, T., Işın, Ö., Galata, S., Karagöz, Y., Güler, İ. 2019. Effect of hythane enrichment on performance, emission and combustion characteristics of an CI engine, International journal of hydrogen energy 44: 3208-3220.
- 32. Jamrozik, A., Tutak, W., Pyrc, M., Gruca, M., Kocisko, M. 2018. Study on co-combustion of diesel fuel with oxygenated alcohols in a compression ignition dual-fuel engine, Fuel 221 329-345.
- 33. Tangöz, S., Kahraman, N., Akansu, S.O. 2017. The effect of hydrogen on the performance and emissions of an SI engine having a high compression ratio fuelled by compressed natural, International journal of hydrogen energy 42: 25766-25780.
- 34. Sharma, T.K. 2015. Performance and emission characteristics of the thermal barrier coated SI engine by adding argon inert gas to intake mixture, Journal of Advanced Research, 6, 819-826.
- 35. Yılmaz, E., Aksoy, F. 2019. %10 Balık Yağı Biyodizeli-%90 Dizel Yakıt Karışımı İle Çalışan Direkt Enjeksiyonlu Bir Dizel Motorunda Yanma ve Performans Karakteristiklerinin İncelenmesi, Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım ve Teknoloji, 7(1), 12-24.
- 36. Şimşek, D., Çolak, N.Y. 2019. Biyodizel/Propanol Yakıt Karışımlarının Dizel Motor Emisyonlarına Etkisinin İncelenmesi, El-Cezeri Fen ve Mühendislik Dergisi, 6(1), 166-174.
- 37. Kumar, R. and Gakkhar, R.P. 2018. Influence of nozzle opening pressure on combustion, performance and emission analysis of waste cooking oil biodiesel fuelled diesel engine, Int. J. Renewable Energy Technology, 9(1/2), 244-259.
- 38. Aydogan, H., Acaroglu, M., Ozcelik, A.E. 2018. Comparison of Performance and Combustion Characteristics of Methyl Ester and Ethanol Used In a Common Rail Diesel Engine, 4th International conference on environmental science and technology, 19-23 September 2018 Kiev, Ukraine.
- 39. Kumar, R. and Gakkhar, R.P. 2018. Influence of nozzle opening pressure on combustion, performance and emission analysis of waste cooking oil biodiesel fuelled diesel engine, Int. J. Renewable Energy Technology, 9(1/2), 244-259.
- 40. Azad, A.K., Rasul, M.G., Bhatt, C. 2019. Combustion and emission analysis of Jajoba biodiesel to assess its suitability as an alternative to diesel fuel, Energy Procedia 156 159-165.
- 41. Raman, L.A., Deepanraj, B., Rajakumar, S., Sivasubramanian, V. 2019. Experimental investigation on performance, combustion and emission analysis of a direct injection diesel engine fuelled with rapeseed oil biodiesel, Fuel 246: 69-74.
- 42. Srivastava, P.K., Verma, M. 2008. Methyl ester of karanja oil as an alternative renewable source energy, Fuel 87: 1673-1677.
- 43. Arunkumar, M., Kannan, M., Murali, G. 2019. Experimental studies on engine performance and emission characteristics using castor biodiesel as fuel in CI engine, Renewable Energy 131: 737-744.
- 44. Dhanasekaran, R., Ganesan, S., Kumar, B.R., Saravanan, S. 2019. Utilization of waste cooking oil in a light-duty DI diesel engine for cleaner emissions using bio-derived propanol, Fuel 235 832-837.
- 45. Shen, X., Shi, J., Cao, X., Zhang, X., Zhang, W., Wu, H. 2018. Real-world exhaust emissions and fuel consumption for diesel vehicles fueled by waste cooking oil biodiesel blends, Atmospheric Environment 191: 249-257.
- 46. Valente, O.S., da Silva, M.J., Pasa, V.M.D., Belchior, C.R.P., Sodre, J.R. 2010. Fuel consumption and emissions from a diesel power generator fuelled with castor oil and soybean biodiesel, Fuel 89 3637-3642.
Year 2020,
, 376 - 389, 13.03.2020
Salih Özer
,
Mehmet Akçay
İlker Turgut Yılmaz
,
Erdinç Vural
Project Number
BAP-17-MMF-4901-03
References
- 1. Passenbrunner, T.E., Sassano, M. and Re, L. 2013. Optimal Control of Internal Combustion Engine Test Benches equipped with Hydrodynamic Dynamometers, 7th IFAC Symposium on Advances in Automotive Control, September 4-7, 2013, p. 576-581, Tokyo, Japan.
- 2. Blumenschein, J., Schrangl, P., Passenbrunner, T.E., Trogmann, H. and Re, L. 2013. Easily Adaptable Model of Test Benches for Internal Combustion Engines, 2013 European Control Conference (ECC), July 17-19, 2013, Zürich, Switzerland.
- 3. Öz, İ.H., Borat, O., Sürmen, A. 2003. İçten Yanmalı Motorlar, Birsen Yayınevi, İstanbul.
- 4. Batmaz, U. 2010. Construction of a computer controlled diesel engine setup for performance and emission test, Master of Science in Mechanical EngineeringDepartment, Middle East Technical University, Ankara, Türkiye.
- 5. Aktaş, A., Aydın, M., Sekmen, P. 2016. Bir AC Jeneratörün Motor Dinamometresi Olarak Kullanılabilirliğinin Araştırılması, El-Cezeri Fen ve Mühendislik Dergisi, 3 (3), 498-505.
- 6. Çelik, M.B., Bayır, R. ve Özdalyan, B. 2007. Bilgisayar destekli motor test standının tasarımı ve imalatı, Teknoloji, 10 (2), 131-141.
- 7. Koç, T. 2012. Bir motor test ünitesinin kontrol sisteminin tasarımı, Yüksek Lisans Tezi, Fen Bilimleri Enstitüsü, Sakarya Üniversitesi.
- 8. Oliveira, A., Morais, A.M., Valente, O.S. and Sodré, J.R. 2014. Combustion, performance and emissions of a diesel power generator with direct injection of B7 and port injection of ethanol, J Braz. Soc. Mech. Sci. Eng., 39, 1087-1096.
- 9. Işık, M.Z., Bayındır, H., İscan, B., Aydın, H. 2017. The effect of n-butanol additive on low load combustion, performance and emissions of biodiesel-diesel blend in a heavy duty diesel power generator, Journal of the Energy Institute, 90, 174-184.
- 10. Lata, D.B., Misra, A., Medhekar, S. 2012. Effect of Hydrogen and LPG Addition on the Efficiency and Emissions of a Dual Fuel Diesel Engine, International Journal of Hydrogen Energy, 37: 6084-6096.
- 11. Singh, R.N., Singh S.P., Pathak, B.S. 2007. Investigations on Operation of CI Engine Using Producer Gas And Rice Bran Oil In Mixed Fuel Mode, Renewable Energy, 32: 1565-1580.
- 12. Chung, T.W., Liu, K.T. and Gao, S. 2012. Fuel Properties and Emissions from a Diesel Power Generator Fuelled with Jatropha Oil and Diesel Fuel Blends, Advanced Materials Research, (347-353), 2688-2691. doi:10.4028/www.scientific.net/AMR.347-353.2688
- 13. Killol, A., Reddy, N. 2019. Paruvada, S. and Murugan, S., Experimental studies of a diesel engine run on biodiesel n-butanol blends, Renewable Energy 135: 687-700.
- 14. Wittek, K., Geiger, F., Andert, J., Martins, M., Cogo, V. and Lanzanova, T. 2019. Experimental investigation of a variable compression ratio system applied to a gasoline passenger car engine, Energy Conversion and Management 183 753-763.
- 15. Kumar, M.S., Arul, K. and Sasikumar, N. 2019. Impact of oxygen enrichment on the engine's performance, emission and combustion behavior of a biofuel based reactivity controlled compression ignition engine, Journal of the Energy Institute 92 51-61.
- 16. Montoya, J.P.G., Diaz, G.J.A. and Arrieta, A.A.A. 2018. Effect of equivalence ratio on knocking tendency in spark ignition engines fueled with fuel blends of biogas, natural gas, propane and hydrogen, International journal of hydrogen energy, 43 23041-23049
- 17. Labeckas, G. And Slavinskas, S. 2013. Performance and emission characteristics of a direct injection diesel engine operating on KDV synthetic diesel fuel, Energy Conversion and Management 66:173-188.
- 18. Aydın, M., Irgin, A. and Çelik, M.B. 2018. The Impact of Diesel/LPG Dual Fuel on Performance and Emissions in a Single Cylinder Diesel Generator, Applied Sciences, 8(5), 825, 1-14.
- 19. Hawi, M., Elwardany, A., Ookawara, S. and Ahmed, M. 2019. Effect of compression ratio on performance, combustion and emissions characteristics of compression ignition engine fueled with jojoba methyl ester, Renewable Energy 141:632-645.
- 20. Karthickeyan, V. 2019. Effect of combustion chamber bowl geometry modification on engine performance, combustion and emission characteristics of biodiesel fuelled diesel engine with its energy and exergy analysis, Energy 176: 830-852.
- 21. Luo, Q., Hu, J.B., Sun, B., Liu, F., Wang, X., Li, C. and Bao, L. 2019. Experimental investigation of combustion characteristics and NOx emission of a turbocharged hydrogen internal combustion engine, International journal of hydrogen energy, 44 5573-5584.
- 22. Yeom, J.K., Jung, S.H. and Yoon, J.H. 2019. An experimental study on the application of oxygenated fuel to diesel engines, Fuel 248:262-277.
- 23. Öztürk, U., Hazar, H. and Yılmaz, F. 2019. Comparative performance and emission characteristics of peanut seed oil methyl ester (PSME) on a thermal isolated diesel engine, Energy 167:260-268.
- 24. Lee, J., Park, C., Kim, Y., Choi, Y., Bae, J. and Lim, B. 2019. Effect of turbocharger on performance and thermal efficiency of hydrogen-fueled spark ignition engine, International journal of hydrogen energy, 44: 4350-4360.
- 25. Asokan, M.A., Prabu, S.S., Bade, P.K.K., Nekkanti, V.M. and Gutta, S.S.G., 2019. Performance, combustion and emission characteristics of juliflora biodiesel fuelled DI diesel engine, Energy 173: 883-892.
- 26. Nour, M., El-Seesy, A.I., Abdel-Rahman, A.K. and Bady, M. 2018. Influence of adding aluminum oxide nanoparticles to diesterol blends on the combustion and exhaust emission characteristics of a diesel engine, Experimental Thermal and Fluid Science 98: 634-644.
- 27. Al-Dawody, M.F., Jazie, A.A., Abbas, H.A. 2019. Experimental and simulation study for the effect of waste cooking oil methyl ester blended with diesel fuel on the performance and emissions of diesel engine, Alexandria Engineering Journal 58, 9-17.
- 28. Alptekin, E., Sanli, H. and Canakci, M. 2019. Combustion and performance evaluation of a common rail DI diesel engine fueled with ethyl and methyl esters, Applied Thermal Engineering 149180-191.
- 29. Öztürk, E. 2015. Performance, emissions, combustion and injection characteristics of a diesel engine fuelled with canola oil–hazelnut soapstock biodiesel mixture, Fuel Processing Technology 129:183-191.
- 30. Özer, S. 2015. Pirina yağından fuzel yağı ile biyodizel üretimi ve dizel motor performans ve emisyonlarına etkisi, Fen Bilimleri Enstitüsü, Makine Eğitimi Anabilim Dalı, Doktora Tezi, Karabük, Türkiye.
- 31. Sandalcı, T., Işın, Ö., Galata, S., Karagöz, Y., Güler, İ. 2019. Effect of hythane enrichment on performance, emission and combustion characteristics of an CI engine, International journal of hydrogen energy 44: 3208-3220.
- 32. Jamrozik, A., Tutak, W., Pyrc, M., Gruca, M., Kocisko, M. 2018. Study on co-combustion of diesel fuel with oxygenated alcohols in a compression ignition dual-fuel engine, Fuel 221 329-345.
- 33. Tangöz, S., Kahraman, N., Akansu, S.O. 2017. The effect of hydrogen on the performance and emissions of an SI engine having a high compression ratio fuelled by compressed natural, International journal of hydrogen energy 42: 25766-25780.
- 34. Sharma, T.K. 2015. Performance and emission characteristics of the thermal barrier coated SI engine by adding argon inert gas to intake mixture, Journal of Advanced Research, 6, 819-826.
- 35. Yılmaz, E., Aksoy, F. 2019. %10 Balık Yağı Biyodizeli-%90 Dizel Yakıt Karışımı İle Çalışan Direkt Enjeksiyonlu Bir Dizel Motorunda Yanma ve Performans Karakteristiklerinin İncelenmesi, Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım ve Teknoloji, 7(1), 12-24.
- 36. Şimşek, D., Çolak, N.Y. 2019. Biyodizel/Propanol Yakıt Karışımlarının Dizel Motor Emisyonlarına Etkisinin İncelenmesi, El-Cezeri Fen ve Mühendislik Dergisi, 6(1), 166-174.
- 37. Kumar, R. and Gakkhar, R.P. 2018. Influence of nozzle opening pressure on combustion, performance and emission analysis of waste cooking oil biodiesel fuelled diesel engine, Int. J. Renewable Energy Technology, 9(1/2), 244-259.
- 38. Aydogan, H., Acaroglu, M., Ozcelik, A.E. 2018. Comparison of Performance and Combustion Characteristics of Methyl Ester and Ethanol Used In a Common Rail Diesel Engine, 4th International conference on environmental science and technology, 19-23 September 2018 Kiev, Ukraine.
- 39. Kumar, R. and Gakkhar, R.P. 2018. Influence of nozzle opening pressure on combustion, performance and emission analysis of waste cooking oil biodiesel fuelled diesel engine, Int. J. Renewable Energy Technology, 9(1/2), 244-259.
- 40. Azad, A.K., Rasul, M.G., Bhatt, C. 2019. Combustion and emission analysis of Jajoba biodiesel to assess its suitability as an alternative to diesel fuel, Energy Procedia 156 159-165.
- 41. Raman, L.A., Deepanraj, B., Rajakumar, S., Sivasubramanian, V. 2019. Experimental investigation on performance, combustion and emission analysis of a direct injection diesel engine fuelled with rapeseed oil biodiesel, Fuel 246: 69-74.
- 42. Srivastava, P.K., Verma, M. 2008. Methyl ester of karanja oil as an alternative renewable source energy, Fuel 87: 1673-1677.
- 43. Arunkumar, M., Kannan, M., Murali, G. 2019. Experimental studies on engine performance and emission characteristics using castor biodiesel as fuel in CI engine, Renewable Energy 131: 737-744.
- 44. Dhanasekaran, R., Ganesan, S., Kumar, B.R., Saravanan, S. 2019. Utilization of waste cooking oil in a light-duty DI diesel engine for cleaner emissions using bio-derived propanol, Fuel 235 832-837.
- 45. Shen, X., Shi, J., Cao, X., Zhang, X., Zhang, W., Wu, H. 2018. Real-world exhaust emissions and fuel consumption for diesel vehicles fueled by waste cooking oil biodiesel blends, Atmospheric Environment 191: 249-257.
- 46. Valente, O.S., da Silva, M.J., Pasa, V.M.D., Belchior, C.R.P., Sodre, J.R. 2010. Fuel consumption and emissions from a diesel power generator fuelled with castor oil and soybean biodiesel, Fuel 89 3637-3642.