Title : ( Thermodynamic analysis of a CNG refueling station considering the reciprocating compressor )
Authors: Morteza Saadat-Targhi , Mahmood Farzaneh-Gord , Javad Khadem ,Abstract
CNG refueling station, including on-board NGV cylinder, reservoir tanks, connecting pipes and especially reciprocating compressor. Unlike most previous researches, pressure variation of the reservoir tanks during the filling process have been considered which necessary for compressor modeling. The results of the present work have been validated against the previous experimental data and theoretical studies. The additional experimental data, measured by the present authors, is also used to analyze and identify the compressor performance in unsteady conditions. The simulation result of mass flow rate is a good agreement with the experimental values. The results show that variations in the compressor discharge pressure have no effect on the first and intermediate compressor pressure. It has also no effect on the compressor delivery mass flow rate. The energy consumption by the compressor for a cycle (including discharge and charge zones) is found to be 61.86 kWh. The average specific energy consumption to fill a vehicle is found to be 0.250 kWh/kg.
Keywords
, hermodynamic modeling, CNG refueling station, Fast filling process, Reciprocating compressor@article{paperid:1070446,
author = {مرتضی سعادت طرقی and Farzaneh-Gord, Mahmood and جواد خادم},
title = {Thermodynamic analysis of a CNG refueling station considering the reciprocating compressor},
journal = {Journal of Natural Gas Science and Engineering},
year = {2016},
volume = {29},
number = {1},
month = {January},
issn = {1875-5100},
pages = {453--461},
numpages = {8},
keywords = {hermodynamic modeling; CNG refueling station; Fast filling process; Reciprocating compressor},
}
%0 Journal Article
%T Thermodynamic analysis of a CNG refueling station considering the reciprocating compressor
%A مرتضی سعادت طرقی
%A Farzaneh-Gord, Mahmood
%A جواد خادم
%J Journal of Natural Gas Science and Engineering
%@ 1875-5100
%D 2016