Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas Pipelines

Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas Pipelines

A countless amount of energy has been wasted in all kinds of expansion valves (EV) in industries. In fact, EVs, including regulators, throttling valves, capillary tubes, etc., have been used to intentionally reduce the potential of carrier fluid. City gate stations (CGS) have been recognized as one...

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Bibliographic Details
Main Authors: Yahya Sheikhnejad, João Simões, Nelson Martins
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Energies
Subjects:
energy harvesting
tesla turbine
high-pressure methane
compressible turbulent flow
computational fluid dynamics
design rules
Online Access:https://www.mdpi.com/1996-1073/13/4/956
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spelling doaj-57f9825cd7bc4141ad10ca678b0f64f92020-11-25T01:19:53ZengMDPI AGEnergies1996-10732020-02-0113495610.3390/en13040956en13040956Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas PipelinesYahya Sheikhnejad0João Simões1Nelson Martins2Centre for Mechanical Technology and Automation, Department of Mechanical Engineering, Universidade de Aveiro, 3810-193 Aveiro, PortugalCentre for Mechanical Technology and Automation, Department of Mechanical Engineering, Universidade de Aveiro, 3810-193 Aveiro, PortugalCentre for Mechanical Technology and Automation, Department of Mechanical Engineering, Universidade de Aveiro, 3810-193 Aveiro, PortugalA countless amount of energy has been wasted in all kinds of expansion valves (EV) in industries. In fact, EVs, including regulators, throttling valves, capillary tubes, etc., have been used to intentionally reduce the potential of carrier fluid. City gate stations (CGS) have been recognized as one of the important points with high potential for energy harvesting due to its function for regulating natural gas (NG) pressure by EV. In this study, Tesla turbine (TT) is introduced as a new candidate for substitution of EV, particularly those that have been employed in CGS on high-pressure NG pipelines, as well as those applications in which high-potential fluid must be reduced to a low-potential state to form a complete thermodynamic cycle or to be used at end-user equipment. Although harvesting energy is one of the hottest fields of science and engineering, there are few traces of research on using a TT as an alternative for EVs, even for the industries possessing high-pressure lines. This numerical experiment intends to show the capability of TT as a robust candidate for substituting regulation valves through investigating thermohydrodynamic characteristics of the turbulent high-pressure compressible NG flow through a TT under different operation conditions. This study, with the objective of managing the exploitation of resources, can be considered as one step forward toward reinforcing economic and environmental pillars of sustainable development. It is also found that the generated power by TT can support the 285 7W LED simultaneously, or it is equivalent to 84.4 m<sup>2</sup> area of the solar panel (150 W, 15.42% efficiency) for the climate condition of Toronto, Canada.https://www.mdpi.com/1996-1073/13/4/956energy harvestingtesla turbinehigh-pressure methanecompressible turbulent flowcomputational fluid dynamicsdesign rules
collection DOAJ
language English
format Article
sources DOAJ
author Yahya Sheikhnejad
João Simões
Nelson Martins
spellingShingle Yahya Sheikhnejad
João Simões
Nelson Martins
Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas Pipelines
Energies
energy harvesting
tesla turbine
high-pressure methane
compressible turbulent flow
computational fluid dynamics
design rules
author_facet Yahya Sheikhnejad
João Simões
Nelson Martins
author_sort Yahya Sheikhnejad
title Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas Pipelines
title_short Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas Pipelines
title_full Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas Pipelines
title_fullStr Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas Pipelines
title_full_unstemmed Energy Harvesting by a Novel Substitution for Expansion Valves: Special Focus on City Gate Stations of High-Pressure Natural Gas Pipelines
title_sort energy harvesting by a novel substitution for expansion valves: special focus on city gate stations of high-pressure natural gas pipelines
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2020-02-01
description A countless amount of energy has been wasted in all kinds of expansion valves (EV) in industries. In fact, EVs, including regulators, throttling valves, capillary tubes, etc., have been used to intentionally reduce the potential of carrier fluid. City gate stations (CGS) have been recognized as one of the important points with high potential for energy harvesting due to its function for regulating natural gas (NG) pressure by EV. In this study, Tesla turbine (TT) is introduced as a new candidate for substitution of EV, particularly those that have been employed in CGS on high-pressure NG pipelines, as well as those applications in which high-potential fluid must be reduced to a low-potential state to form a complete thermodynamic cycle or to be used at end-user equipment. Although harvesting energy is one of the hottest fields of science and engineering, there are few traces of research on using a TT as an alternative for EVs, even for the industries possessing high-pressure lines. This numerical experiment intends to show the capability of TT as a robust candidate for substituting regulation valves through investigating thermohydrodynamic characteristics of the turbulent high-pressure compressible NG flow through a TT under different operation conditions. This study, with the objective of managing the exploitation of resources, can be considered as one step forward toward reinforcing economic and environmental pillars of sustainable development. It is also found that the generated power by TT can support the 285 7W LED simultaneously, or it is equivalent to 84.4 m<sup>2</sup> area of the solar panel (150 W, 15.42% efficiency) for the climate condition of Toronto, Canada.
topic energy harvesting
tesla turbine
high-pressure methane
compressible turbulent flow
computational fluid dynamics
design rules
url https://www.mdpi.com/1996-1073/13/4/956
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AT joaosimoes energyharvestingbyanovelsubstitutionforexpansionvalvesspecialfocusoncitygatestationsofhighpressurenaturalgaspipelines
AT nelsonmartins energyharvestingbyanovelsubstitutionforexpansionvalvesspecialfocusoncitygatestationsofhighpressurenaturalgaspipelines
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