EDDY – Enhanced Drying

Abdulrahman Dahash; Reinhard Jentsch; Daniel Lager; Michael Lauermann; Michal Rezucha; Robert Holzer; Raphael Priesner

EDDY – Enhanced Drying

Abdulrahman Dahash (Speaker, Invited), Reinhard Jentsch (Author, Invited), Daniel Lager (Author, Invited), Michael Lauermann (Author, Invited), Michal Rezucha (Author, Invited), Robert Holzer (Author, Invited), Raphael Priesner (Author, Invited)

Sustainable Thermal Energy Systems

Research Center for Non Destructive Testing GmbH (RECENDT) Linz, Austria

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings with Poster Presentation › peer-review

Abstract

EDDY Enhanced Drying bridges the gap between energy efficiency measures and industrial drying. It paves the way to systematically decarbonize the drying process by introducing renewable energy and energy efficiency measures. The EDDY concept combines newly developed cost-effective sensors for an online process analysis with advanced numerical models to achieve energy efficient drying process. The energy demand for drying and dehydration will thereby be reduced by approx. 50 %. In this project, the partners develop a low-cost IR humidity sensor that is robust, reliable and long-term stable. Besides, a toolbox will be developed and released to enhance the rapid assessment of several drying configurations aiming to optimal energy efficient operation.

Original language	English
Title of host publication	Proceedings of 2nd International Sustainable Energy Conference (ISEC) 2022
Pages	477-479
Number of pages	3
Publication status	Published - 2022
Event	2nd International Sustainable Energy Conference 2022 (ISEC 2022) - Duration: 6 Apr 2022 → 7 Apr 2022

Conference

Conference	2nd International Sustainable Energy Conference 2022 (ISEC 2022)
Period	6/04/22 → 7/04/22

Research Field

Efficiency in Industrial Processes and Systems

Keywords

Industrial drying
EDDY Project
Infrared humidity sensors
digital twins
EDDY toolbox
heat pump.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

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title = "EDDY – Enhanced Drying",

abstract = "EDDY Enhanced Drying bridges the gap between energy efficiency measures and industrial drying. It paves the way to systematically decarbonize the drying process by introducing renewable energy and energy efficiency measures. The EDDY concept combines newly developed cost-effective sensors for an online process analysis with advanced numerical models to achieve energy efficient drying process. The energy demand for drying and dehydration will thereby be reduced by approx. 50 %. In this project, the partners develop a low-cost IR humidity sensor that is robust, reliable and long-term stable. Besides, a toolbox will be developed and released to enhance the rapid assessment of several drying configurations aiming to optimal energy efficient operation.",

keywords = "Industrial drying, EDDY Project, Infrared humidity sensors, digital twins, EDDY toolbox, heat pump., Industrial drying, EDDY Project, Infrared humidity sensors, digital twins, EDDY toolbox, heat pump.",

author = "Abdulrahman Dahash and Reinhard Jentsch and Daniel Lager and Michael Lauermann and Michal Rezucha and Robert Holzer and Raphael Priesner",

year = "2022",

language = "English",

pages = "477--479",

booktitle = "Proceedings of 2nd International Sustainable Energy Conference (ISEC) 2022",

note = "2nd International Sustainable Energy Conference 2022 (ISEC 2022) ; Conference date: 06-04-2022 Through 07-04-2022",

}

TY - CHAP

T1 - EDDY – Enhanced Drying

A2 - Dahash, Abdulrahman

A2 - Jentsch, Reinhard

A2 - Lager, Daniel

A2 - Lauermann, Michael

A2 - Rezucha, Michal

A2 - Holzer, Robert

A2 - Priesner, Raphael

PY - 2022

Y1 - 2022

N2 - EDDY Enhanced Drying bridges the gap between energy efficiency measures and industrial drying. It paves the way to systematically decarbonize the drying process by introducing renewable energy and energy efficiency measures. The EDDY concept combines newly developed cost-effective sensors for an online process analysis with advanced numerical models to achieve energy efficient drying process. The energy demand for drying and dehydration will thereby be reduced by approx. 50 %. In this project, the partners develop a low-cost IR humidity sensor that is robust, reliable and long-term stable. Besides, a toolbox will be developed and released to enhance the rapid assessment of several drying configurations aiming to optimal energy efficient operation.

AB - EDDY Enhanced Drying bridges the gap between energy efficiency measures and industrial drying. It paves the way to systematically decarbonize the drying process by introducing renewable energy and energy efficiency measures. The EDDY concept combines newly developed cost-effective sensors for an online process analysis with advanced numerical models to achieve energy efficient drying process. The energy demand for drying and dehydration will thereby be reduced by approx. 50 %. In this project, the partners develop a low-cost IR humidity sensor that is robust, reliable and long-term stable. Besides, a toolbox will be developed and released to enhance the rapid assessment of several drying configurations aiming to optimal energy efficient operation.

KW - Industrial drying

KW - EDDY Project

KW - Infrared humidity sensors

KW - digital twins

KW - EDDY toolbox

KW - heat pump.

KW - Industrial drying

KW - EDDY Project

KW - Infrared humidity sensors

KW - digital twins

KW - EDDY toolbox

KW - heat pump.

M3 - Conference Proceedings with Poster Presentation

SP - 477

EP - 479

BT - Proceedings of 2nd International Sustainable Energy Conference (ISEC) 2022

T2 - 2nd International Sustainable Energy Conference 2022 (ISEC 2022)

Y2 - 6 April 2022 through 7 April 2022

ER -

EDDY – Enhanced Drying

Abstract

Conference

Research Field

Keywords

UN SDGs

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