Modeling of Autothermal Thermophylic Aerobic Digestion

Martin Meere

Modeling of Autothermal Thermophylic Aerobic Digestion

Martin Meere

Mathematics

Research output: Contribution to a Journal (Peer & Non Peer) › Article

Abstract

Wastewater treatment requires the elimination of pathogens and reduction of organic matter in the treated sludge to acceptable levels. One process used to achieve this is Autothermal Thermophylic Aerobic Digestion(ATAD), which relies on promoting non-pathogenic thermophilic bacteria to digest organic matter and kill pathogens through metabolic heat generation. This process requires continuous aeration that may be energy consuming, and the principal aim of the study is to identify how the process design can minimize the energy input per mass of treated sludge. Appropriate modeling of the reactor process is an essential ingredient, so we explore properties of an existing model and propose a simplified alternative model.

Original language	English (Ireland)
Journal	Mathematics-in-industry case studies
Volume	2
Publication status	Published - 1 Jan 2010

Authors (Note for portal: view the doc link for the full list of authors)

Authors
J. Rojas, M. Burke, M. Chapwanya, K. Doherty, I. Hewitt, A. Korobeinikov, M. Meere, S. McCarthy, M. OBrien, Tuoi Vo T. N., H. Winstanley, T. Zhelev

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AB - Wastewater treatment requires the elimination of pathogens and reduction of organic matter in the treated sludge to acceptable levels. One process used to achieve this is Autothermal Thermophylic Aerobic Digestion(ATAD), which relies on promoting non-pathogenic thermophilic bacteria to digest organic matter and kill pathogens through metabolic heat generation. This process requires continuous aeration that may be energy consuming, and the principal aim of the study is to identify how the process design can minimize the energy input per mass of treated sludge. Appropriate modeling of the reactor process is an essential ingredient, so we explore properties of an existing model and propose a simplified alternative model.

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Modeling of Autothermal Thermophylic Aerobic Digestion

Abstract

Authors (Note for portal: view the doc link for the full list of authors)

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