Towards Waste-to-Energy-and-Materials Processes with Advanced Thermochemical Combustion Intelligence in the Circular Economy-Reference-Cited by-同舟云学术

Towards Waste-to-Energy-and-Materials Processes with Advanced Thermochemical Combustion Intelligence in the Circular Economy

Published:2023-02-07 Issue:4 Volume:16 Page:1644
ISSN:1996-1073
Container-title:Energies
language:en
Short-container-title:Energies

Author:

De Greef Johan¹^ORCID,Hoang Quynh¹,Vandevelde Raf¹,Meynendonckx Wouter¹,Bouchaar Zouhir¹,Granata Giuseppe¹²,Verbeke Mathias³^ORCID,Ishteva Mariya⁴^ORCID,Seljak Tine⁵,Van Caneghem Jo¹^ORCID,Vanierschot Maarten⁶⁷^ORCID

Affiliation:

1. Department of Materials Engineering, Group T Campus, KU Leuven, A. Vesaliusstraat 13, BE-3000 Leuven, Belgium

2. Department of Chemical Engineering, Group T Campus, KU Leuven, A. Vesaliusstraat 13, BE-3000 Leuven, Belgium

3. Department of Computer Science, Bruges Campus, KU Leuven, Spoorwegstraat 12, BE-8200 Bruges, Belgium

4. Department of Computer Science, Geel Campus, KU Leuven, Kleinhoefstraat 4, BE-2440 Geel, Belgium

5. Faculty of Mechanical Engineering, University of Ljubljana, Askerceva 6, SI-1000 Ljubljana, Slovenia

6. Department of Mechanical Engineering, Group T Campus, KU Leuven, A. Vesaliusstraat 13, BE-3000 Leuven, Belgium

7. Material Science, Innovation and Modelling (MaSIM), North-West University, Mmabatho 2351, South Africa

Abstract

Waste-to-energy processes remain essential to ensure the safe and irreversible removal of materials and substances that are (or have become) unsuitable for reuse or recycling, and hence, to keep intended cycles of materials in the circular economy clean. In this paper, the behavior of inorganic compounds in waste-to-energy combustion processes are discussed from a multi-disciplinary perspective, against a background of ever tightening emission limits and targets of increasing energy efficiency and materials recovery. This leads to the observation that, due to the typical complexity of thermally treated waste, the intelligence of combustion control systems used in state-of-the-art waste-to-energy plants needs to be expanded to better control the behavior of inorganic compounds that typically end up in waste furnaces. This paper further explains how this goal can be achieved by developing (experimentally validated) predictive numerical models that are engineering-based and/or data-driven. Additionally, the significant economic potential of advanced thermochemical intelligence towards inorganic compounds in waste-to-energy combustion control systems is estimated on the basis of typical operational figures.

Funder

Central Europe Leuven Strategic Alliance

Slovenian Research Agency

Publisher

MDPI AG

Subject

Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction

Link

https://www.mdpi.com/1996-1073/16/4/1644/pdf

Reference82 articles.

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