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This book analyses the potential for active stakeholder engagement in the energy transition in the Baltic Sea Region (BSR) in order to foster clean energy deployment. Public acceptability and bottom-up activities can be critical for enduring outcomes to an energy transition. As a result, it is vital to understand how to unlock the potential for public, community and prosumer participation to facilitate renewable energy deployment and a clean energy transition – and, consequently, to examine the factors influencing social acceptability. Focussing on the diverse BSR, this book draws on expert contributions to consider a range of different topics, including the challenges of social acceptance and its policy implications; strategies to address challenges of acceptability among stakeholders; and community engagement in clean energy production. Overall, the authors examine the practical implications of current policy measures and provide recommendations on how lessons learnt from this ‘energy lab region’ may be applied to other regions. Reflecting an interdisciplinary approach in the social sciences, this book is an essential resource for scholars, students and policymakers researching and working in the areas of renewable energy, energy policy and citizen engagement, and interested in understanding the potential for bottom-up, grassroots activities and social acceptability to expedite the energy transition and reanimate democracies. The Open Access version of this book, available at www.taylorfrancis.com, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license.
The Energy Trilemma in the Baltic Sea Region provides insight into the energy trilemma in the Baltic Sea Region. Energy Trilemma in the Baltic Sea Region has undergone significant transformation in the last number of years. Energy actors in the region are struggling to reconcile new questions of energy security following the COVID-19 pandemic and the invasion of Ukraine with net-zero objectives and a cost-of-living crisis. Balancing these concerns is essential to resolving the “energy trilemma”: the dilemma that emerges for policy-makers and regulators seeking to balance energy security, equity, and environmental concerns in pursuit of a wholly sustainable energy system. This volume draws together a range of perspectives from scholars of the Baltic Sea Region seeking to understand the manifestations and impact of these systemic regional changes. In considering previously underexamined studies on the energy trilemma and in providing new perspectives by framing the trilemma in times of crisis, this book provides new conceptual and empirical insight into a rapidly changing energy region at the heart of both European energy policy and the current energy crisis. This volume will be of great interest to students and scholars of energy politics, energy law and policy, energy transitions, and Baltic studies more broadly.
This book analyses the recent development of liquefied natural gas (LNG) in the Baltic Sea region and how energy security in the region has improved after Finland, Lithuania, Poland, Russia and Sweden have constructed their LNG import terminals. In addition to these LNG receiving units, the book deals with the major pipeline projects, such as Baltic Pipe, Balticconnector, Nord Stream 2, and Gas Interconnection Poland-Lithuania, and their impact on energy security of the Baltic Sea region. This book will be of interest to experts specialising in European energy markets and energy security.
An integrated, holistic model for infrastructure planning and design in developing countries. Many emerging nations, particularly those least developed, lack basic critical infrastructural services—affordable energy, clean drinking water, dependable sanitation, and effective public transportation, along with reliable food systems. Many of these countries cannot afford the complex and resource-intensive systems based on Western, single-sector, industrialized models. In this book, Hillary Brown and Byron Stigge propose an alternate model for planning and designing infrastructural services in the emerging market context. This new model is holistic and integrated, resilient and sustainable, economical and equitable, creating an infrastructural ecology that is more analogous to the functioning of natural ecosystems. Brown and Stigge identify five strategic infrastructure objectives and illustrate each with examples of successful projects from across the developing world. Each chapter also highlights exemplary preindustrial systems, demonstrating the long history of resilient, sustainable infrastructure. The case studies describe the use of single solutions to solve multiple problems, creating hybridized and reciprocal systems; “soft path” models for water management, including water reuse and nutrient recovery; post carbon infrastructures for power, heat, and transportation such as rural microhydro and solar-powered rickshaws; climate adaptation systems, including a multi-purpose tunnel and a “floating city”; and the need for community-based, equitable, and culturally appropriate projects.
Global Sustainable Communities Handbook is a guide for understanding and complying with the various international codes, methods, and legal hurtles surrounding the creation of sustainable communities all over the world. The book provides an introduction to sustainable development, technology and infrastructure outlines, codes, standards, and guidelines written by experts from across the globe. - Includes methods for the green use of natural resources in built communities - Clearly explains the most cutting edge green technologies - Provides a common approach to building green communities - Covers green practices from architecture to construction
This volume provides a comprehensive overview of the interactions and feedbacks between urbanization and global environmental change. A key focus is the examination of how urbanization influences global environmental change, and how global environmental change in turn influences urbanization processes. It has four thematic foci: Theme 1 addresses the pathways through which urbanization drives global environmental change. Theme 2 addresses the pathways through which global environmental change affects the urban system. Theme 3 addresses the interactions and responses within the urban system in response to global environmental change. Theme 4 centers on critical emerging research.
With increasing pressures to utilize wastes effectively and sustainably, biogas production represents one of the most important routes towards reaching renewable energy targets. This comprehensive reference on the development and deployment of biogas supply chains and technology reviews the role of biogas in the energy mix and outlines the range of biomass and waste resources for biogas production. Contributors provide detailed coverage of anaerobic digestion for the production of biogas and review the utilization of biogas for various applications. They consider all aspects in the biogas production chain from the origin of the biomass feedstocks, feedstock selection and preparation, the anaerobic digestion process, biogas plant equipment design and operation, through to utilization of the biogas for energy production and the residue, the digestate, which can be used as a biofertilizer. The book also addresses biogas utilization, and explores environmental impacts and commercial market applications. Table of Contents: Biogas as an energy option: An overview Part 1 Biomass resources, feedstock treatment and biogas production: Biomass resources for biogas production; Analysis and characterisation of biogas feedstocks; Storage and pre-treatment of substrates for biogas production; Fundamental science and engineering of the anaerobic digestion process for biogas production; Optimisation of biogas yields from anaerobic digestion by feedstock type; Anaerobic digestion as a key technology for biomass valorisation: Roles and contribution to the energy balance of biofuel chains Part 2 Plant design, engineering, process optimisation and digestate utilization: Design and engineering of biogas plants; Energy flows in biogas plants: Analysis and implications for plant design; Process control in biogas plants; Methane emissions in biogas production; Biogas digestate quality and utilization; Land application of digestate Part 3 Biogas utilisation: international experience and best practice: Biogas cleaning; Biogas up-grading to biomethane; Biomethane injection into natural gas networks; Generation of heat and power from biogas for stationery applications: Boilers, gas engines and turbines, combined heat and power (CHP) plants and fuel cells; Biomethane for transport applications; Market development and certification schemes for biomethane
This book provides an overview of contemporary trends and challenges in maritime energy management (MEM). Coordinated action is necessary to achieve a low carbon and energy-efficient maritime future, and MEM is the prevailing framework aimed at reducing greenhouse gas emissions resulting from maritime industry activities. The book familiarizes readers with the status quo in the field, and paves the way for finding solutions to perceived challenges. The 34 contributions cover six important aspects: regulatory framework; energy-efficient ship design; energy efficient ship and port operation; economic and social dimensions; alternative fuels and wind-assisted ship propulsion; and marine renewable energy. This pioneering work is intended for researchers and academics as well as practitioners and policymakers involved in this important field.