Abstract
Reciprocating compressors, which come from the past to the present and whose development is parallel to internal combustion engine technolo-gies, find themselves a large share in this field in line with the innovative studies on it. The stored compressed air demanded in the heavy vehicle segment, where almost all diesel engines are used, is serviced for two main tasks such as brake and suspension system. Therefore, the engine to be used during the compressor selection; efficiency, performance and service maintenance period are very important while meeting the de-mands and what applications are used such as long-distance vehicle, construction site vehicle, transport vehicle, garbage truck, coach.
In this paper, experimental studies were carried out on a Scania brand diesel vehicle by feeding the air brake compressor from the engine tur-bocharger intercooler with an improved interconnection and convention-al atmospheric feeding. Temperature and pressure values obtained via sensors from the data collection system, performance information ob-tained from the vehicle CAN module and exhaust emission measurement results measured by opacimeter for both cases are presented.
Supporting Institution
Selcuk University Scientific Research Projects Unit
Project Number
19201128
Thanks
This study was supported by Selçuk University Scien-tific Research Foundation in frame of the project no of 19201128. As researchers, we thank Scientific Re-search Foundation of Selçuk University. We also thank Yıldız Pul Otomotiv Motor Marçaları Sanayi A.Ş. This study is derived from Gökselhan Kula's master's thesis entitled "Integrated Investigation of Air Brake Compressor and Air Line in New Technology in Heavy Duty Type Vehicles".
References
- [1] Kula, G., Ciniviz, M. ve Toy, İ., (2019). Investigation of Running As A Result Of Heavy Duty Vehicle Compres-sors with Conditioned Air Feed, ISPEC 5th INTERNATIONAL CONFERENCE ON ENGINEERING & NATURAL SCIENCES, Van, 580-593.
- [2] LLC., B. C. V. S., (2004). Introduction to the Air Brake Charging System, Advance Troubleshooting Guide for Air Brake Compressors 2.
- [3] Shinde, A. ve Jadhav, H., (2017). Energy saving through air compressor system automation, 2017 International Conference on Circuit, Power and Computing Technolo-gies (ICCPCT), 1-7.
- [4] Naser, L., Ilir, D. ve Shpetim, L., (2016). Modelling and simulation of the turbocharged diesel engine with intercoo-ler, IFAC-PapersOnLine, 49 (29), 237-242.
- [5] Muqeem, M., (2012). Turbocharging with air conditioner assisted intercooler, Journal of Mechanical and Civil En-gineering, 2 (3), 38-44.
- [6] Tassou, S. ve Qureshi, T., (1998). Comparative perfor-mance evaluation of positive displacement compressors in variable-speed refrigeration applications, International Journal of Refrigeration, 21 (1), 29-41.
- [7] Chiavola, O., Palmieri, F. ve Recco, E., (2018). Vibration analysis to estimate turbocharger speed fluctuation in die-sel engines, Energy Procedia, 148, 876-883.
- [8] Anonim, KNORR-BREMSE Türkiye, https://www.knorr-brem-se.com.tr/tr/commercialvehicles/products_1/productsearch_1/search.jsp: [March, 18].
- [9] Anonim, Termokupullar ile İlgili Genel Bilgiler, https://www.elimko.com.tr/files/TermokupllarGenelBilgiler.pdf:
- [10] Anonim, Industrial Pressure Transmitter, https://www.alfasanayi.com/content/img/EPI/H72317i_EN_8287_EPI_Industrial_Pressure_Transmitter.pdf: [March, 18].
- [11] PİŞİRİCİ, S., (2017). Üç Kademeli Tek Etkili Pistonlu Kompresörün Dinamik Analizi, Yüksek Lisans Tezi, Yıldız Teknik Üniversitesi, 104
- [12] Çengel, Y. ve Boles, M., (1996). Mühendislik Yaklasimiyla Termodinamik, Çev. T. Derbentli). Istanbul: Literatür Yayincilik.
- [13] Ingale, M., Kawale, H., Thakre, A. ve Shrikhande, N., (2010). Performance enhancement of engine using turbo-charger: A Review.
- [14] Ünüvar E., Gül E., Aydıner M. Ş. ve Kalyoncu M., (2019). Investigation of the Effect of Intake and Exhaust Valve Dimensions on Performance for Heavy Duty Vehicle Air Compressors, The International Alumınıum-Themed En-gineering and Natural Sciences Conference (IATENS’19), Seydişehir/TURKEY, 556-559.
- [15] Safgönül, B., Ergeneman, M., Arslan, H. E. ve Soruşbay, C., 2013. İçten yanmalı motorlar, Birsen Yayınevi, p.
- [16] Resmi Gazete, (2013). Egzoz Gazi Emisyonu Kontrolü İle Benzin ve Motorin Kalitesi Yönetmeliği p.
Abstract
Project Number
19201128
References
- [1] Kula, G., Ciniviz, M. ve Toy, İ., (2019). Investigation of Running As A Result Of Heavy Duty Vehicle Compres-sors with Conditioned Air Feed, ISPEC 5th INTERNATIONAL CONFERENCE ON ENGINEERING & NATURAL SCIENCES, Van, 580-593.
- [2] LLC., B. C. V. S., (2004). Introduction to the Air Brake Charging System, Advance Troubleshooting Guide for Air Brake Compressors 2.
- [3] Shinde, A. ve Jadhav, H., (2017). Energy saving through air compressor system automation, 2017 International Conference on Circuit, Power and Computing Technolo-gies (ICCPCT), 1-7.
- [4] Naser, L., Ilir, D. ve Shpetim, L., (2016). Modelling and simulation of the turbocharged diesel engine with intercoo-ler, IFAC-PapersOnLine, 49 (29), 237-242.
- [5] Muqeem, M., (2012). Turbocharging with air conditioner assisted intercooler, Journal of Mechanical and Civil En-gineering, 2 (3), 38-44.
- [6] Tassou, S. ve Qureshi, T., (1998). Comparative perfor-mance evaluation of positive displacement compressors in variable-speed refrigeration applications, International Journal of Refrigeration, 21 (1), 29-41.
- [7] Chiavola, O., Palmieri, F. ve Recco, E., (2018). Vibration analysis to estimate turbocharger speed fluctuation in die-sel engines, Energy Procedia, 148, 876-883.
- [8] Anonim, KNORR-BREMSE Türkiye, https://www.knorr-brem-se.com.tr/tr/commercialvehicles/products_1/productsearch_1/search.jsp: [March, 18].
- [9] Anonim, Termokupullar ile İlgili Genel Bilgiler, https://www.elimko.com.tr/files/TermokupllarGenelBilgiler.pdf:
- [10] Anonim, Industrial Pressure Transmitter, https://www.alfasanayi.com/content/img/EPI/H72317i_EN_8287_EPI_Industrial_Pressure_Transmitter.pdf: [March, 18].
- [11] PİŞİRİCİ, S., (2017). Üç Kademeli Tek Etkili Pistonlu Kompresörün Dinamik Analizi, Yüksek Lisans Tezi, Yıldız Teknik Üniversitesi, 104
- [12] Çengel, Y. ve Boles, M., (1996). Mühendislik Yaklasimiyla Termodinamik, Çev. T. Derbentli). Istanbul: Literatür Yayincilik.
- [13] Ingale, M., Kawale, H., Thakre, A. ve Shrikhande, N., (2010). Performance enhancement of engine using turbo-charger: A Review.
- [14] Ünüvar E., Gül E., Aydıner M. Ş. ve Kalyoncu M., (2019). Investigation of the Effect of Intake and Exhaust Valve Dimensions on Performance for Heavy Duty Vehicle Air Compressors, The International Alumınıum-Themed En-gineering and Natural Sciences Conference (IATENS’19), Seydişehir/TURKEY, 556-559.
- [15] Safgönül, B., Ergeneman, M., Arslan, H. E. ve Soruşbay, C., 2013. İçten yanmalı motorlar, Birsen Yayınevi, p.
- [16] Resmi Gazete, (2013). Egzoz Gazi Emisyonu Kontrolü İle Benzin ve Motorin Kalitesi Yönetmeliği p.
Details
| Primary Language | English |
|---|---|
| Subjects | Mechanical Engineering |
| Journal Section | Research Articles |
| Authors | |
| Project Number | 19201128 |
| Publication Date | December 31, 2020 |
| Submission Date | May 22, 2020 |
| Acceptance Date | September 4, 2020 |
| Published in Issue | Year 2020 Volume: 4 Issue: 4 |
Cite
International Journal of Automotive Science and Technology (IJASTECH) is published by Society of Automotive Engineers Turkey
