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 901–920 of 1011 papers
Vitor Gama, Kyle J. Shank, M. Morgan +5
This paper presents a techno-economic evaluation of a carbon mineralization process combining membrane-based direct air capture (DAC) with steel slag. It focuses on CO2 removal from hard-to-abate industrial sectors such as steel production,…
Tianjiao Zhang, Yongduo Liu, Xin Liu +1
This study uses Aspen HYSYS to simulate the MDEA-PZ system for low-concentration CO2 capture from shale gas. Single-factor sensitivity analysis identifies optimal conditions (40% MDEA, 3% PZ, absorption at 46°C, regeneration at 118°C, circu…
M. Fakhraee, N. Planavsky
This study demonstrates that seaweed farming enhances ocean alkalinity, promoting carbon capture and sequestration. Increased alkalinity strengthens the ocean's chemical buffering capacity, facilitating absorption of atmospheric CO2. Seawee…
Özcan Başaran, Yavuz Kirim
This study simulates CO2 capture from an industrial facility in Turkey using MDEA solution in Aspen Plus. Optimizing flow rate and tray count achieved 95% capture efficiency (72.14 t/h out of 76 t/h). The process design is cost-effective an…
Adam Rice, Paul S. Fennell, N. Mac Dowell
This paper assesses the air quality implications of retrofitting CCS in heavy industry (cement, iron/steel, refining). It compares baseline emissions with post-CCS profiles, identifying changes in pollutants and new substances. A gap analys…
A. Napp, William Lautert Dutra, L. Duarte +3
This review examines microbial CO2 capture coupled with biosurfactant production within a CCUS framework. It covers metabolic pathways, synthetic biology advances, and AI integration for optimizing carbon fixation and biomanufacturing, high…
Sadhana Semwal, H. Joshi
This paper reviews biological CO2 utilization pathways using micro- and macroalgae, covering genetic engineering, process automation, and value-added bioproducts. It summarizes recent advances in algal biomass utilization and integrated CCU…
Ahmad Mahboob, Ahmed Bashir, M. Kamal +6
This comprehensive review covers the application of ionic liquids for CO2 capture, sequestration, and conversion. It compares the efficiency and selectivity of various ionic liquids and discusses process intensification. Challenges such as …
(著者不明)
This study simulates a process to capture CO2 from cement plant flue gas and react it with calcium hydroxide to produce precipitated calcium carbonate (PCC). Technical, economic, and environmental analyses show 99.5% CO2 capture efficiency,…
Fei Xu, Quan Yang, Zhenyu Jia +4
This study demonstrates that micro-sized iron oxyhydroxide (β-FeOOH) catalyst enhances CO2 desorption rate by 10.9% and reduces regeneration temperature from 120°C to 85°C in monoethanolamine (MEA) systems. This enables use of low-grade was…
Xinqing Gao, Longfei Yuan, Hui Yin Yeong +5
This study investigates physiological changes in microalgae under high CO2 domestication, focusing on carbon sequestration and lipid production. The findings suggest potential for enhanced carbon capture and biofuel production.
Tingjie Fu, Bolang Li, Wei Wen +6
This review systematically summarizes recent advances in carbon dioxide hydrogenation to methane, a key CCUS technology, and elaborates its reaction mechanism. It provides theoretical references for catalyst development and process optimiza…
Haoping Wan, Xinyu Wang, Fengqiang Miao +5
This study uses DFT to investigate CO2 adsorption on carbon materials, revealing that adsorption energies fall into three levels depending on bond formation (C=C, C=O, C-N). Functional groups like N and NH+ can optimize performance while ma…
Vibianti Dwi Pratiwi, Sukmawati Kunup, N. Aulia +2
This study simulates and evaluates a blue ammonia production process integrated with CCUS in East Java, Indonesia. It achieves a CO2 emission reduction of 1.06 tons per ton of ammonia, with a total annual cost of $82.25 million and levelize…
Marhaina Ismail, M. A. Bustam, Y. Yeong +1
This paper experimentally analyzes the CO2 adsorption mechanism on gallate-based MOFs. S-shaped isotherms indicate a gate-opening effect and multistep adsorption, classifying these MOFs as flexible. The intra-particle diffusion model sugges…
A. Rybak, A. Rybak, J. Joostberens +1
This review critically evaluates modern hybrid membranes, particularly mixed-matrix membranes (MMMs), for CO2 separation from industrial gas mixtures in the context of energy transition and CCUS. MMMs incorporating nanofillers such as COFs,…
C. Carpenter
This study assesses the technical feasibility of geological carbon storage in Brazilian brownfields, focusing on mature oil fields and saline aquifers. It evaluates storage capacity, containment, injectivity, and proximity to emissions sour…
Vishal Ahuja, N. A. Sagar, Deepak Sharma +5
This review examines the potential of algal biorefineries for carbon dioxide mitigation and sustainable energy production, focusing on integrated approaches for CO2 fixation and biofuel generation.
(著者不明)
This book presents technologies to reduce water use and carbon footprint within a circular economy framework, aligned with the European Green Deal and SDGs. It covers novel CO2 capture methods using water-soluble sorbents and FFH reagent, s…
Giovanna C Carlos, L. H. Crespo, Pedro H C Voloch +5
This study optimizes activated carbon from malt bagasse for CO2 adsorption using simplex-centroid design. NaOH-activated carbon achieved 2.83 mmol/g at 273 K, showing potential for sustainable CO2 capture from industrial by-products.
Browse by Topic