Underutilised Resources in Urban Environments

Edited by
June 2020
186 pages
  • ISBN978-3-03936-018-5 (Paperback)
  • ISBN978-3-03936-019-2 (PDF)

This book is a reprint of the Special Issue Underutilised Resources in Urban Environments that was published in

Business & Economics
Environmental & Earth Sciences
This book is the result of a Special Issue of the journal Resources. The Special Issue was initiated to identify promising solutions and specific challenges in the context of underused resources in urban environments. Authors focus on two main areas: the establishment of circular economy schemes based on valorizing wastes that occur in urban areas and the exploitation of renewable energies. The circular economy and renewable resources hold key potential for increasing the sustainability of cities, and the presented studies enhance our understanding of how to unlock this potential. Effective regulatory frameworks and policymaking processes that balance the power between stakeholders are required to successfully manage energy transition and the transition to more circular economies. The positive role of community engagement merits high attention. To recover valuable resources from household waste, a focus on technology and infrastructure is required but is insufficient; motivational factors and knowledge of citizens are the most essential elements. The need to more reliably quantify and better characterize recyclable material streams also evidently remains, especially where population numbers are further growing. This book provides a rich source to explore promising solutions, challenges, and research needed for the sound management of resources in urban settings.
  • Paperback
© 2020 by the authors; CC BY-NC-ND license
source separation of waste; waste management; household waste; polymer recycling; sustainable development; Lagos megacity; value chain; waste-to-wealth; city planning; Energiewende; post-Brexit; renewable energy systems; resource-use policy; sustainable energy transitions; underutilised resources; waste cooking oil; recycling; biodiesel; non-fuel use; regulatory promotion; circular economy; European horse chestnut; seed coat; additive; antioxidant; proanthocyanidins; UV spectrum; extraction; size exclusion chromatography; polyphenols; renewable energy; energy transition; energy policies; urban energy; particle size reduction; household waste; pre-treatment; shredding; mechanical–biological treatment; bioprocessing; wastewater management; environmental sustainability; waste resources; renewable energy; household solid waste (HSW); waste composition analysis; waste generation rate; solid waste measurement; remote sensing; building type; garden waste arising; green waste; yard waste; home composting; backyard burning; municipal and public service engineering; urban resources; resource management; sustainable urbanisation; community engagement; circular economy; solid waste recycling; urban energy; renewable energy; energy transition; energy governance; policy-making