Features of Assessing Fuel Efficiency and Environmental Performance
of Vehicles in Thermal Preparation Processes 2024-01-5088
The article deals with the peculiarities of developing a method for evaluating
the fuel efficiency and environmental performance of vehicle engines under
conditions of pre- and post-start thermal preparations. The method was designed
for gasoline engines converted to run on both liquid petroleum and gaseous fuels
(LPG). A thermal treatment system based on a phase transition heat accumulator
was used for pre- and post-start heat treatment in operation. An algorithm for
determining and evaluating individual thermal preparation criteria for vehicle
engines in operational conditions was developed based on the analysis conducted.
The method for assessing fuel consumption and harmful emissions in the exhaust
gases of vehicles with engines modified to run on LPG and fitted with a phase
transition heat accumulator during pre- and post-start thermal preparations was
improved. The method development is based on numerous experimental and
computational–analytical studies. To assess the high efficiency of using a
thermal preparation system with a phase transition heat accumulator in a vehicle
under variable operational conditions, fuel consumption coefficients were
employed. As a result of implementing the developed research method for
evaluating fuel efficiency and environmental performance of the vehicle, a
significant reduction in the overall thermal preparation (warm-up) time of the
engine during operation and a decrease in the total fuel consumption for heating
were confirmed.
Author(s):
Igor Gritsuk, Dmytro Pohorletskyi, Nadiia Pohorletska, Vladimir Volkov, Mykyta Volodarets, Igor Khudiakov, Serhii Dotsenko, Viktoriia Nesterenko, Olena Volska
Affiliated:
Kherson State Maritime Academy, Department of Ship Power Pla, Kharkiv National Automobile and Highway University, Pryazovskyi State Technical University, Admiral Makarov National University of Shipbuilding
Pages: 24
Event:
Automotive Technical Papers
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Energy conservation
Fuel economy
Fuel consumption
Vehicle performance
Heat treatment
Liquefied petroleum gas
Gasoline
Engines
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