Compressed co2 energy storage jiang peixue
Factors affecting compressed carbon dioxide energy storage
Compressed air energy storage (CAES) technology is a vital solution for managing fluctuations in renewable energy, but conventional systems face challenges like low energy density and geographical constraints. This study explores an innovative approach utilizing deep aquifer compressed carbon dioxide (CO2) energy storage to overcome these limitations.
A review on heat transfer and energy conversion in the enhanced
Corresponding Author. Peixue Jiang. Beijing Key Laboratory for CO2 Utilization and Reduction Technology, Key Laboratory for Thermal Science and Power Engineering of Ministry of Education, Department of Thermal Engineering,
An integrated energy storage system consisting of Compressed
DOI: 10.1016/j.energy.2022.123566 Corpus ID: 247089871; An integrated energy storage system consisting of Compressed Carbon dioxide energy storage and Organic Rankine Cycle: Exergoeconomic evaluation and multi-objective optimization
Integrating Compressed CO2 Energy Storage in an Integrated Energy
The integration of an energy storage system into an integrated energy system (IES) enhances renewable energy penetration while catering to diverse energy loads. In previous studies, the adoption of a battery energy storage (BES) system posed challenges related to installation capacity and capacity loss, impacting the technical and economic performance of
Design and performance analysis of compressed CO2 energy storage
The energy storage system uses excess solar energy to compress CO2 near the critical point to a high-pressure state for energy storage during the day, and the high-pressure CO2 is heated by a gas
Research progress on heat and mass transfer in carbon geological
Abstract Carbon capture, utilization and storage (CCUS) refers to the separation of CO 2 from energy utilization systems, industrial production or the atmosphere followed by purification and transport to facilities using CO 2 or to storage sites to achieve long-term separation of the CO 2 from the atmosphere. The Intergovernmental Panel on Climate Change (IPCC) recently stated
Numerical verification on the feasibility of compressed carbon dioxide
DOI: 10.1016/j.renene.2023.03.013 Corpus ID: 257602251; Numerical verification on the feasibility of compressed carbon dioxide energy storage in two aquifers @article{Li2023NumericalVO, title={Numerical verification on the feasibility of compressed carbon dioxide energy storage in two aquifers}, author={Yi Li and Hao Yu and Yanling Xiao and Yinjia
Geological carbon storage and compressed gas energy storage:
Carbon capture and storage (CCS) and geological energy storage are essential technologies for mitigating global warming and achieving China''s "dual carbon" goals. Carbon storage involves injecting carbon dioxide into suitable geological formations at depth of 800 meters or more for permanent isolation. Geological energy storage, on the other hand,
Peixue Jiang
Read articles by Peixue Jiang on ScienceDirect, the world''s leading source for scientific, technical, Energy Conversion and Management Supports open access; maximum capture amount and long-term safety of carbon dioxide storage in geological scenarios must be ensured. A case of a natural CO<inf>2</inf> storage analog of the Huangqiao CO
Factors affecting compressed carbon dioxide energy
The deep aquifer compressed carbon dioxide (CO 2) energy storage system consists of an aboveground energy storage power station and an underground gas storage section. The aboveground energy storage power station includes essential components such as compressors, turbines, heat exchangers, and electric motors/generators. The underground gas stor-
Yang HE | Xi''an Jiaotong University, Xi''an | XJTU | Research profile
In an adiabatic compressed air energy storage system (A-CAES), the storage pressure persistently increases during the energy storage process causing deteriorate of the charge performance under off
Off-design characteristics and operation strategy analysis of a
DOI: 10.1016/j.energy.2024.131983 Corpus ID: 270339711; Off-design characteristics and operation strategy analysis of a compressed carbon dioxide energy storage system coupled with a combined heating and power plant
Integrating Compressed CO2 Energy Storage in an Integrated
To overcome these challenges, this study introduces a novel design incorporating a compressed CO2 energy storage (CCES) system into an IES. This integration mitigates the capacity loss
Dynamic operating characteristics of a compressed CO2 energy storage
For the first time, the study investigated the dynamic performances of a compressed CO 2 energy storage (CCES) system based on a dynamic model, which was validated using experimental data. The dynamic round-trip efficiency (RTE) of a scaled-up CCES system in two typical operation modes was studied, including Mode 1: the basic operation
Performance of compressed CO2 energy storage systems with
Energy storage technologies play a hard role in smoothening the fluctuations and improving penetrations of renewables. Compressed CO 2 energy storage is a promising large-scale technology because of the excellent thermos-physical characteristics of CO 2.As one of the primary constraints, the condensation of CO 2 should be addressed to successfully develop
Carbon dioxide energy storage systems: Current researches and
Compressed air energy storage (CAES) processes are of increasing interest. They are now characterized as large-scale, long-lifetime and cost-effective energy storage systems. Compressed Carbon Dioxide Energy Storage (CCES) systems are based on the same technology but operate with CO 2 as working fluid. They allow liquid storage under non
Carbon Dioxide Capture from Compressed Air Energy Storage System
Despite numerous advantages of the CAES systems, carbon dioxide (CO 2) emission has remained a concern and lacking point in the literature, which should be considered.The importance of CO 2 capture has been attracted attention due to its greenhouse nature in recent years. European Union set new rules to reduce the greenhouse emissions by
A comprehensive performance comparison between compressed air energy
Specifically, at the thermal storage temperature of 140 ℃, round-trip efficiencies of compressed air energy storage and compressed carbon dioxide energy storage are 59.48 % and 65.16 % respectively, with costs of $11.54 × 10 7 and $13.45 × 10 7, and payback periods of 11.86 years and 12.57 years respectively. Compared to compressed air
Journal of Energy Storage
The innovative application of H-CAES has resulted in several research achievements. Based on the idea of storing compressed air underwater, Laing et al. [32] proposed an underwater compressed air energy storage (UWCAES) system. Wang et al. [33] proposed a pumped hydro compressed air energy storage (PHCAES) system.
Carbon dioxide energy storage systems: Current researches and
DOI: 10.1016/j.renene.2024.120030 Corpus ID: 267403922; Carbon dioxide energy storage systems: Current researches and perspectives @article{Dewevre2024CarbonDE, title={Carbon dioxide energy storage systems: Current researches and perspectives}, author={Florent Dewevre and Cl{''e}ment Lacroix and Khaled Loubar and S{''e}bastien Poncet}, journal={Renewable
Compressed carbon dioxide energy storage
Liquid carbon dioxide can be stored at ambient temperatures, unlike Liquid air energy storage (LAES), which must keep liquid air cold at −192°C, though the CO 2 does need to be kept pressurised.. Liquid CO 2 has a much higher energy density (66.7 kWh/m 3), than compressed air in typical to compressed-air energy storage (CAES) systems (2-6 kWh/m 3), meaning the
The Nanoscale Basis of CO2 Trapping for Geologic Storage
Carbon capture and storage (CCS) is likely to be a critical technology to achieve large reductions in global carbon emissions over the next century. Research on the subsurface storage of CO2 is aimed at reducing uncertainties in the efficacy of CO2 storage in sedimentary rock formations. Three key parameters that have a nanoscale basis and that contribute
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