Potentials and Integrated Suitability Pre-assessment of Wastewater Treatment Plants as Local Energy Cells

Peter Lichtenwoehrer,Gernot Stoeglehner,Georg Neugebauer,Franz Huber,Florian Kretschmer

doi:10.3389/fenvs.2021.785557

Peter Lichtenwoehrer, Gernot Stoeglehner + Show 3 more

Open Access

https://doi.org/10.3389/fenvs.2021.785557

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Abstract

In 2018 the European Union has recognized wastewater as a renewable energy source, particularly due to its thermal energy content. To create and further develop knowledge on the possible role that wastewater could play in the energy transition, this article pursues two objectives: 1) it presents an overview on the electric and thermal energy potentials available at the wastewater treatment plants (WWTPs) in the Central European area also taking their spatial context to adjacent settlement structures into account. 2) It introduces a small number of easy to apply criteria to (pre-)assess the suitability of WWTPs for being integrated into local energy (heat) supply concepts from an integrated perspective (considering energetic, spatial and environmental aspects). The investigations address the energy generation potentials of 3,315 WWTPs (with a treatment capacity of at least 5,000 population equivalents) in the area under survey. Analysis reveal, that notable amounts of heat ranging to almost 26 TWh/a are available. Their exploitation appears very promising, as investigations also show, that about 73% of the considered WWTPs are situated near or even within existing settlement structures implying very advantageous heat supply distances. Following the estimation of energy potentials, which is made available in the supplementary material, the presented suitability criteria can then be used to identify the most promising WWTPs in a specific regional/local context, in the investigated Central European area and beyond.

Highlights

The European Green Deal (EC, 2019) aims at making the European Union (EU) climate neutral until the year 2050
The estimation of the available energy potentials considering the specific spatial context of a wastewater treatment plants (WWTPs) and its adjacent infrastructure is oriented on the approach and the assumptions presented by Neugebauer et al (2015)
In total 3,315 WWTPs of at least 5000 population equivalents (PEs) capacity are located in the research area, which comprises 47 NUTS2 regions from Austria, Czech Republic, Germany, Croatia and Italy

Summary

Introduction

The European Green Deal (EC, 2019) aims at making the European Union (EU) climate neutral until the year 2050. For decarbonizing the energy systems, heating (and cooling) are of crucial importance. This is due to the fact that this sector already is and will continue be the biggest energy sector in the EU (EC, 2016). At least for today, it is still widely dominated by fossil energy sources. On the search for renewable heat sources wastewater has come into focus in recent years. One can distinguish between the chemical and the thermal energy content of wastewater (Frijns et al, 2013). The former can be accessed in the form of methane containing digester (biogas) produced during

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