Affiliation:
1. Department of Mechanical and Mechatronic Engineering, National Taiwan Ocean University, Keelung City 202301, Taiwan
Abstract
The exhaust back pressure of diesel engines is becoming increasingly higher nowadays. In order to keep discharging exhaust unhindered and operating smoothly under high exhaust back pressure, a large reduction in engine maximum brake output is often observed, as well as increased fuel consumption and lower combustion efficiency with heavy exhaust smokes. In our previous study, “Applicability of Reducing Valve Timing Overlap for Diesel Engines under High Exhaust Back Pressure”, a reduced valve timing overlap of 12 °CA partially improves the brake output and BSFC for a fixed-geometry turbocharged diesel engine under high exhaust back pressures. A potential solution for restoring the brake output under high exhaust back pressures could be the use of variable-geometry turbochargers. In this study, a variable-geometry turbocharger is applied to a diesel engine to study the engine performance characteristics and applicability, especially the further improvement of brake output and the brake-specific fuel consumption of the engine. Continuing with the results of our previous research, a basic setting of 12 °CA for the valve timing overlap is set up for the subsequent engine performance simulations in this study (using GT-Power SW). Via simulation, exhaust back pressures of 25 kPa, 45 kPa, and 65 kPa gauge are studied for a turbocharged diesel engine. The results for the engine parameters, including brake output, brake-specific fuel consumption, compressor outlet temperature, turbine inlet temperature, intake air mass flow rate, and exhaust mass flow rate are analyzed. The results of the variable-geometry turbocharger, including turbocharger speed, pressure ratios and efficiencies of compressor and turbine are also analyzed. The results indicate that the brake output and brake-specific fuel consumption are effectively improved under full-load operation with an adequate variable-geometry turbocharger rack position. Operable ranges of rack position are also set up for different back pressures.
Funder
CSBC Corporation, Taiwan, ROC
Reference32 articles.
1. Co-gasification of Low-grade coal with Madhuca longifolia (Mahua) biomass and dual-fuelled mode engine performance: Effect of biomass blend and engine operating condition;Raj;Energy Convers. Manag.,2022
2. Performance simulation and optimization of SI engine fueled with peach biomass-based producer gas and propane blend;Raj;Therm. Sci. Eng. Prog.,2023
3. (2017, September 25). Layout and Inspection of Engine Room Exhaust System, Marine Management, Ship Management Network. Available online: https://www.shipmg.com/html/234.html.
4. (2012, May 16). Underwater Smoke Exhaust Device for High-Speed Ships. State Intellectual Property Office, People Republic of China; Utility Model Patent CN202657238U. Available online: https://patents.google.com/patent/CN202657238U/zh.
5. (2024, January 04). Beaufort_Scale, Wikipedua. Available online: https://en.wikipedia.org/wiki/Beaufort_scale.