This page provides an English interface to the gxceed GX paper corpus. The corpus aggregates papers from 13 open scholarly metadata sources and uses AI-assisted classification to identify signals related to measurement, policy narratives, outcomes, implementation, industrial adoption, and verification.
The goal is not only to discover papers, but to observe how GX research is distributed across research substance, implementation narratives, external expectations, implementation substance, and judgment formation.
Summaries are AI-assisted. Always refer to the original paper for authoritative conclusions.
Showing 381–400 of 842 papers
Kira J Picknell, Nature Poddar, Mathieu Pernice +4
This paper provides a preliminary techno-economic assessment of using microalgae to capture CO2 from breweries and converting the biomass into ruminant feed. Early results indicate potential for integrated carbon capture and value-added fee…
Yanhan Gan, Feng Li, Caizong Bao +3
This paper comprehensively evaluates the performance and economics of coal gasification-based cogeneration systems for hydrogen production integrated with carbon capture (CCS). It provides insights into CCUS deployment within China's energy…
Jie Yang, Won Kyung Kim, Hyunuk Kang +4
This study proposes a method to capture CO2 directly in cement mixing, enhancing self-healing properties. Tests show improved strength and durability, offering a potential pathway for decarbonizing the cement industry.
Madhuni Madhushika Wijesooriya, Mathias Eskildsen, Rubens Perez Calegari +2
This study investigates the effect of increasing concentrations of the capture agent N-methyl diethanolamine (MDEA) on a bio-integrated carbon capture and utilization (CCU) process converting CO2 to methane. MDEA is used as a CO2 absorbent;…
Dr. Sarita Chaudhary, Dr. Mala Mathur , Dr. Komal Arora , Dr. Santosh Kumar Agrawal, Dr. Abhishek Gehlot
This paper reviews electrochemical carbon capture and conversion technologies, covering electrode catalysts, electrolyzer design, and process integration. It highlights the potential for producing green fuels and chemicals using renewable e…
Rui‐Qi Jia, Zhi-Yuan Xue, Guang‐Wen Chu +2
This pilot-scale study demonstrates a phase-change absorbent for CO2 capture using HiGee rotating packed bed technology. The novel absorbent reduces regeneration energy by 48.08% compared to MEA, achieving 2.01 GJ/t CO2 with 91.64% capture …
Nguyen T.T.H.
This paper presents a systematic approach for designing and optimizing integrated CCUS systems specifically for methane and methanol production. It aims to enhance overall efficiency and economic feasibility, offering insights for practical…
Singh Rawat S.
This paper introduces innovative high-temperature heat pump concepts for economically decarbonizing carbon capture units. The proposed designs aim to reduce energy use and costs in CCUS, improving overall system efficiency and supporting in…
Shin H.
This paper conducts comparative environmental techno-economic assessments of onboard amine-based carbon capture and boil-off gas handling systems on LCO2 carriers, evaluating performance and cost for decarbonizing maritime transport.
Rowaihy F.
This paper assesses the cost of carbon capture in Saudi Arabia's energy and industrial sectors for decarbonization. It evaluates the feasibility and economics of CCUS implementation.
Fang S.
This paper reviews the development frontier and predicts trends in carbon capture technology (CCS/CCUS). It provides an overview of recent research progress and future directions.
Xia W.
This paper proposes a KAN-LSTM hybrid neural network for accurate oil production forecasting in CCUS-EOR systems. The method outperforms traditional approaches, supporting economic evaluation and operational optimization of CCUS projects.
Liu E.
This systematic review examines the current status, progress, and challenges of Carbon Capture, Utilization and Storage (CCUS), offering insights for technology deployment and policy design in decarbonization.
Sultan N.S.
This review comprehensively examines recent approaches, challenges, and future prospects of carbon dioxide capture, utilization, and storage (CCUS) toward a carbon-free world. It discusses the role of CCUS in decarbonization and outlines ke…
Ali A.
This study synthesizes nutrient-doped fast-weathering silicate minerals and uses machine learning to model their weathering process for carbon capture, utilization, and sequestration (CCUS), aiming to enhance the efficiency of carbon remova…
Shen B.
This paper proposes an integrated deep learning framework for evaluating and optimizing the full cycle of CCUS-EOR (Carbon Capture, Utilization, and Storage with Enhanced Oil Recovery) under carbon neutrality goals. The deep learning approa…
Sun R.
This paper proposes an integrated decarbonization system for ethane cracking, combining carbon capture, CO2 hydrogenation, solar-powered water electrolysis, and methanol-to-olefins conversion to reduce emissions in the petrochemical sector.
Ahmadi P.
This paper investigates the thermophysical properties of a candidate fluid for carbon capture, utilization, and storage (CCUS). It provides data on density, viscosity, thermal conductivity, etc., essential for designing CCUS systems.
Liu X.
This paper formulates a low-carbon economic dispatch problem for an integrated electricity-gas energy system with carbon capture, utilization and storage (CCUS). It proposes an optimization method that balances system cost and emission redu…
Alatefi S.
This paper presents robust white-box machine learning frameworks to predict the viscosity of CO2–CH4 binary mixtures with high accuracy, supporting CCUS process design and optimization, particularly for CO2 transport and storage efficiency.
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