GX Research Hub · English
GX & Decarbonization Research
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.
🌍 GlobalPreprint2026#Energy TransitionDOI
Embedding resilience in energy system deep decarbonisation pathways for emerging economies: The case of India
Praveen P, Fernando Plazas-Niño, Balachandra Patil
This paper proposes a modeling approach to embed resilience in long-term energy system planning for deep decarbonization, applied to India's electricity sector. By imposing minimum firm and dispatchable capacity (FDC) requirements, it shows…
📚 Peer-reviewed · JournalStructural Change and Economic Dynamics2026#Energy TransitionDOI
Automating decarbonization: industrial robots and the manufacturing in resource-based cities
Zhujun Chen, Hui Wang, Wenqiu Cai +1
This paper examines how industrial robots can reduce carbon emissions in manufacturing within resource-dependent cities. It analyzes automation strategies for decarbonization and offers insights for sustainable industrial transformation in …
🇺🇸 USA📚 Peer-reviewed · Conference2026 Pacific Section AAPG / SPE Western Regional Joint Meeting2026#Energy TransitionDOI
Critical Investment Needs in California OCS Oil, Natural Gas, and Decarbonization
Marsha H. Ershaghi, Iraj Ershaghi
This paper analyzes investment needs in California's Outer Continental Shelf oil and gas sector within a decarbonization framework. It emphasizes that while meeting rising energy demand from AI and digital infrastructure, continued oil and …
🌍 Global📚 Peer-reviewed · JournalEnergy Policy2026#Energy TransitionDOI
Aging alone: a twin threat to decarbonisation and energy vulnerability in Japan and UK
Lucie Middlemiss, Shinichiro Okushima, Lena Kilian +3
This study examines how aging populations in Japan and the UK pose a dual challenge to decarbonization efforts and increase energy vulnerability. It argues that changing household structures and energy consumption patterns among elderly pop…
📚 Peer-reviewed · JournalInternational Journal of Thermofluids2026#Energy TransitionDOI
The 5Ds of energy market: decarbonization, deregulation, decentralization, democratization, and digitalization
Montaser Mahmoud, Nsilulu T. Mbungu, Ayman Mdallal +3
This paper presents the 5Ds framework for energy markets—decarbonization, deregulation, decentralization, democratization, and digitalization—and explores their interactions and implications for market transformation.
🌍 GlobalJournal2026#Energy TransitionDOI
Next-Generation Nuclear Energy for Decarbonization, Energy Security, and Industrial Growth
Murali Krishna Pasupuleti
This book develops a rigorous framework for studying advanced nuclear systems as socio-technical infrastructures. It integrates systems theory, uncertainty analysis, causal inference, and policy governance to examine how nuclear innovation …
🇯🇵→🌍 Japan-to-Global🇯🇵 Japan📚 Peer-reviewed · JournalEnergy and Climate Change2026#Energy TransitionDOI
JMIP 2 part 2: Technology sensitivities in Japan's power sector decarbonization
Eamon Frazer, Tao Cao, Masahiro Sugiyama +11
This study, part of JMIP Phase 2, analyzes technology sensitivities in Japan's power sector decarbonization pathways. It models optimization of renewables, nuclear, and CCUS under varying cost and policy assumptions, highlighting implicatio…
📚 Peer-reviewed · JournalTransportation Research Part E: Logistics and Transportation Review2026#Energy TransitionDOI
Lifecycle optimization of multi-fuel tugboat fleets for port decarbonization
Baoli Liu, Xian Zhang, Zehao Wang +3
This paper explores lifecycle optimization of tugboat fleets with multiple fuel options to decarbonize port operations. It balances cost and emissions through fleet composition and operational strategies. Findings provide actionable insight…
📚 Peer-reviewed · JournalBiomass and Bioenergy2026#Energy TransitionDOI
The road to cleaner biofuels: A comparative impact study focused on Australia's decarbonisation journey
Seyed Abolfazl Mirnezami, Vladimir Strezov, Nazmul Huda
This study compares the impacts of different biofuel pathways for Australia's decarbonisation journey. It assesses environmental and economic aspects, providing insights into the feasibility of cleaner biofuels.
📚 Peer-reviewed · JournalApplied Energy2026#Energy TransitionDOI
Unveiling energy equity in rural heating decarbonisation: a behaviour-resolved techno-economic optimisation framework
Rundong Liao, Tianlei Zang, Massimiliano Manfren +1
This paper develops a behaviour-resolved techno-economic optimisation framework to analyse energy equity in rural heating decarbonisation. By integrating household behaviour, it evaluates both economic feasibility and social acceptance of h…
📚 Peer-reviewed · JournalEnvironmental Research: Energy2026#Energy TransitionDOI
Incorporating an investment multiplier into DICE supports more rapid decarbonization
Anders Fremstad, Mark Paul
This paper incorporates Keynesian investment multipliers into the DICE model, showing that climate investments can increase employment and output. Results support faster decarbonization than standard DICE recommends, with pathways consisten…
🌍 Global📚 Peer-reviewed · JournalResearch in Transportation Business & Management2026#Energy TransitionDOI
Sustainable shipping on the horizon: Environmental requirements and institutional pressures in maritime decarbonisation
Linda Styhre, Sara Rogerson, Vendela Santén
This paper examines the environmental requirements and institutional pressures driving maritime decarbonisation. It analyzes challenges and opportunities for sustainable shipping, offering implications for policy and practice.
📚 Peer-reviewed · JournalEnergy Conversion and Management: X2026#Energy TransitionDOI
Decarbonization versus technological continuity: The implications for global transport
Alexis Vossier, Thomas Fasquelle, Jeffrey M. Gordon
This paper examines the tension between decarbonization and technological continuity in the transport sector, exploring challenges and opportunities for global transport system transformation. Specific findings are unclear due to lack of ab…
📚 Peer-reviewed · JournalApplied Thermal Engineering2026#Energy TransitionDOI
Industrial process heat decarbonisation with hybrid concentrated solar thermal and electric heating systems
Marco Colombi, Paolo Colbertaldo, Matteo C. Romano +1
This study investigates decarbonization of industrial process heat using a hybrid system combining concentrated solar thermal and electric heating. It aims to reduce carbon emissions by integrating renewable thermal energy with electric hea…
🇺🇸 USA📚 Peer-reviewed · Conference2026 Pacific Section AAPG / SPE Western Regional Joint Meeting2026#Energy TransitionDOI
Innovations in Decarbonization in the Oil and Gas Industry
Dean K. Spencer, Iraj Ershaghi
This paper reviews progress in decarbonization within the oil and gas industry, discussing innovations and solutions to address CO2 emissions concerns.
📚 Peer-reviewed · JournalEnergy and Climate Change2026#Energy TransitionDOI
Decarbonization and non-cooperating strategies: A case for Mexico
Alejandra Salazar, Jae Edmonds, Stefano Battiston +2
This paper examines non-cooperative strategies for decarbonization in Mexico, using a game-theoretic approach to analyze domestic policy effectiveness in the absence of international cooperation.
📚 Peer-reviewed · JournalEnergy Economics2026#Energy TransitionDOI
Sector-specific decarbonization effects of high-speed rails expansions
Sunbin Yoo, Junya Kumagai, Hung-Jui Lin +2
This study analyzes the decarbonization effects of high-speed rail (HSR) expansions across transport sectors (aviation, road, etc.) by considering modal shift and induced demand. It provides quantitative estimates of net emission reductions…
📚 Peer-reviewed · JournalTransportation Research Part D: Transport and Environment2026#Energy TransitionDOI
Missing the forest for the trees: what road freight decarbonisation research overlooks
Sergio Maria Patella, Filippo Carrese, Ila Maltese +2
This paper critiques existing research on road freight decarbonization for focusing too narrowly on technological solutions, overlooking systemic optimization and policy integration. It advocates for a more holistic approach.
📚 Peer-reviewed · JournalNexus2026#Energy TransitionDOI
Energy sufficiency for deep decarbonization: A modeling framework
Jingjing Zhang, Michelle Johnson-Wang, Nina Khanna +3
This paper proposes a modeling framework for deep decarbonization centered on energy sufficiency (demand reduction). It integrates supply-side and demand-side measures to support the transition to a sustainable energy system.
📚 Peer-reviewed · JournalTransportation Research Part B: Methodological2026#Energy TransitionDOI
Optimizing alternative-fuel tugboat fleet towards decarbonization goals
Jing Wang, Yibai Zhang, Shuai Jia +1
This paper explores the optimization of tugboat fleets using alternative fuels to achieve decarbonization targets. It likely employs operational research methods to balance cost, emissions, and feasibility, contributing to maritime energy t…