Thermodynamic analysis of medium pressure reciprocating natural gas expansion engines

Thermodynamic analysis of medium pressure reciprocating natural gas expansion engines

Natural gas pressure has to be reduced from medium pressure of 1.724 MPa (250 psia) to lower pressure of 0.414 MPa (60 psia) at Town Border pressure reduction Station (TBS). Currently, the pressure reduction is carried out by throttling valves while considerable amount of pressure energy is wasted....

Full description

Bibliographic Details
Main Authors: Farzaneh-Gord Mahmood, Izadi Soheil, Pishbin Seyed Iman, Sheikhani Hamideh, Deymi-Dashtebayaz Mahdi
Format: Article
Language:English
Published: Sciendo 2015-06-01
Series:Polish Journal of Chemical Technology
Subjects:
expansion engine
thermodynamic
first law
optimization
ideal gas model
Online Access:https://doi.org/10.1515/pjct-2015-0039
Description
Summary:Natural gas pressure has to be reduced from medium pressure of 1.724 MPa (250 psia) to lower pressure of 0.414 MPa (60 psia) at Town Border pressure reduction Station (TBS). Currently, the pressure reduction is carried out by throttling valves while considerable amount of pressure energy is wasted. One of the equipment which could be used to recover this waste energy is the reciprocating expansion engine. The purpose of this research is to simulate one-sided reciprocating expansion engine thermodynamically for TBS pressure range. The simulation is based on first law of thermodynamics, conversation of mass and ideal gas assumptions. The model could predict in-cylinder pressure and in-cylinder temperature at various crank angles. In addition, the effects of the engine geometrical characteristics, such as intake and exhaust port area and ports timing on the Indicated work per cycle output are investigated.
ISSN:1899-4741

Similar Items