Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling Engines

Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling Engines

In this paper, a novel CO2 transcritical power cycle which is driven by solar energy integrated by a cryogenic LNG recovery unit is investigated. In the proposed cycle, the condenser unit of the CO2 power cycle is replaced by a Stirling engine. Thermodynamic and exergy analyses are carried out to ev...

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Main Authors: A. Naseri, M. Fazlikhani, M. Sadeghzadeh, A. Naeimi, M. Bidi, Seyyed H. Tabatabaei
Format: Article
Language:English
Published: Shahrood University of Technology 2020-07-01
Series:Renewable Energy Research and Applications
Subjects:
solar collector
transcritical co2 power cycle
lng
stirling engine
exergy
Online Access:http://rera.shahroodut.ac.ir/article_1683_05ec56c98ddb173112d410a864107dc6.pdf
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spelling doaj-df6527661b4144f0873193b15d40052b2021-09-05T06:28:14ZengShahrood University of TechnologyRenewable Energy Research and Applications2717-252X2676-74302020-07-011217518510.22044/rera.2020.9282.10231683Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling EnginesA. Naseri0M. Fazlikhani1M. Sadeghzadeh2A. Naeimi3M. Bidi4Seyyed H. Tabatabaei5Faculty of Mechanical and Energy Engineering, Shahid Beheshti University, A.C., Tehran, Iran.Faculty of Mechanical and Energy Engineering, Shahid Beheshti University, A.C., Tehran, Iran.Department of Renewable Energy and Environmental Engineering, University of Tehran, Tehran, Iran.Faculty of Mechanical and Energy Engineering, Shahid Beheshti University, A.C., Tehran, Iran.Faculty of Mechanical and Energy Engineering, Shahid Beheshti University, Tehran, Iran.Department of Renewable Energy and Environmental Engineering, University of Tehran, Tehran, Iran.In this paper, a novel CO2 transcritical power cycle which is driven by solar energy integrated by a cryogenic LNG recovery unit is investigated. In the proposed cycle, the condenser unit of the CO2 power cycle is replaced by a Stirling engine. Thermodynamic and exergy analyses are carried out to evaluate the performance of the presented system. Furthermore, in order to investigate the impact of utilization of Stirling engines instead of conventional condenser units, the proposed cycle is compared with the typical CO2 power cycle. The results show that employing the Stirling engine decrease the exergy destruction from 17% in the typical cycle to 8.85%. In addition, the total generated power of the novel system is considerably boosted up about 15 kW in off-peak times and more than 20 kW in the peak time. Moreover, integration of the Stirling engine also decreases LNG mass flow rate. Therefore, the required heat exchanger area in the LNG heater is also lowered.http://rera.shahroodut.ac.ir/article_1683_05ec56c98ddb173112d410a864107dc6.pdfsolar collectortranscritical co2 power cyclelngstirling engineexergy
collection DOAJ
language English
format Article
sources DOAJ
author A. Naseri
M. Fazlikhani
M. Sadeghzadeh
A. Naeimi
M. Bidi
Seyyed H. Tabatabaei
spellingShingle A. Naseri
M. Fazlikhani
M. Sadeghzadeh
A. Naeimi
M. Bidi
Seyyed H. Tabatabaei
Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling Engines
Renewable Energy Research and Applications
solar collector
transcritical co2 power cycle
lng
stirling engine
exergy
author_facet A. Naseri
M. Fazlikhani
M. Sadeghzadeh
A. Naeimi
M. Bidi
Seyyed H. Tabatabaei
author_sort A. Naseri
title Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling Engines
title_short Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling Engines
title_full Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling Engines
title_fullStr Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling Engines
title_full_unstemmed Thermodynamic and Exergy Analyses of a Novel Solar-Powered CO2 Transcritical Power Cycle with Recovery of Cryogenic LNG Using Stirling Engines
title_sort thermodynamic and exergy analyses of a novel solar-powered co2 transcritical power cycle with recovery of cryogenic lng using stirling engines
publisher Shahrood University of Technology
series Renewable Energy Research and Applications
issn 2717-252X
2676-7430
publishDate 2020-07-01
description In this paper, a novel CO2 transcritical power cycle which is driven by solar energy integrated by a cryogenic LNG recovery unit is investigated. In the proposed cycle, the condenser unit of the CO2 power cycle is replaced by a Stirling engine. Thermodynamic and exergy analyses are carried out to evaluate the performance of the presented system. Furthermore, in order to investigate the impact of utilization of Stirling engines instead of conventional condenser units, the proposed cycle is compared with the typical CO2 power cycle. The results show that employing the Stirling engine decrease the exergy destruction from 17% in the typical cycle to 8.85%. In addition, the total generated power of the novel system is considerably boosted up about 15 kW in off-peak times and more than 20 kW in the peak time. Moreover, integration of the Stirling engine also decreases LNG mass flow rate. Therefore, the required heat exchanger area in the LNG heater is also lowered.
topic solar collector
transcritical co2 power cycle
lng
stirling engine
exergy
url http://rera.shahroodut.ac.ir/article_1683_05ec56c98ddb173112d410a864107dc6.pdf
work_keys_str_mv AT anaseri thermodynamicandexergyanalysesofanovelsolarpoweredco2transcriticalpowercyclewithrecoveryofcryogeniclngusingstirlingengines
AT mfazlikhani thermodynamicandexergyanalysesofanovelsolarpoweredco2transcriticalpowercyclewithrecoveryofcryogeniclngusingstirlingengines
AT msadeghzadeh thermodynamicandexergyanalysesofanovelsolarpoweredco2transcriticalpowercyclewithrecoveryofcryogeniclngusingstirlingengines
AT anaeimi thermodynamicandexergyanalysesofanovelsolarpoweredco2transcriticalpowercyclewithrecoveryofcryogeniclngusingstirlingengines
AT mbidi thermodynamicandexergyanalysesofanovelsolarpoweredco2transcriticalpowercyclewithrecoveryofcryogeniclngusingstirlingengines
AT seyyedhtabatabaei thermodynamicandexergyanalysesofanovelsolarpoweredco2transcriticalpowercyclewithrecoveryofcryogeniclngusingstirlingengines
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