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 221–240 of 1028 papers
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This paper analyzes the interdependence between carbon capture technologies and the water–energy nexus, examining trade-offs in water consumption and energy efficiency to outline requirements for sustainable CCUS deployment.
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This paper explores the intersection of carbon capture, circular economy, and resource efficiency, likely focusing on integrated approaches like waste-to-energy and CO2 utilization.
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This paper discusses nature-based carbon capture and ecological solutions, highlighting the role of natural approaches in climate change mitigation.
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This paper examines the integration of carbon capture technology with renewable energy systems. It analyzes technical feasibility and economic viability, evaluating contributions to decarbonization.
(著者不明)
This article explores the relationship between carbon capture and storage (CCUS) technology and the Sustainable Development Goals (SDGs). It analyzes how CCUS contributes to climate change mitigation while aligning with other SDGs such as e…
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This paper compares carbon capture deployment and policies between developing and developed countries, discussing challenges and opportunities for CCUS in global climate mitigation.
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This paper analyzes social acceptance and public perception of carbon capture projects, providing insights for overcoming barriers to deployment.
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This paper discusses the importance of education, skills development, and public capacity building for the deployment of carbon capture (CCS/CCUS) technologies. It presents a framework for training and capacity building to reduce barriers t…
Abdul Hamid Malhan, R. Parameshwari, K. Thirumoorthy
This study uses DFT to investigate noncovalent catalysis by chitosan for converting CO2 and NH3 into urea. The NH2 and OH groups of chitosan stabilize key transition states, lowering activation energy. It provides molecular insights for a s…
Manrique E.
This paper discusses carbon capture and storage (CCS) combined with enhanced oil recovery (EOR). EOR can store CO2 underground while increasing oil production, but may face criticism for prolonging fossil fuel use.
Wang Y, Hu C, Liu J +4
This paper demonstrates that hierarchical spatial organization in algal-fungal living materials enables sustained carbon fixation. Compartmentalized seed-seedcase units create compatible niches, and fungal outgrowth integrates them into a c…
Christina Samara, Georgia Papapanagiotou, Christos Chatzidoukas
This study presents an optimized fed-batch NaHCO3 feeding strategy for microalgal CO2 capture, reducing carbon losses while boosting biomass productivity. By refining feeding intervals from 2 hours to 15 minutes, synchronization between car…
Yongliang He, Zhuo Li, Z K Zhang +4
This study investigates fracture evolution and permeability enhancement in coal under varying CO2 phase transition fracturing pressures. Experimental results provide insights for optimizing CCUS operations in coal seams.
Chen Yang, Rui Duan, Haobo Wei
This study evaluates the performance of a novel ternary amine for carbon capture. It analyzes capture efficiency and energy consumption compared to conventional amines, providing insights to improve CCUS technology.
Albert Bates, Kathleen Draper
This chapter explores the potential of biochar beyond soil amendment, examining non-agricultural applications that can scale industrially or suit smallholder enterprises. It introduces the concept of 'carbon cascades', a circular economy mo…
Arthur Gross, Bruno Glaser
Biochar offers stable carbon sequestration in soils and is more effective than traditional organic amendments. This chapter assesses its integration into carbon credit systems like the EU Carbon Removal Certification Framework (CRCF), evalu…
Aparna Pandey, Sourish Bhattacharya
This chapter reviews microbial technologies for climate change mitigation, including carbon capture and storage (CCUS) via biomineralization and photosynthesis, biofuel production (biodiesel, bioethanol), bioelectrochemical systems for elec…
Orolova Gulsevar Mengniqul qizi1, Boboyeva Marjona Saidaxmadovna2
This paper analyzes the potential of aerogels for CO2 capture from industrial gases. Aerogels with high porosity and large surface area show effective selective adsorption of CO2 molecules. The study reviews physical-chemical properties and…
F. Bobur, S. Ergin
This paper analyzes the thermal, environmental, and economic performance of an integrated carbon capture (CCUS) and thermoelectric power generation system designed for installation on a tanker. It quantifies the trade-off between CO2 captur…
Epihov. Dimitar Z.
This study uses natural weathering systems on a volcanic hill in Bulgaria to evaluate carbon capture efficiency of enhanced rock weathering (ERW). Comparing mafic and felsic soils, it suggests that CO2 removal potential may be overestimated…
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