Loading…

A review of nature-based solutions for resource recovery in cities

Our modern cities are resource sinks designed on the current linear economic model which recovers very little of the original input. As the current model is not sustainable, a viable solution is to recover and reuse parts of the input. In this context, resource recovery using nature-based solutions...

Full description

Saved in:
Bibliographic Details
Published in:Blue-green systems 2020-01, Vol.2 (1), p.138-172
Main Authors: Kisser, Johannes, Wirth, Maria, De Gusseme, Bart, Van Eekert, Miriam, Zeeman, Grietje, Schoenborn, Andreas, Vinnerås, Björn, Finger, David C., Kolbl Repinc, Sabina, Bulc, Tjaša Griessler, Bani, Aida, Pavlova, Dolja, Staicu, Lucian C., Atasoy, Merve, Cetecioglu, Zeynep, Kokko, Marika, Haznedaroglu, Berat Z., Hansen, Joachim, Istenič, Darja, Canga, Eriona, Malamis, Simos, Camilleri-Fenech, Margaret, Beesley, Luke
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Our modern cities are resource sinks designed on the current linear economic model which recovers very little of the original input. As the current model is not sustainable, a viable solution is to recover and reuse parts of the input. In this context, resource recovery using nature-based solutions (NBS) is gaining popularity worldwide. In this specific review, we focus on NBS as technologies that bring nature into cities and those that are derived from nature, using (micro)organisms as principal agents, provided they enable resource recovery. The findings presented in this work are based on an extensive literature review, as well as on original results of recent innovation projects across Europe. The case studies were collected by participants of the COST Action Circular City, which includes a portfolio of more than 92 projects. The present review article focuses on urban wastewater, industrial wastewater, municipal solid waste and gaseous effluents, the recoverable products (e.g., nutrients, nanoparticles, energy), as well as the implications of source-separation and circularity by design. The analysis also includes assessment of the maturity of different technologies (technology readiness level) and the barriers that need to be overcome to accelerate the transition to resilient, self-sustainable cities of the future.
ISSN:2617-4782
2617-4782
DOI:10.2166/bgs.2020.930