Sustainable Development with Carbon Capture by Kumar, Ashwani; Agrawal, Pratibha S.; Singla, Yogesh Kumar;

Long description:

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This volume “Sustainable Development with Carbon Capture: Utilization and Storage Technology” brings together cross-disciplinary research on carbon capture, utilization, and storage (CCUS) to examine the impact of implementing CCUS tools and technologies on emissions reduction and sustainable development in cities and large metropolitan areas. An expert group of global contributors provides in-depth technical discussions, case studies, and examples with an emphasis on the worldwide application of the latest developments in technology, protocols, implementation, and application of CCUS in power and energy systems.

The Book:

• Discusses CCUS and its Contribution to Sustainable Development Goals, Challenges and Opportunities for CCUS Implementation and Optimizing CCUS Solutions: A Technical and Economic Perspective.
• Covers Factors Influencing Capture Technology Selection: Efficiency, Cost, Integration with Existing Processes and Applications of Carbon Capture Technologies: Power Plants, Industrial Facilities, and Bioenergy Facilities.
• Explores Injection Strategies and Plume Management, Suitable Geological Formations for CO2 Storage, Monitoring, Verification, and Risk Mitigation, Metrics for Capture Efficiency, Pipelines for CO₂ Transport.
• Explains Minimizing the Environmental Footprint of CCUS, Capital Expenditures and Operating Expenses of CCUS Projects, The Role of Carbon Pricing in Promoting CCUS, Regulatory Frameworks for CCUS Projects, Carbon Pricing and its Impact on CCUS Adoption and Minimizing Environmental Footprint.
• Showcases a clear idea of Building Capacity for Sustainable Transitions with CCUS, Integration of Renewables to Enhance CCUS Efficiency, from Waste to Resource: Converting Captured CO₂ into Liquid Fuels, Gaseous Fuels, and Chemical Feedstocks.

The book will be written for senior undergraduate, graduate students, and academic researchers in the fields of energy & environmental engineering, production engineering, mechanical engineering, industrial engineering, computer science engineering, and sustainable development prectioniers.

Table of Contents:

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Building a Low Carbon Future: The Critical Role of Carbon Capture, Utilization and Storage (CCUS) in Developing Countries.- From Waste to Resource: Exploring the Potential of Carbon Capture and Utilization.- Carbon Capture Technologies: Principles and Applications.- Towards a Low-Carbon Future: Advances and Challenges in Carbon Capture.- Cutting-edge advancement in Carbon Capture, Utilization, and Storage research and development.- A comprehensive treatise on Carbon Capture Utilization and Storage including Machine Learning and Data Driven Advancements.- 3D Printing Technique for CO2 Capture.- Advanced EOR+-Based Optimization of CO2/CH4 Coinjection.- Biomass Based Carbon Dioxide Removal as Nature Assisted Climate Solutions.- Biopolymer Based Materials for CO2 Capture Innovations and Applications.- Impact of Carbon Capture Materials on Vehicle Dynamics and Performance.- Advanced Vibration Control Strategies for Sustainable Automotive Design.- Evaluating Heat Transfer Dynamics in a Four-Stroke Piston Engine: Implications for Sustainable Development and Carbon Capture Technologies.- Harnessing Waste Transformer Oil for Carbon Capture: Role of Liquid Hydrocarbon Fuels.- Study of carbon and particulate matter emission from biomass pellets burning in a domestic cookstove.- CO2 transportation and Storage Infrastructure for CCS applications.- Carbon Storage Monitoring, Verification and Risk Mitigation.- Utilizing Biopolymers for Carbon Sequestration Pathways to Sustainable Storage.- Unlocking CCUS Potential in Developing Countries: A Review of Funding Mechanisms and Policy Frameworks.- Financing and Policy Frameworks for Carbon Capture, Utilization and Storage in Developing Countries.- Opportunities for Carbon Dioxide Utilization in Developing Countries.- CCUS in Emerging Economies: Overcoming Barriers and Unlocking Opportunities for a Low-Carbon Transition.- Integration of Renewables to enhance CCUS in developing Countries.- Smart Carbon Management: AI, Innovation, and Renewable Energy in CCUS Leveraging renewable energy for optimized carbon capture: A technical and economical assessment Converting CO₂ into Value: A Review of Chemical, Biological, and Electrochemical Approaches for Carbon Utilization.- Biopolymer Derived Products from Captured CO2 Transforming Waste into Value.- Carbon Utilisation: Transforming CO₂ into Valuable Products.- Creating a Circular Carbon Economy: Utilizing CO₂ for Sustainable Production.- Transforming Greenhouse Gases into Market Opportunities: The Future of CO₂ Conversion.- Production of Multi-Purpose Fuels Through Carbon Capture and sequestration.- Converting CO₂ into Commercial Products: A Circular Economy Approach by Transforming Emissions into Opportunities.- CCUS in a Circular Economy Approach.- Advancing CCUS Through Biopolymer Integration Challenges and Future Prospects.- Promoting industries to adopt Carbon Capture, Utilization, and Storage for sustainability.- Scaling Up CCUS in Industry: Overcoming Barriers to a Low-Carbon Future.- CCUS Technologies for Industrial Emission Reduction: Advancements, Challenges, and Opportunities.- Case Studies: Operational CCUS Projects Around the Globe.- Air Quality Monitoring in Jaipur: Insights for Sustainable Development and the Role of Carbon Capture Technologies.- Leveraging Machine Learning for Air Quality Prediction in Kota: A Step Towards Sustainable Urban Development and Pollution Control.- Sustainable Air Quality Management in Kota: Linking Pollution Control with Carbon Capture and Urban Planning.