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Artículos de revistas sobre el tema "CO2-based technology"

Autor: Grafiati
Publicado: 7 de diciembre de 2024
Última modificación: 31 de julio de 2025

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1

Gao, Shiwang, Dongfang Guo, Hongguang Jin, Sheng Li, Jinyi Wang, and Shiqing Wang. "Potassium Carbonate Slurry-Based CO2 Capture Technology." Energy & Fuels 29, no. 10 (2015): 6656–63. http://dx.doi.org/10.1021/acs.energyfuels.5b01421.

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2

Zhumagaliyeva, А., V. Gargiulo, F. Raganat, Ye Doszhanov, and M. Alfe. "Carbon based nanocomposite material for CO2 capture technology." Горение и Плазмохимия 17, no. 1 (2019): 9–13. http://dx.doi.org/10.18321/cpc283.

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Carbon capture and sequestration contains a group of technologies keeping thedifferentiation of CO2 from large industrial and energy related sources, transport toa storage location and long-term isolation from the atmosphere. Previous studiesof CO2 adsorption on low-cost iron metal oxide surfaces strongly encourage thepossible use of metal oxide as sorbents, but the tendency of magnetite particles toagglomerate causes a lowering of CO2 sorption capacity. This work investigates theadsorption behavior of CO2 on composite materials prepared coating a low-costcarbonized rice husk (cRH), commercial
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3

Wang, Xiaolin, Shufan Yang, Hai Zhang, Xingguang Xu, Colin D. Wood, and Wojciech Lipiński. "Amine infused hydrogel-based CO2 gas storage technology for CO2 hydrate-based cold thermal energy storage." Journal of CO2 Utilization 53 (November 2021): 101705. http://dx.doi.org/10.1016/j.jcou.2021.101705.

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4

Архипов, В. Н., А. А. Анкудинов, А. А. Мочалова, С. А. Ященко, and Г. В. Улыбышев. "CCUS technology from theory to practice." Нефтяная провинция 1, no. 4(36) (2023): 166–76. http://dx.doi.org/10.25689/np.2023.4.166-176.

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В статье описан подход к комплексной оценке технологии закачки CO2 в нефтяной низкопроницаемый пласт с целью повышения нефтеотдачи, подразумевающий: набор лабораторных экспериментов, включающий тест на тонкой трубке, Swell и VIT тесты, а также комплекс потоковых исследований на керне; формирование предпосылок для композиционной гидродинамической модели с адаптацией на результаты лабораторных исследований; подбор оптимальной программы опытно-промышленных работ и стратегии промышленной эксплуатации месторождения с закачкой CO2 на основе технико-экономической оценки. The paper discusses comprehen
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5

Espatolero, Sergio, and Luis M. Romeo. "Optimization of Oxygen-based CFBC Technology with CO2 Capture." Energy Procedia 114 (July 2017): 581–88. http://dx.doi.org/10.1016/j.egypro.2017.03.1200.

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6

Liu, Yudong, Guizhou Ren, Honghong Shen, Gang Liu, and Fangqin Li. "Technology of CO2 capture and storage." E3S Web of Conferences 118 (2019): 01046. http://dx.doi.org/10.1051/e3sconf/201911801046.

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This paper studies carbon capture and storage based on carbon emission. There are three main technical routes for CO2 emission reduction: pre-combustion capture, oxygen-rich combustion, and post-combustion capture; CO2 separation technology mainly includes: chemical absorption method, solid adsorption method, membrane separation method. CO2 capture needs to be transported to a special place for storage, which can be generally divided into geological storage, marine storage and chemical storage. Future carbon capture research will focus on cost savings and energy savings.
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7

Liu, Xiaolei, Caifang Wu, and Kai Zhao. "Feasibility and Applicability Analysis of CO2-ECBM Technology Based on CO2–H2O–Coal Interactions." Energy & Fuels 31, no. 9 (2017): 9268–74. http://dx.doi.org/10.1021/acs.energyfuels.7b01663.

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8

Yang, Zhibin, Ze Lei, Ben Ge, et al. "Development of catalytic combustion and CO2 capture and conversion technology." International Journal of Coal Science & Technology 8, no. 3 (2021): 377–82. http://dx.doi.org/10.1007/s40789-021-00444-2.

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AbstractChanges are needed to improve the efficiency and lower the CO2 emissions of traditional coal-fired power generation, which is the main source of global CO2 emissions. The integrated gasification fuel cell (IGFC) process, which combines coal gasification and high-temperature fuel cells, was proposed in 2017 to improve the efficiency of coal-based power generation and reduce CO2 emissions. Supported by the National Key R&D Program of China, the IGFC for near-zero CO2 emissions program was enacted with the goal of achieving near-zero CO2 emissions based on (1) catalytic combustion of
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9

Ignatusha, Pavlo, Haiqing Lin, Noe Kapuscinsky, et al. "Membrane Separation Technology in Direct Air Capture." Membranes 14, no. 2 (2024): 30. http://dx.doi.org/10.3390/membranes14020030.

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Direct air capture (DAC) is an emerging negative CO2 emission technology that aims to introduce a feasible method for CO2 capture from the atmosphere. Unlike carbon capture from point sources, which deals with flue gas at high CO2 concentrations, carbon capture directly from the atmosphere has proved difficult due to the low CO2 concentration in ambient air. Current DAC technologies mainly consider sorbent-based systems; however, membrane technology can be considered a promising DAC approach since it provides several advantages, e.g., lower energy and operational costs, less environmental foot
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10

Gao, Lu, Ying Zang, Guangwu Zhao, et al. "Research on the Seed Respiration CO2 Detection System Based on TDLAS Technology." International Journal of Optics 2023 (March 22, 2023): 1–13. http://dx.doi.org/10.1155/2023/8017726.

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The traditional detection method of CO2 concentration in seed respiration has defects such as low detection accuracy, low detection efficiency, and inability to monitor in real time. In order to solve these problems, we report a seed respiration CO2 detection system based on wavelength modulation spectroscopy (WMS) techniques in tunable diode laser absorption spectroscopy (TDLAS). This system uses a 2004 nm distributed feedback (DFB) laser as the light source, and a double-layer seed respiration device (about 1.5 L) is designed based on Herriott cell with an effective optical path of about 21
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11

Xing, Yi, Zhiliang Ma, Wei Su, Qunhui Wang, Xiaona Wang, and Hui Zhang. "Analysis of Research Status of CO2 Conversion Technology Based on Bibliometrics." Catalysts 10, no. 4 (2020): 370. http://dx.doi.org/10.3390/catal10040370.

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The concentration of carbon dioxide in the air has risen sharply due to the use of fossil fuels, causing environmental problems such as the greenhouse effect, which seriously threatens humans’ living environment. Reducing carbon dioxide emissions while addressing energy shortages requires the conversion of CO2 into high added-value products. In this paper, the status of CO2 conversion research in the past ten years is analyzed using the bibliometric method; the influence of countries and institutions, journal article statistics and other aspects are statistically analyzed, and the research sta
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12

Pratiwi, Vibianti Dwi, Renanto Renanto, Juwari Juwari, Ali Altway, and Rendra Panca Anugraha. "COST ANALYSIS OF THE PERFORMANCE OF CO2 SEPARATION WITH VARIOUS CO2 CONCENTRATIONS FROM GAS WELLS." Journal of Chemical Technology and Metallurgy 59, no. 4 (2024): 935–44. http://dx.doi.org/10.59957/jctm.v59.i4.2024.24.

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The technical and economic challenges are enormous in developing gas wells with a high CO2 content (> 50 mol %), such as the East Natuna gas field, which has 71 mol % (86 mass %). Carbon capture technology in gas wells with high CO2 content is studied to find a more economical one. In this study, the technology for capturing high concentrations of CO2 is varied from gas wells, Controlled Freeze Zone (CFZ), and cryogenic distillation which will be analyzed based on cost. Variations in the CO2 content of gas wells are 75 %, 80 %, 85 %, 90 %, and 95 % in mass fraction simulated using Aspen Plu
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13

Bardeau, Tiphaine, Raphaelle Savoire, Maud Cansell, and Pascale Subra-Paternault. "Recovery of oils from press cakes by CO2-based technology." OCL 22, no. 4 (2015): D403. http://dx.doi.org/10.1051/ocl/2015004.

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14

Liu, Tianqi. "Hydrate-Based Carbon Dioxide Capture Technology in the Ocean: Research Advances and Challenges." Advances in Engineering Technology Research 8, no. 1 (2023): 601. http://dx.doi.org/10.56028/aetr.8.1.601.2023.

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The urgent need for emission reduction due to climate change has spurred the development of carbon capture and storage (CCS) technologies, with carbon dioxide (CO2) hydrates emerging as a promising option due to their high storage capacity and cost-effectiveness. This paper provides an overview of the characteristics and formation mechanisms of CO2 hydrates, along with an exploration of mechanical and chemical methods to enhance CO2 hydrate formation. Thermodynamic additives are beneficial for reducing the formation pressure of CO2 hydrate, while mechanical methods and kinetic promoters play a
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15

Lou, Di Ming, Si Li Qian, Zhi Yuan Hu, and Pi Qiang Tan. "On-Road Gaseous Emission Characteristics of the Bus Based on DOC + CDPF Technology." Advanced Materials Research 726-731 (August 2013): 2234–40. http://dx.doi.org/10.4028/www.scientific.net/amr.726-731.2234.

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In this paper, an experimental investigation was conducted using Vehicle Emission Testing System to study on-road gaseous emissions (CO, THC, NOX, CO2) characteristics based on diesel oxidation catalyst (DOC) and catalyzed diesel particulate filter (CDPF) technology. The results show that after the implementation of DOC + CDPF device, CO, THC emissions are significantly reduced, while the NOX, CO2 emissions remain almost the same. Under steady conditions, the reduction percentages of CO, THC, NOX, CO2 emission factors are 56.0%, 66.0%, 18.3%, 17.5%, respectively. Under transient operation cond
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16

Manovic, Vasilije, and Edward Anthony. "Improvement of CaO-based sorbent performance for CO2 looping cycles." Thermal Science 13, no. 1 (2009): 89–104. http://dx.doi.org/10.2298/tsci0901089m.

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This paper presents research on CO2 capture by lime-based looping cycles. This is a new and promising technology that may help in mitigation of global warming and climate change caused primarily by the use of fossil fuels. The intensity of the anticipated changes urgently requires solutions such as the developing technologies for CO2 capture, especially those based on CaO looping cycles. This technology is at the pilot plant demonstration stage and there are still significant challenges that require solutions. The technology is based on a dual fluidized bed reactor which contains a carbonator
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17

Essounani-Mérida, Sofía, Sergio Molina-Ramírez, Marina Cortés-Reyes, Concepción Herrera, Mª Ángeles Larrubia, and Luis J. Alemany. "Influence of second metal incorporation on nickel-based unsupported catalysts for CO2 reduction (CO2-SR) Technology." Results in Engineering 26 (June 2025): 104921. https://doi.org/10.1016/j.rineng.2025.104921.

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18

Wang, Zhelong. "Research Progress of Supercritical / Dense Phase CO2 Flow Metering Technology." Academic Journal of Science and Technology 14, no. 3 (2025): 76–84. https://doi.org/10.54097/wy5b9163.

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Carbon Capture, Utilization, and Storage (CCUS) technology plays a vital role in achieving the "carbon neutrality" strategic goal. However, one of the significant challenges in realizing this objective is the precise measurement of CO2 flow rates. Based on a literature review of current applications of flow measurement in CCUS processes at home and abroad, this study analyzes the influencing factors of flow meter selection and installation, as well as the impacts of different types and concentrations of impurities in CO2 streams on measurement accuracy. It identifies the primary reasons for in
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19

Zhang, Siyuan, Chen Liang, Zhiping Zhu, and Ruifang Cui. "Experimental Study on the Thermal Reduction of CO2 by Activated Solid Carbon-Based Fuels." Energies 17, no. 9 (2024): 2164. http://dx.doi.org/10.3390/en17092164.

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For achieving CO2 thermal reduction, a technology combining solid carbon activation and high-temperature CO2 reduction was proposed, named as activated-reduction technology. In this study, this technology is realized by using a circulating fluidized bed and downdraft reactor. Reduced agent parameters (O2/C and CO2 concentration) greatly affect the reduction effect of CO2. In addition, the effect of the activation process on different carbon-based materials can help to broaden the range of carbon-based materials used for CO2 reduction, which is also an important issue. The following three point
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20

Roth, Elliot A., Sushant Agarwal, and Rakesh K. Gupta. "Nanoclay-Based Solid Sorbents for CO2 Capture." Energy & Fuels 27, no. 8 (2013): 4129–36. http://dx.doi.org/10.1021/ef302017m.

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21

Jiang, Kaiqi, Hai Yu, Jianglong Yu, and Kangkang Li. "Advancement of ammonia-based post-combustion CO2 capture technology: Process modifications." Fuel Processing Technology 210 (December 2020): 106544. http://dx.doi.org/10.1016/j.fuproc.2020.106544.

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22

Yang, Mingjun, Yongchen Song, Lanlan Jiang, et al. "Hydrate-based technology for CO2 capture from fossil fuel power plants." Applied Energy 116 (March 2014): 26–40. http://dx.doi.org/10.1016/j.apenergy.2013.11.031.

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23

McLarnon, Christopher R., and Joanna L. Duncan. "Testing of Ammonia Based CO2 Capture with Multi-Pollutant Control Technology." Energy Procedia 1, no. 1 (2009): 1027–34. http://dx.doi.org/10.1016/j.egypro.2009.01.136.

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24

Jiang, Guodong, Qinglin Huang, Saeed Danaei Kenarsari, et al. "A new mesoporous amine-TiO2 based pre-combustion CO2 capture technology." Applied Energy 147 (June 2015): 214–23. http://dx.doi.org/10.1016/j.apenergy.2015.01.081.

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25

Yang, Haoran, Mian Wei, Baodong Wang, et al. "Research on the Influence of a Magnesium-Based Carbon Dioxide Battery System on CO2 Storage Performance." Processes 12, no. 9 (2024): 1896. http://dx.doi.org/10.3390/pr12091896.

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At present, the energy consumption and carbon emissions of maritime transportation have raised concerns about environmental issues. A potential way to reduce carbon emissions from vessels is the use of chemical-based carbon capture and storage (CCS) technology. However, this technology faces challenges such as high energy consumption, large space occupation, and high processing costs. Therefore, the development of a technology with low energy consumption and compact CO2 storage is crucial to promote the advancement of CCS technology. This paper introduces a magnesium CO2 battery system that co
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26

Ho, Quyen Bao Thuy, and Akira Suzuki. "TECHNOLOGY OF MUSHROOM CULTIVATION." Vietnam Journal of Science and Technology 57, no. 3 (2019): 265. http://dx.doi.org/10.15625/2525-2518/57/3/12954.

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Mushroom cultivation has been developed by two ways, i. e., one based on cultivation by wood-log and another based on cultivation by non-wood-log. Non-wood-log cultivation would be categorized into two aspects. Mushroom cultivation under non-aseptic condition, i. e., one characterized by the processes of fermentation (composting) and casing, and another characterized by using sterilized media followed by cultivation process associated with strict control of environmental factors such as light, temperature, humidity, and CO2 concentration.
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27

Hamid, Hira, Khurram Jawad, Rizwana Hayat, Shoaib Ghulam, and Shahzad Hussain. "Financial Inclusion, Technology Innovation and CO2 Emissions: International Evidence." Qlantic Journal of Social Sciences and Humanities 5, no. 3 (2024): 222–33. http://dx.doi.org/10.55737/qjssh.587103550.

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This research examines the elaborate association between FI, CO2 emissions, and the moderating role of technological innovation across 83 countries. The study, which includes the years 2003 to 2022, uses data from the WDI to investigate the dynamics and consequences of these interrelated factors. The major goal is to determine the influence of FI on CO2 emissions, taking into consideration the moderating role of technical progress. Through principal component analysis, the study seeks to understand the underlying mechanisms driving these associations by employing various statistical approaches
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28

Metrikaitytė Gudelė, Gustė, and Jūratė Sužiedelytė Visockienė. "APPLICATION OF REMOTE SENSING FOR MONITORING CARBON FARMING: A REVIEW." Mokslas - Lietuvos ateitis 15 (August 21, 2023): 1–6. http://dx.doi.org/10.3846/mla.2023.19396.

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This research article presents an overview of the role of carbon farming in mitigating climate change by sequestering carbon in soil and vegetation. The article highlights the potential of remote sensing technology for monitoring carbon farming practices and CO2 absorption. Carbon farming practices, such as conservation tillage, cover cropping, crop rotation, and agroforestry, are discussed. The article explains the application of remote sensing technology, including satellite-based remote sensing, aerial photography, and ground-based sensors, in monitoring changes in carbon sequestration and
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29

Monni, Noemi, Eduardo Andres-Garcia, Katia Caamaño, et al. "A thermally/chemically robust and easily regenerable anilato-based ultramicroporous 3D MOF for CO2 uptake and separation." Journal of Materials Chemistry A 9, no. 44 (2021): 25189–95. http://dx.doi.org/10.1039/d1ta07436a.

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A novel anilato-based 3D ultramicroporous MOF is reported, displaying a significant balance of high CO2 separation from CO2:N2 and CO2:CH4 gas mixtures, high thermal stability and high regenerability, a challenge in the separation technology industry.
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30

Lu, Yanjun, Jinxuan Han, Manping Yang, Xingyu Chen, Hongjian Zhu, and Zhaozhong Yang. "Molecular simulation of supercritical CO2 extracting organic matter from coal based on the technology of CO2-ECBM." Energy 266 (March 2023): 126393. http://dx.doi.org/10.1016/j.energy.2022.126393.

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31

Yang, Wei, Meilong Fu, Yanping Wang, Jianqiang Lu, and Guojun Li. "Research on CO2 Quasi-Dry Fracturing Technology and Reservoir CO2 Distribution Pattern." Processes 13, no. 2 (2025): 472. https://doi.org/10.3390/pr13020472.

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CO2 fracturing technology has been widely used to develop unconventional oil and gas reservoirs such as shale oil and gas and tight sandstone reservoirs. To mitigate the issues of low viscosity and high friction associated with traditional CO2 fracturing technology, this paper proposes CO2 quasi-dry fracturing technology. Taking the low permeability tight sandstone reservoir in Block X of T oilfield as the research object, indoor experiments were conducted to optimize the ratio of CO2 quasi-dry fracturing fluid. Numerical simulation was used to select the optimal construction displacement usin
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32

Feng, Da-Ming, Ying Sun, Zhao-Qing Liu, Yun-Pei Zhu, and Tian-Yi Ma. "Designing Nanostructured Metal-Based CO2 Reduction Electrocatalysts." Journal of Nanoscience and Nanotechnology 19, no. 6 (2019): 3079–96. http://dx.doi.org/10.1166/jnn.2019.16648.

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Capture and conversion of CO2 into value-added chemicals and fuels is one of the most sought-after hot points at the scientific frontier. Driven by renewable energy derived electricity, the heterogeneous electrocatalyic CO2 reduction has attracted intensive interests because of the easy manipulation and high-energy-density fuels supply. Metals with general abundance and robust ability for activating CO2 have been adopted as the core-atom for developing advanced CO2 reduction electrocatalysts. As the dramatic development of nano-technology, the nanostructured metal-based materials become promis
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33

Huang, Yuan Sheng, and Jie Xu. "Research on Carbon Emission Measurement of Electricity Sector Based on Scenario Analysis Method." Applied Mechanics and Materials 367 (August 2013): 327–32. http://dx.doi.org/10.4028/www.scientific.net/amm.367.327.

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Delivering a low-carboneconomy puts ourselves on a path to cut CO2 emission, which is the maincontributor to global warming. Developing low-carbon technology in electricityindustry will play an important role in future since electricity always beingthe biggest emission source. This paper analysis electricity carbon emissions usedscenario analysis method in Baoding, forecasts power load based on economictargets and energy efficiency targets, and analysis CO2 emissions by coal powernew technology application scenarios, and then ,carried out some suggestions onthe electricity sector’s CO2 emissio
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34

Oribayo, O., A. K. Bashorun, and O. A. George. "A TECHNICAL AND ECONOMIC COMPARISON OF CO2 REMOVAL TECHNOLOGIES IN AMMONIA PRODUCTION PLANTS." Open Journal of Engineering Science (ISSN: 2734-2115) 4, no. 2 (2023): 74–88. http://dx.doi.org/10.52417/ojes.v4i2.530.

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The utilization of natural gas as a primary feedstock in ammonia production has resulted in significant carbon dioxide (CO2) emissions, raising environmental concerns. Consequently, several technologies have been developed to capture and remove carbon dioxide. In this study, a comparison was conducted between two CO2 removal technologies (Amine and Benfield) in an Ammonia production plant. The evaluation was performed using rate-based modelling techniques in Aspen Plus software. A base case simulation was built and validated using figures obtained from various literature studies. Optimization
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35

Li, Qiaoyun, Zhengfu Ning, Shuhong Wu, Baohua Wang, Qiang Li, and Hua Li. "A Multiphase and Multicomponent Model and Numerical Simulation Technology for CO2 Flooding and Storage." Energies 17, no. 13 (2024): 3222. http://dx.doi.org/10.3390/en17133222.

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In recent years, CO2 flooding has become an important technical measure for oil and gas field enterprises to further improve oil and gas recovery and achieve the goal of “dual carbon”. It is also one of the concrete application forms of CCUS. Numerical simulation based on CO2-EOR plays an indispensable role in the study of the mechanism of CO2 flooding and buried percolation, allowing for technical indicators to be selected and EOR/EGR prediction to be improved for reservoir engineers. This paper discusses the numerical simulation techniques related to CO2 flooding and storage, including mathe
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36

Wang, Fangtian, and Jinghong Yan. "CO2 Storage and Geothermal Extraction Technology for Deep Coal Mine." Sustainability 14, no. 19 (2022): 12322. http://dx.doi.org/10.3390/su141912322.

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This paper aims at reducing greenhouse gas emissions, which contributes to carbon neutrality, and, at the same time, preventing mine heat disasters and extracting highly mineralized (HM) mine water, so as to realize the synergy between CO2 storage (CS) and geothermal extraction and utilization (GEU) in a high temperature (HT) goaf. With this purpose, an innovative CS-GEU technology for HT and HM water in deep mine is proposed, based on the mechanism of water-rock-CO2 effect (WRCE) and the principle of GEU in the mine. This technology uses GEU to offset the costs of CO2 storage and refrigeratio
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37

Tamilarasan, Saravana Kumar, Jobel Jose, Vignesh Boopalan, et al. "Recent Developments in Supercritical CO2-Based Sustainable Power Generation Technologies." Energies 17, no. 16 (2024): 4019. http://dx.doi.org/10.3390/en17164019.

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Global warming and environmental pollution from greenhouse gas emissions are hitting an all-time high consistently year after year. In 2022, energy-related emissions accounted for 87% of the overall global emissions. The fossil fuel-based conventional power systems also need timely upgrades to improve their cycle efficiency and reduce their impact on the environment. Supercritical CO2 systems and cycles are gaining attention because of their higher efficiencies and their compatibility with varied energy sources. The present work is a detailed overview of the recent developments in supercritica
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38

Carpenter, Chris. "Technology Focus: Drilling and Completion Fluids (November 2024)." Journal of Petroleum Technology 76, no. 11 (2024): 72–73. http://dx.doi.org/10.2118/1124-0072-jpt.

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This year’s primary selections for the Drilling and Completion Fluids Technology Focus reflect now-well-established industrywide emphases on machine learning (ML), automation, and the achievement of successful drilling of CO2 storage wells. Enhanced methods of modeling and monitoring allow time and cost savings while surpassing safety goals and furthering efforts to optimize CO2 storage. Paper OTC 35433 discusses a study centered on accurate gel-strength estimation. The authors leverage ML techniques, particularly the use of artificial neural networks, to develop predictive models for forecast
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39

Chassé, Melissa, Raktim Sen, Alain Goeppert, G. K. Surya Prakash, and Neil Vasdev. "Polyamine based solid CO2 adsorbents for [11C]CO2 purification and radiosynthesis." Journal of CO2 Utilization 64 (October 2022): 102137. http://dx.doi.org/10.1016/j.jcou.2022.102137.

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40

Ouyang, Chao, and Hsiao Wei Chen. "Value Chain Analysis for Microalgae-Based CO2 Capture: A Case Study." Advanced Materials Research 1079-1080 (December 2014): 558–61. http://dx.doi.org/10.4028/www.scientific.net/amr.1079-1080.558.

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This primary goal of this study is to facilitate robust strategic decision- making regarding current and future deployment of microalgae-based CO2 capture technology. Based on Porter’s value-chain theory, a chain of activities that are common to all businesses are divided into primary and support activities. This study then attempts designs a microalgae-based CO2 capture value-chain model. This model shows that value drivers of microalgae-based CO2 capture, benefit markedly economic development. According to this value-chain model, one can choose a suitable strategy that to increases economic
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41

Vadillo, José Manuel, Guillermo Díaz-Sainz, Lucía Gómez-Coma, Aurora Garea, and Angel Irabien. "Chemical and Physical Ionic Liquids in CO2 Capture System Using Membrane Vacuum Regeneration." Membranes 12, no. 8 (2022): 785. http://dx.doi.org/10.3390/membranes12080785.

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Carbon Capture Utilization and Storage technologies are essential mitigation options to reach net-zero CO2 emissions. However, this challenge requires the development of sustainable and economic separation technologies. This work presents a novel CO2 capture technology strategy based on non-dispersive CO2 absorption and membrane vacuum regeneration (MVR) technology, and employs two imidazolium ionic liquids (ILs), [emim][Ac] and [emim][MS], with different behavior to absorb CO2. Continuous absorption–desorption experiments were carried out using polypropylene hollow fiber membrane contactors.
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42

Akenteng, Yaw Dwamena, Hao Chen, Kwame Nana Opoku, Fahim Ullah, Shuang Wang, and Sunel Kumar. "The Role of Computational Fluid Dynamics (CFD) in Phytohormone-Regulated Microalgae-Based Carbon Dioxide Capture Technology." Sustainability 17, no. 3 (2025): 860. https://doi.org/10.3390/su17030860.

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Microalgae-based CO2 capture has potential as an industrial-scale solution to climate change challenges while also amassing usable microalgae biomass. Computational fluid dynamics (CFD) can optimize CO2 extraction in microalgae growing systems, especially when paired with phytohormone-regulated growth. This paper examines the use of CFD to predict fluid flow, nutrient distribution, light intensity, and mass transfer in microalgae-based systems, which are crucial for improving photosynthetic efficiency and fixing CO2. The focus is on how phytohormones, such as auxins and cytokinin, influence mi
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43

Ishaq, Haris, and Curran Crawford. "CO2‑based alternative fuel production to support development of CO2 capture, utilization and storage." Fuel 331 (January 2023): 125684. http://dx.doi.org/10.1016/j.fuel.2022.125684.

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44

Murthy, Pradeep S., Weibin Liang, Yijiao Jiang, and Jun Huang. "Cu-Based Nanocatalysts for CO2 Hydrogenation to Methanol." Energy & Fuels 35, no. 10 (2021): 8558–84. http://dx.doi.org/10.1021/acs.energyfuels.1c00625.

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45

Świerczek, Konrad, Hailei Zhao, Zijia Zhang, and Zhihong Du. "MIEC-type ceramic membranes for the oxygen separation technology." E3S Web of Conferences 108 (2019): 01021. http://dx.doi.org/10.1051/e3sconf/201910801021.

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Mixed ionic-electronic conducting ceramic membrane-based oxygen separation technology attracts great attention as a promising alternative for oxygen production. The oxygen-transport membranes should not only exhibit a high oxygen flux but also show good stability under CO2-containing atmospheres. Therefore, designing and optimization, as well as practical application of membrane materials with good CO2 stability is a challenge. In this work, apart from discussion of literature data, authors’ own results are provided, which are focused on materia - related issues, including development of elect
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46

Zhang Zhiyan, 张志研, 牛奔 Niu Ben, 高文焱 Gao Wenyan, 侯玮 Hou Wei, and 林学春 Lin Xuechun. "Splicing Technology of Fiber Large Diameter End-Cap Based on CO2 Laser." Chinese Journal of Lasers 41, no. 7 (2014): 0703001. http://dx.doi.org/10.3788/cjl201441.0703001.

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47

Hu, Mingqiang, Yaling Mu, and Hui Jin. "A bibliometric analysis of advances in CO2 reduction technology based on patents." Applied Energy 382 (March 2025): 125193. https://doi.org/10.1016/j.apenergy.2024.125193.

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48

Ruiz, Claudia, Luis Rincón, Ricardo R. Contreras, Claudio Sidney, and Jorge Almarza. "Sustainable and Negative Carbon Footprint Solid-Based NaOH Technology for CO2 Capture." ACS Sustainable Chemistry & Engineering 8, no. 51 (2020): 19003–12. http://dx.doi.org/10.1021/acssuschemeng.0c07093.

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49

Yang, Mingjun, Yongchen Song, Lanlan Jiang, Yu Liu, and Xiaojing Wang. "Behaviour of hydrate-based technology for H2/CO2 separation in glass beads." Separation and Purification Technology 141 (February 2015): 170–78. http://dx.doi.org/10.1016/j.seppur.2014.11.019.

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50

Nakamura, Shiko, Yasuro Yamanaka, Toshiya Matsuyama, Shinya Okuno, and Hiroshi Sato. "IHI s Amine-Based CO2 Capture Technology for Coal Fired Power Plant." Energy Procedia 37 (2013): 1897–903. http://dx.doi.org/10.1016/j.egypro.2013.06.070.

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