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«MODERN SCIENTIFIC CHALLENGES AND TRENDS»

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MODERN SCIENTIFIC CHALLENGES AND (web)

Problems NAS of Ukraine (Kharkov,Ukraine) NUMERICAL SIMULATION OF THE PROCESS OF COMPOSITE FUEL TREATMENT IN A HYDRODYNAMIC CAVITATOR

«MODERN SCIENTIFIC CHALLENGES AND TRENDS»

SCIENCECENTRUM.PL
ISSUE 3
ISBN 978-83-949403-3-1
204
SECTION: TECHNICAL SCIENCE.
TRANSPORT
Avramenko Andrey
Department of Hydrogen Power Engineering,
A. M. Pidhirnyi Institute for Mechanical Engineering
Problems NAS of Ukraine
(Kharkov,Ukraine)

NUMERICAL SIMULATION OF THE PROCESS OF COMPOSITE FUEL
TREATMENT IN A HYDRODYNAMIC CAVITATOR
Abstract
. The results of numerical simulation of the processes of heat-and-
mass transfer in a hydrodynamic cavitator for treatment of composite motor fuel for
transport engines are given. Considered was the process of the flow of composite
fuel
– a water-fuel emulsion comprising 95% of diesel fuel and 5% of water.
Numerical methods were used to solve the problem in the three-dimensional non-
steady statement. Numerical simulation yielded the distribution of velocities of the
water-fuel emulsion flow in the flow part of the hydrodynamic cavitator, and the
intensity of hydrodynamic cavitation was assessed. Recommendations were
suggested for the design parameters and operating conditions to ensure effective
operation of the hydrodynamic cavitator in a system for maintaining the stability of a
water-fuel emulsion.
Keywords:
composite fuel, transport engine, hydrodynamic cavitator, water-
fuel emulsion
The increasing number of automobiles in big cities degrades drastically the
environmental conditions and has an adverse effect on humans and the
environment [1, 2]. This is especially true for diesel engine motor transport with
exhaust gases containing no only toxic components
– nitrogen oxides, unburned
hydrocarbons, carbon monoxide, but also solid particles carrying carcinogenic and
mutagenic agents [1-3]. The requirement to meet standard regulations for exhaust
toxicity of motor transport engines results in the increasing of their cost and involved
servicing. This calls for searching for alternative ways for improving the ecological
indicators of transport engines.
One of the promising methods is using composite fuel in transport engines,
for instance, water-fuel emulsions. During combustion of a water-fuel, emulsion the
maximum cycle temperature drops, with a positive effect on emission of nitrogen
oxides. In addition, with partial replacement of diesel fuel with water (at small
concentrations to 5%) and an effective method of managing the running cycle, the
mass discharge of solids along with the diesel engine exhaust gases can be
reduced.
The challenge is to maintain the stability of the water-fuel emulsion to ensure
effective running of transport diesel engines.

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