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 621–640 of 862 papers
Anwar Ahmad, Abdullah A. Almayeef, Mohammed Alsuwaylih +2
This paper reviews the opportunities and technical challenges of carbon capture and utilization for producing next-generation e-fuels. It focuses on the intersection of carbon recycling and synthetic fuels, discussing the potential and limi…
Enrica Luzzi, Riccardo Rea, Enzo Mangano +3
This study proposes an optimization method for 3D-printed zeolite monoliths to enhance CO2 capture performance, balancing efficiency and durability, with design guidelines for practical application.
Xiyu Li, Yixin Sun, Yun Tang +2
Using machine learning, this study reveals that current carbon capture and storage (CCS) deployment rates are insufficient to meet global climate goals, indicating a need for rapid scaling.
Ulrik Brix Madsen, Agnese Zaghini, Silke Flindt Badino +4
This study demonstrates that hydrophobic modifications of carbonic anhydrase (CA) dramatically improve its performance in CO2 capture, achieving over two orders of magnitude increase in specific activity. The modifications enhance interfaci…
Ruowei Yuan, Kewei Xu, Zhenyu Du +3
This paper proposes a system-level approach to thermally integrate and electrify carbon capture and methanol synthesis processes, aiming to maximize energy efficiency and CO2 reduction. It has potential contributions to industrial decarboni…
Yuanqiang Duan, Lin Li, Dennis Lu +4
This brief review discusses innovative carbon capture approaches using fluidized bed reactors, covering sorbent materials, process optimization, and future research directions.
Adrien Nicolle, David Lowing, Diego Manuel Cebreros Saettone
This paper analyzes subsidy design for CCS adoption from emitters' perspective, suggesting that tailored subsidies (based on cost structure and risk preferences) are more effective than uniform schemes. Practical implications for policymake…
X.H. Chen, Y.X. Zhang, X.X. Hu +5
This paper investigates circulating fluidized bed carbon capture technology using lithium-based sorbents, exploring performance and mechanisms to enhance CO2 capture efficiency.
Longxiang Chen, Die Wei, Hailin Gu +3
This paper presents a thermodynamic analysis of a novel hydraulic piston-based carbon capture system, evaluating its efficiency and feasibility. It suggests potential for reduced energy consumption compared to conventional amine scrubbing, …
Sangjin Oh, Chaewoon Oh, Mina Lee +1
This policy research aims to formulate project methodologies for carbon credits generated by Direct Air Carbon Capture and Utilization (DACCU) technologies. It addresses the lack of established methodologies for this emerging carbon removal…
Han Zhao, Suhui Liu, Tong Li +7
This study presents novel COF-based IL/bacterial cellulose composite membranes for carbon capture, evaluating their structure and CO2 separation performance, showing potential for efficient carbon capture.
Supreetha Sivaraj, Hye-In Kim, Su-Ji Jeon +6
This study proposes using antioxidant nanozymes to enhance marine algae growth and improve carbon capture capacity, suggesting a new nature-based carbon removal approach.
Wei-Hsin Chen, Aristotle T. Ubando, John Patrick Mercado
This study focuses on the reduction of magnetite in chemical-looping combustion for carbon capture. It analyzes reaction mechanisms and efficiency, potentially contributing to the advancement of CCUS technology.
Zitong Zhuang, Zhiqiang Wang, Yangbo Xue +3
This study develops hierarchical porous carbon from biomass for direct air carbon capture (DAC) and supercapacitors. The ultrahigh surface area suggests potential for high CO2 adsorption capacity and electrochemical performance.
Frantisek Lizal, Ondrej Cejpek, Milan Maly +4
This study investigates the design and performance comparison of atomizers for intensified carbon capture. It evaluates the efficiency of various atomizers, contributing to the development of more effective carbon capture technologies.
Bertha Maya Sopha, Sholeh Ma’mun, M. Arif Wibisono +1
This paper explores carbon scheme scenarios (e.g., carbon pricing, credits) for retrofitting coal-fired power plants with carbon capture systems in Indonesia. It analyzes the economic and emission reduction impacts under different policy op…
Mohsen Nasrollahi, Farzin Hosseinifard, Mohsen Salimi +1
This paper conducts a life cycle assessment of direct air capture (DAC) technology integrated with solar photovoltaics. It quantifies reductions in energy consumption and greenhouse gas emissions compared to conventional DAC, discusses scal…
Bruktawit M. Ahmed, Mahelet G. Fikru
This paper analyzes the impact of carbon capture technologies on energy prices. Although specific findings are not available from the title alone, it contributes to discussions on cost-effectiveness in the clean energy transition.
Oscar Stenström, Magnus Rydén
This case study examines the unintended consequences and regrettable aspects of bioenergy with carbon capture and storage (BECCS), highlighting potential negative impacts on land use and ecosystems despite its contribution to climate goals.
Sebastian Borgquist, Sai Hema Bhavya Vinjarapu, Sara Vallejo Castano +20
This paper presents an electrochemical method for capturing CO2 from a magnesite calcination plant, aiming to efficiently separate and recover carbon dioxide from mineral-derived emissions for storage or utilization.
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