A Sustainable Revolution

doi:10.3390/books978-3-03936-456-5

Reprint

A Sustainable Revolution

Let’s Go Sustainable to Get our Globe Cleaner

Edited by

July 2020

368 pages

ISBN978-3-03936-455-8 (Hardback)
ISBN978-3-03936-456-5 (PDF)

https://doi.org/10.3390/books978-3-03936-456-5

Free download (PDF)

This book is a reprint of the Special Issue A Sustainable Revolution: Let's Go Sustainable to Get our Globe Cleaner that was published in

Business & Economics

Environmental & Earth Sciences

Social Sciences, Arts & Humanities

Summary

The parties of the United Nations Framework Convention on Climate Change (UNFCCC) attained the Paris Agreement to tackle climate change and to strengthen the actions required for a sustainable transition towards an environmentally friendly future. This transition will involve holistic approaches and multifaceted societal shifts, requiring answers and collaboration between private, public, and academic sectors. This book gathers together contributions which study the transition towards a more sustainable future, involving and identifying the development and implications of more sustainable alternatives, in collaboration with all relevant stakeholders (e.g. communities, firms, policy makers, researchers, etc.), to achieve this transition. The approaches proposed are all concerned with a common perspective: imaging our globe with a greener picture, built upon a transversal sustainable revolution to clean up the Earth.

Format

Hardback

License

Keywords

tetramethylammonium hydroxide; TMAH; anaerobic digestion; photoresist; wastewater; public participation; environmental governance; information asymmetry; social supervision; back-end governance; front-end governance; Chinese case; carbon emissions; renewable energy; biofuels; productivity; resources; panel data; EU; corporate environmental responsibility; information risk; earnings quality; chaebol; corporate governance; urban symbiosis; food; hydroponic; industrial symbiosis; urban farming; life cycle assessment (LCA); horticulture; circular economy; rural area; waste management; pollution; environment; recycling; circular economy; obsolete electric vehicles; ELV management; circular economy; structured literature review; anaerobic digestion; biofuel; lignocellulose; sidestreams; zero-waste; flowable concrete; expired plastic syringes; rheological properties; mechanical behavior; renewable energy; space industry; RETScreen; virtual reality; digital twin; circular economy; industry 4.0; disassembly; laboratory application case; Industry 4.0; sustainability; manufacturing; business model canvas; circular supply chain (CSC); circular supply chain management (CSCM); circular economy; sustainability; literature review; value creation; e-waste recycling; consumers’ decisions; recycling behavioral intention; structural equation modeling; Romania; social media influence; carbon emission trading market; coal price; new energy stocks; multivariate wavelet analysis; partial wavelet gains; renewable energy consumption; CO₂; health; PVAR; low carbon economy; environmental policy; hydrocarbon economy; clean energy development; public engagement; bioeconomy; transition management; STS; participative collective; public construction; sustainability transition; participatory mechanism; coproduction; the Netherlands; environmental policy stringency; carbon leakage; pollution havens; intensity-of-use hypothesis; development economics; environmental Kuznets curve; calculus of variations; pooled mean group estimator; circular economy; bioeconomy; green economy; sustainability