Increasing the Energy Efficiency of Batch-Type Drying with Partial Air Recirculation

Partial recirculation of the dryer outlet air is a common practice in many batch‐type drying processes. However, energy consumption and total duration of drying are directly affected by the recycled air ratio (RAR). In order to assess the influence of different ambient air conditions on favorable va...

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Veröffentlicht in:	Chemie ingenieur technik 2016-02, Vol.88 (1-2), p.208-214
Hauptverfasser:	Ziegler, Thomas, Jubaer, Hasan, Schütz, Marco
Format:	Artikel
Sprache:	eng
Schlagworte:	Air recirculation Batch-type drying Driers Drying Energy conservation Energy efficiency Medicinal plants Optimization Outlets Plants (organisms) Process control Recycled
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creator	Ziegler, Thomas Jubaer, Hasan Schütz, Marco
description	Partial recirculation of the dryer outlet air is a common practice in many batch‐type drying processes. However, energy consumption and total duration of drying are directly affected by the recycled air ratio (RAR). In order to assess the influence of different ambient air conditions on favorable values of RAR, a new quantity is introduced. The so‐called critical drying efficiency determines the most favorable starting point for partial air recirculation. It is shown that by increasing RAR successively in the further course of drying, substantial energy savings can be achieved with only a marginal extension of drying duration. It is also pointed out that optimized control of drying plants should be based not only on dryer outlet air conditions but also on ambient air conditions. A new quantity called critical drying efficiency is introduced, which depends only on drying temperature and ambient air condition. It provides a theoretical basis for energy‐use optimization of the recycled air ratio. In batch‐type drying, substantial energy savings can be achieved with only a marginal extension of total drying duration.
doi_str_mv	10.1002/cite.201400150
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source	Wiley Online Library Journals Frontfile Complete
subjects	Air recirculation Batch-type drying Driers Drying Energy conservation Energy efficiency Medicinal plants Optimization Outlets Plants (organisms) Process control Recycled
title	Increasing the Energy Efficiency of Batch-Type Drying with Partial Air Recirculation
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