Novel strategies to reduce engine emissions and improve energy efficiency in hybrid vehicles

• Published in: Cleaner Engineering and Technology Vol. 2; p. 100074
• Main Authors: Sher, Farooq, Chen, Sihong, Raza, Ali, Rasheed, Tahir, Razmkhah, Omid, Rashid, Tazien, Rafi-ul-Shan, Piyya M., Erten, Begum
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.06.2021; Elsevier
• Subjects: Clean energy; Energy management; Fuzzy logic algorithm; Optimization and CO emissions; Parallel hybrid electric vehicles; Fuzzy logic algorithm; Parallel hybrid electric vehicles; Energy management; Optimization and CO emissions; Clean energy
• ISSN: 2666-7908; 2666-7908
• DOI: 10.1016/j.clet.2021.100074

Hybrid electric vehicles (HEV) can provide a same power as gasoline and diesel-powered vehicles while also reducing fuel consumption by 40–50%. However, due to a complex system of HEV, the power control strategies are used to improve the work efficiency, fuel economy and to reduce exhaust emissions. In the present work, four parameters are studied with the main focus on the optimization of power system of a parallel hybrid vehicle. These parameters are the influence of fuzzy logic algorithm on hybrid electric vehicle power train that is acceleration performance, climbing performance, engine efficiency and exhaust gas emissions. First, the vehicle’s power train is optimized using the Advanced Vehicle Simulator (ADVISOR). Secondly, by ensuring acceleration and climbing performance, the vehicle manufacturing cost is reduced by reducing the weight of the vehicle. Thirdly, two driving road test conditions, Extra-Urban Driving Cycle (EUDC) and Urban Dynamometer Driving Schedule (UDDS) are used to enhance the fuel consumption efficiency of the vehicle. Using a fuzzy logic algorithm for random operations, the operating range of an internal combustion engine is controlled as much as possible in the most efficient range. Through the control of 121 different algorithms, the operating efficiency of the powertrain is optimized to reduce exhaust emissions and improve fuel efficiency. The results showed that the proposed strategy can reduce fuel consumption by 5%, CO by 50% and improved the operating efficiency of engine by 15%. Not only this control strategy optimizes the efficiency of powertrain, but also the efficiency of the internal combustion engine. Moreover, the motor and battery pack itself can be optimized. These hybrid vehicles can minimize the fuel demand and are the best substitute for the classic internal combustion engines. •Fuzzy logic algorithm successfully controls the powertrain in an efficient interval.•Fuzzy logic strategy improves the operating efficiency of hybrid electric vehicle.•EUDC and UDDS are beneficial for vehicle fuel consumption and exhaust emissions.•ADVISOR optimizes vehicle powertrain.•Suitable battery pack reduces the vehicle manufacturing cost and weight.