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 21–40 of 146 papers
Meehan D.N.
This paper systematically reviews the key risks and challenges in CCUS (CO2 capture, use, transportation, and storage). It comprehensively examines technical, economic, and regulatory barriers, providing policy insights for CCUS deployment.…
Ma Z.
This paper uses structural equation modeling to analyze factors influencing CCUS development in China. It identifies key drivers and barriers from policy, technology, and economic perspectives, providing insights for accelerating CCUS deplo…
Sen Zheng, Yuanxun Zheng, Feng Long +2
This paper provides a comprehensive review of carbon-sequestering engineered cementitious composites (ECC) for low-carbon construction, covering mechanisms, performance, and sustainability implications, highlighting their potential as a CCU…
Yang P.J.
This paper reviews the current development status and future application prospects of Carbon Capture, Utilization and Storage (CCUS) technology. It summarizes technological trends in capture, transport, storage, and utilization, highlightin…
Amran M.
This paper compiles global case studies and insights on carbon capture, utilization, and storage (CCUS) in the cement industry. It reviews international projects and technological trends for reducing CO2 emissions in cement manufacturing, a…
Shanlin Du, Weijie Cai, Zhaoxi Wang +6
This study clarifies the pressure regulation mechanism of CO2 desublimation, advancing the development of cryogenic carbon capture technology.
Weina Meng, Hammad Ahmed Shah
This study experimentally optimizes wet carbonation parameters for blast furnace slag to maximize CO2 uptake and reactivity, aiming to produce low-carbon ultra-high performance concrete (UHPC). It reveals how controlling carbonation conditi…
Pascucci G, Bozzi E, Gaviano S +5
This study analyzes one year of DAS recordings from an offshore CCS project in the northern Adriatic Sea, Italy. DAS outperforms conventional seismometers in event detection and SNR, and can track CO2 migration within the wellbore, providin…
Md. Sadman Anjum Joarder, Monjur Mourshed
This review comprehensively examines carbon capture and conversion (CCC) technologies, evaluating technology readiness levels, energy requirements, efficiency, and cost-effectiveness. It identifies research gaps in industrial scalability, t…
Torsten Müller
The Carbon2Chem project develops CCU technology that captures CO2 from steel mill gases to produce chemicals like methanol. A public-private partnership started in 2016, it aims to achieve its goals by 2028, demonstrating industrial symbios…
Huang Z.
This paper proposes an integrated system combining biomass power generation, CCS, and green hydrogen to produce methanol. It conducts a comprehensive thermodynamic and economic analysis with a strategic assessment for China, exploring the f…
Huo J.
This paper assesses the feasibility and challenges of achieving net-zero emissions in the global chemical industry by 2050 through the use of CO2 as a feedstock. It identifies key technological, economic, and policy hurdles while highlighti…
Wang L.
This review examines the current status and potential of Direct Air Carbon Capture and Storage (DACCS) from a global perspective. DACCS directly captures CO2 from the atmosphere and stores it underground, emerging as a critical climate miti…
Jérôme Houstin, Thibault Mousseau, Yann Le Moual +2
This paper performs a sensitivity analysis of a cryogenic carbon capture system on an LNG ship engine, assessing CO2 capture efficiency under various operating conditions to optimize system performance.
L. Castañeda-Losada, Michael Richter, Christophe Léger +2
This review outlines the fundamentals of electroenzymatic CO2 fixation, covering available enzymes, product range, and thermodynamic/kinetic considerations. It highlights the potential for high energy efficiency and selectivity in synthesiz…
Matthew Hollingham, Juan Pablo Gevaudan
This study develops novel supplementary cementitious materials by pairing chemical activation and carbonation of basalt, incorporating carbon capture. This approach reduces the carbon footprint of the cement industry.
R. Vinayak
This review comprehensively covers design strategies for metal-organic frameworks (MOFs) for CO₂ capture, comparing approaches like defect engineering and amine grafting. It addresses key challenges in stability, selectivity, and scalabilit…
Nabeel Al-Qirim, Mohammad Kamrul Hasan, Hussam Al Hamadi +2
This review investigates the life cycle of lithium-ion battery recycling systems and their ability to enable carbon capture, utilization, and storage (CCUS). It synthesizes findings on how battery recycling can contribute to decarbonization…
D.K. Panesar, A. Ali
CCUS technologies are critical for decarbonizing cement and concrete, but this life-cycle analysis of eight pathways reveals that while they reduce CO2, they can increase other environmental impacts such as energy use, eutrophication, acidi…
Wayne Griffiths
This white paper introduces the EM-Catalytic Syngas Manifold (ECSM), which destroys CO₂ molecules and rebuilds them into syngas and methanol, turning emissions into a self-funding compliance asset. It details the plasma dissociation, hydrog…
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