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Energy transition and carbon neutrality in ASEAN [electronic resource] : developing Carbon Capture, Utilization And Storage Technologies /

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008		251017s2025 si ob 001 0 eng d
020		\|a9789811288050\|q(electronic bk.)
020		\|a9811288054\|q(electronic bk.)
020		\|a9789811288067\|q(ebook other)
020		\|z9789811288043\|q(hardback)
040		\|aMiAaPQ\|beng\|cMiAaPQ\|dMiAaPQ\|eaacr2
041	0	\|aeng
050	4	\|aTD885.5.C3\|b.E547 2025
082	04	\|a333.79150959\|223
245	00	\|aEnergy transition and carbon neutrality in ASEAN\|h[electronic resource] :\|bdeveloping Carbon Capture, Utilization And Storage Technologies /\|cedited by Phoumin Han, Rabindra Nepal.
250		\|a1st ed.
260		\|aSingapore :\|bWorld Scientific,\|cc2025.
300		\|a1 online resource (327 p.)
490	1	\|aSeries in energy transition, carbon neutrality, and sustainability ;\|vvol. 2
504		\|aIncludes bibliographical references and index.
505	0	\|aIntro -- Contents -- About the Editors -- Acknowledgments -- Introduction -- Part 1 -- Chapter 1 Carbon Neutrality Pathways in East Asia: A Consideration of CCUS in the Power Generation Sector -- 1. Introduction -- 1.1. East Asia Summit -- 1.2. Objective and rationale -- 1.3. Enabling CCUS deployment in Asian -- 2. Data and Methodology -- 2.1. Scenarios -- 2.2. Data -- 2.3. Methodology -- 3. Assumptions -- 3.1. Population, GDP, and GDP growth rate -- 3.2. Thermal electricity generation efficiency -- 3.3. Oil, coal, and natural gas import price assumptions -- 3.4. Conservation goals and other policy assumptions -- 4. EAS Energy Outlook -- 4.1. Business-as-usual -- 4.1.1. Energy consumption -- 4.1.2. Primary energy supply (BAU) -- 4.1.3. EAS17 energy generation under BAU -- 4.2. Comparison of BAU, APS, and LCET -- 4.2.1. EAS17 BAU, APS, and LCET energy indicators -- 4.2.2. End-use energy consumption under BAU vs APS and LCET -- 4.2.3. Primary energy supply under BAU vs APS and LCET -- 4.3. Energy generation: BAU vs APS and LCET -- 4.4. CO2 Emissions from energy consumption -- 5. Conclusions and Recommendations -- 5.1. Summary -- 5.2. Policy implications -- References -- Chapter 2 Deployment of CCUS for Future ASEAN Decarbonization: An Energy Justice Perspective -- 1. Background -- 2. Methodology -- 2.1. Procedural justice -- 2.2. Distributive justice -- 2.3. Recognition justice -- 3. Results and Discussion -- 3.1. Overview of current ASEAN CCUS development -- 3.2. Potential injustice in CCUS technology development and its mitigation -- 3.3. Assessing energy justice principles in CCUS deployment -- 3.3.1. Availability -- 3.3.2. Affordability -- 3.3.3. Due process -- 3.3.4. Good governance -- 3.3.5. Sustainability -- 3.3.6. Intragenerational equity and Intergenerational equity -- 3.3.7. Responsibility -- 4. Conclusion -- References.
505	8	\|aChapter 3 Carbon Capture, Usage, and Storage (CCUS) Implications in Thailand -- 1. Introduction -- 1.1. CCUS technology: Overview -- 2. Overall CCUS Policy Implications -- 2.1. Worldwide CCS and CCUS development -- 3. Thailand's CCUS Landscape -- 3.1. Maturity of CCUS technology for Thailand's green growth -- 3.2. CCUS project developments in Thailand -- 3.3. Actions of Thailand Green Growth Roadmap -- 3.3.1. Storage -- 3.3.2. Utilization -- 4. Potential Challenges to CCUS -- 4.1. Challenges and description of Thailand Green Growth Roadmap -- 4.1.1. Carbon storage -- 4.1.2. Carbon utilization -- 5. Conclusion -- References -- Chapter 4 On the Role of Startups in Global CCUS Development and Deployment: An Exploratory Analysis from the Southeast Asian Perspective -- 1. Introduction -- 2. Background and Related Literature -- 3. Data and Methodology -- 3.1. Design -- 3.2. Preliminary analysis -- 4. Results -- 4.1. Methodology -- 4.2. Results -- 5. Discussion and Conclusion -- References -- Part 2 -- Chapter 5 Nature-Based Carbon Capture through Forest Management in the Mekong Region of Southeast Asia -- 1. Introduction -- 2. Material and Methods -- 2.1. Mekong forest resources -- 2.2. Forest cover model for the Mekong -- 2.3. Models for carbon stocks and timber productions from production forest under CVL and RIL -- 2.4. Baseline emission level, project emission level, and carbon credits -- 2.5. Models for carbon stocks and carbon capture in plantation forests -- 3. Results and Discussion -- 3.1. Changes in forest area in the Mekong -- 3.2. Harvested timber, wood products, and wastes -- 3.3. Carbon stocks, emissions, and emission reductions in production forest -- 3.4. Carbon stocks and carbon sequestration in FPF and SPF -- 3.5. Total carbon capture from PDF and PF -- 4. Conclusion -- References.
505	8	\|aChapter 6 Development of Graphene as Advanced Functional Material for Carbon Capture Technology: A Membrane Technology Approach for CCUS -- 1. Introduction -- 2. Literature Review -- 2.1. Current situation: Worldwide and Indonesia -- 2.2. CCUS membranes -- 2.2.1. Polymer-based membranes -- 2.2.2. MOF-based thin films -- 2.2.3. Graphene-based inorganic membranes -- 2.2.4. Graphene-based mixed matrix membranes -- 3. Methodology -- 3.1. Preparation of GO membrane -- 3.2. Membrane performance testing -- 4. Results and Discussion -- 4.1. Prospects, utilization, and challenges of membrane technology in CCUS -- 4.2. Analysis of membrane technology utilization -- 4.3. Challenges to Membrane Utilization in CCUS -- 4.4. Experimental Analysis of GBM Structure -- 4.5. Experimental Analysis of Membrane Performance Versus Gaseous Compounds -- 5. Conclusion and Policy Implications -- References -- Chapter 7 Carbon Storage in Harvested Products along the Wood Supply Chain through Industry 4.0 Technologies: Challenges, Opportunities, and Policy Implications -- 1. Introduction -- 2. Analysis of the Industry 4.0 Technologies and Wood Industry Applications -- 2.1. Forest management and supply chain of HWPs -- 2.2. Current wood demand and supply -- 2.3. Conventional technologies and their effects on efficiency in wood harvesting, processing, and manufacturing -- 2.4. Effects of technologies on carbon storage in HWPs -- 2.5. Industry 4.0: Revolutionizing wood manufacturing and production -- 2.6. Need for Industry 4.0 technologies to improve HWP efficiency and carbon storage -- 2.7. Industry 4.0 technologies in the wood industry -- 2.8. Industry 4.0 technologies for sustainable development -- 3. Discussion and Policy Implications for CCUS -- 3.1. Policy Support for maximizing HWP carbon storage -- 4. Conclusion and Implications -- References -- Part 3.
505	8	\|aChapter 8 Carbon Pricing and CCUS: Evidence from China -- 1. Introduction -- 2. Literature Review -- 3. Status of CCUS in China -- 4. Methodology -- 5. Data -- 6. Results -- 6.1. GARCH-jump process findings -- 6.2. JV determinants -- 7. Additional Tests: Do Jumps Exist for Outlier-Free Carbon Prices? -- 8. Conclusions and Policy Implications -- References -- Chapter 9 The Impact of CCUS Innovation on Green Total Factor Productivity in China -- 1. Introduction -- 2. Literature Review -- 2.1. The GTFP-technology nexus -- 2.2. Literature gaps -- 3. Methodology and Data -- 3.1. Estimation model -- 3.2. Variable measures and data sources -- 3.2.1. Dependent variable -- 3.2.2. Core independent variable -- 3.2.3. Control variables -- 3.2.4. Mediating variables -- 3.2.5. Moderating variable -- 3.3. Data sources -- 4. Results and Discussion -- 4.1. The characteristics of CCUS innovation -- 4.2. Benchmark regression analysis -- 4.3. Robustness checks -- 5. Further Discussion -- 5.1. Mediating effects between CCUS innovation and GTFP -- 5.2. Moderating effect between CCUS innovation and GTFP -- 5.3. Asymmetry check -- 6. Conclusions and Policy Implications -- Acknowledgments -- Data Availability -- Disclosure -- References -- Chapter 10 Unlocking Economic Viability: Policies for Encouraging Carbon Capture, Utilization, and Storage -- 1. Introduction -- 2. Literature Review -- 2.1. Climate-related disclosures -- 2.2. Environmental and carbon strategies as bases for disclosure analysis -- 2.3. CCUS utilization by various industries -- 2.4. Making CCUS economical -- 2.4.1. Innovations and efficiency enhancements -- 2.4.2. Policy incentives and carbon pricing mechanisms -- 2.4.3. Economies of scale and collaboration -- 2.5. Case histories -- 2.5.1. Subsidies and other incentives -- 2.5.2. Tax credits and carbon pricing mechanisms.
505	8	\|a2.5.3. Research and collaboration -- 2.5.4. Regulatory frameworks and certifications -- 2.5.5. International collaboration and agreements -- 3. Conclusions and Policy Recommendations -- Acknowledgments -- References -- Chapter 11 The Political Economy of Carbon Capture, Use, and Storage -- 1. Introduction -- 2. Political Economy of Climate Change -- 2.1. Political economy and political economics -- 2.2. Political economy analysis for energy security policy -- 2.2.1. Frames -- 2.2.2. Structures -- 2.2.3. Institutions -- 2.2.4. Actors -- 2.2.5. Summary -- 2.3. From energy security to climate change -- 2.3.1. The market approach to greenhouse gas emissions -- 2.3.2. Structures, institutions, and actors -- 3. Competing Frames for CCUS Analysis -- 4. Propositions Concerning CCUS PE -- 4.1. CCUS is too broad -- 4.2. There has been a failure of analysis -- 4.3. Markets are problematic -- 4.4. Proponents are a problem -- 4.5. Sunk cost "recovery" is bad strategy -- 5. Conclusion: CCUS Best Practices -- 5.1. Avoid strategy lock-in -- 5.2. Actively work on alternatives -- References -- Index.
520		\|a"This book combines the fundamental forces of technology, economics, finance and policy in understanding the development and deployment of CCUS to facilitate clean energy transition and therefore achieve carbon neutrality in the ASEAN. It provides policy-driven empirical studies, investigating and evaluating multiple facets of development and deployment of CCUS in the ASEAN. These carefully chosen case-studies map CCUS in the regional and country-specific policy framework of the ASEAN; capture technological aspects of CCUS deployment by focussing on the existing and potential industrial applications of CCUS as well as focus on the economics and financial dimensions of CCUS development and deployment. This book on energy technology, economics and policy is highly recommended for readers seeking an exploratory but robust overview on the recent empirical evidences of facilitating the development and deployment of CCUS, with particular reference to the ASEAN and Asian economies including China"--\|cProvided by publisher.
588		\|aDescription based on publisher supplied metadata and other sources.
650	0	\|aCarbon sequestration\|zSoutheast Asia.
650	0	\|aCarbon dioxide mitigation\|zSoutheast Asia.
650	0	\|aEnergy development\|xEnvironmental aspects\|zSoutheast Asia.
650	0	\|aEnergy policy\|xEnvironmental aspects\|zSoutheast Asia.
700	1	\|aHan, Phoumin.
700	1	\|aNepal, Rabindra.
830	0	\|aSeries in energy transition, carbon neutrality, and sustainability ;\|vvol. 2.
856	40	\|uhttps://www.worldscientific.com/worldscibooks/10.1142/13725#t=toc

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This book combines the fundamental forces of technology, economics, finance and policy in understanding the development and deployment of CCUS to facilitate clean energy transition and therefore achieve carbon neutrality in the ASEAN. It provides policy-driven empirical studies, investigating and evaluating multiple facets of development and deployment of CCUS in the ASEAN. These carefully chosen case-studies map CCUS in the regional and country-specific policy framework of the ASEAN; capture technological aspects of CCUS deployment by focussing on the existing and potential industrial applications of CCUS as well as focus on the economics and financial dimensions of CCUS development and deployment. This book on energy technology, economics and policy is highly recommended for readers seeking an exploratory but robust overview on the recent empirical evidences of facilitating the development and deployment of CCUS, with particular reference to the ASEAN and Asian economies including China.

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