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Books on the topic 'WASTEWATER TREATMENT MODELLING'

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Author: Grafiati
Published: 10 March 2023

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1

Mannina, Giorgio, ed. Frontiers in Wastewater Treatment and Modelling. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-58421-8.

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2

Olsson, Gustaf. Wastewater treatment systems: Modelling, diagnosis and control. London: IWA Publishing, 1999.

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3

M, Henze, ed. Biological wastewater treatment: Principles, modelling and design. London: IWA Pub., 2008.

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4

Kiourtsidis, S. Advances in crossflow microfiltration process applied in wastewater treatment-modelling. Manchester: UMIST, 1994.

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5

Schütze, Manfred R. Modelling, simulation, and control of urban wastewater systems. London: Springer, 2002.

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6

M, Henze, and IAWPRC Specialised Seminar (1985 : Copenhagen, Denmark), eds. Modelling of biological wastewater treatment: Proceedings of an IAWPRC Specialised Seminar held in Copenhagen, Denmark, 28-30 August 1985. Oxford: Pergmaon, 1986.

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7

M, Henze, and International Association on Water Pollution Research and Control., eds. Modelling of biological wastewater treatment: Proceedings of an IAWPRC specialised seminar held in Copenhagen, Denmark 28-30 August 1985. Oxford: Pergamon, 1986.

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8

Laurent, Julien, Randal Samstag, Jim Wicks, and Ingmar Nopens, eds. CFD Modelling for Wastewater Treatment Processes. IWA Publishing, 2022. http://dx.doi.org/10.2166/9781780409030.

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Abstract This Scientific and Technical Report (STR) provides in-depth fundamentals and guidelines regarding Computational Fluid Dynamics (CFD) simulations of Water Resources Recovery Facilities (WRRFs) unit processes (e.g. headworks, aerobic and anaerobic biological reactors, settling tanks, disinfection). Each unit process is described with respect to: Literature review and process descriptionRelevant CFD concepts and modelling approachCase studiesFuture research needs CFD Modelling for Wastewater Treatment Processes also opens the discussion on two fundamental topics: experimental validation of CFD simulations, and the complementarity between CFD and Chemical Reaction Engineering approaches. This book is intended for undergraduate and graduate students majoring in fields related to wastewater treatment and/or fluid mechanics, as well as researchers and engineers who conduct research and practices in modelling such unit processes. Water resource recovery modelling is not just about lab-scale processes. Now and in the future it is about improving our understanding of (and designing better) full-scale facilities!
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9

Laurent, Julien, Ingmar Nopens, Jim Wicks, and Randal Samstag. CFD Modelling for Wastewater Treatment Processes. IWA Publishing, 2020.

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10

CFD Modelling for Wastewater Treatment Processes. IWA Publishing, 2020.

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11

Henze, Mogens, Mark C. M. van Loosdrecht, Damir Brdjanovic, and G. A. Ekama. Biological Wastewater Treatment: Principles, Modelling and Design. IWA Publishing, 2008.

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12

Olsson, Gustaf, and B. S. Newell. Wastewater Treatment Systems: Modelling, Diagnosis and Control. IWA Publishing, 1999.

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13

Modelling and Estimation in Wastewater Treatment Processes. Other, 2001.

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14

Horváth, Imre. Modelling in the Technology of Wastewater Treatment. Elsevier Science & Technology Books, 2013.

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15

Mannina, Giorgio. Frontiers in Wastewater Treatment and Modelling: FICWTM 2017. Springer, 2017.

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16

Mannina, Giorgio. Frontiers in Wastewater Treatment and Modelling: FICWTM 2017. Springer, 2018.

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17

Vanrolleghem, Peter A., and D. Dochain. Dynamical Modelling and Estimation in Wastewater Treatment Processes. IWA Publishing, 2001.

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18

Stuetz, Richard M., and Franz-Bernd Frechen. Odours in Wastewater Treatment: Measurement, Modelling and Control. IWA Publishing, 2001.

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19

Biological Wastewater Treatment : Principles, Modelling and Design: Examples and Exercises. IWA Publishing, 2021.

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20

Lopez-Vazquez, C. M., Eveline Volcke, Di Wu, Mark C. M. van Loosdrecht, and Damir Brdjanovic. Biological Wastewater Treatment : Principles, Modelling and Design: Examples and Exercises. IWA Publishing, 2021.

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21

Jorgensen, S. E. Mathematical Models in Biological Wastewater Treatment (Developments in Environmental Modelling, 7). Elsevier Publishing Company, 1986.

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22

Belia, Evangelia, Lorenzo Benedetti, Bruce Johnson, Sudhir Murthy, Marc Neumann, Peter Vanrolleghem, and Stefan Weijers, eds. Uncertainty in Wastewater Treatment Design and Operation. IWA Publishing, 2021. http://dx.doi.org/10.2166/9781780401034.

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Uncertainty in Wastewater Treatment Design and Operation aims to facilitate the transition of the wastewater profession to the probabilistic use of simulators with the associated benefits of being better able to take advantage of opportunities and manage risk. There is a paradigm shift taking place in the design and operation of treatment plants in the water industry. The market is currently in transition to use modelling and simulation while still using conventional heuristic guidelines (safety factors). Key reasons for transition include: wastewater treatment simulation software advancements; stricter effluent requirements that cannot be designed for using traditional approaches, and increased pressure for more efficient designs (including energy efficiency, greenhouse gas emission control). There is increasing consensus among wastewater professionals that the performance of plants and the predictive power of their models (degree of uncertainty) is a critical component of plant design and operation. However, models and simulators used by designers and operators do not incorporate methods for the evaluation of uncertainty associated with each design. Thus, engineers often combine safety factors with simulation results in an arbitrary way based on designer ‘experience’. Furthermore, there is not an accepted methodology (outside modelling) that translates uncertainty to assumed opportunity or risk and how it is distributed among consultants/contractors and owners. Uncertainty in Wastewater Treatment Design and Operation documents how uncertainty, opportunity and risk are currently handled in the wastewater treatment practice by consultants, utilities and regulators. The book provides a useful set of terms and definitions relating to uncertainty and promotes an understanding of the issues and terms involved. It identifies the sources of uncertainty in different project phases and presents a critical review of the available methods. Real-world examples are selected to illustrate where and when sources of uncertainty are introduced and how models are implemented and used in design projects and in operational optimisation. Uncertainty in Wastewater Treatment Design and Operation defines the developments required to provide improved procedures and tools to implement uncertainty and risk evaluations in projects. It is a vital reference for utilities, regulators, consultants, and trained management dealing with certainty, opportunity and risk in wastewater treatment. ISBN: 9781780401027 (Paperback) ISBN: 9781780401034 (eBook) ISBN: 9781789062601 (ePub)
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23

Henze, M. Modelling of Biological Wastewater Treatment: Proceedings of an Iawprc Specialized Seminar Held in Copenhagen, 28-30 August 1985 (Water Science and Technology). Elsevier Science Pub Co, 1986.

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24

Butler, David, Manfred Schütze, and Bruce M. Beck. Modeling, Simulation and Control of Urban Wastewater Systems. Springer, 2002.

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25

Ye, Liu, Jose Porro, and Ingmar Nopens, eds. Quantification and Modelling of Fugitive Greenhouse Gas Emissions from Urban Water Systems. IWA Publishing, 2022. http://dx.doi.org/10.2166/9781789060461.

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Abstract With increased commitment from the international community to reduce greenhouse gas (GHG) emissions from all sectors in accordance with the Paris Agreement, the water sector has never felt the pressure it is now under to transition to a low-carbon water management model. This requires reducing GHG emissions from grid-energy consumption (Scope 2 emissions), which is straightforward; however, it also requires reducing Scope 1 emissions, which include nitrous oxide and methane emissions, predominantly from wastewater handling and treatment. The pathways and factors leading to biological nitrous oxide and methane formation and emissions from wastewater are highly complex and site-specific. Good emission factors for estimating the Scope 1 emissions are lacking, water utilities have little experience in directly measuring these emissions, and the mathematical modelling of these emissions is challenging. Therefore, this book aims to help the water sector address the Scope 1 emissions by breaking down their pathways and influencing factors, and providing guidance on both the use of emission factors, and performing direct measurements of nitrous oxide and methane emissions from sewers and wastewater treatment plants. The book also dives into the mathematical modelling for predicting these emissions and provides guidance on the use of different mathematical models based upon your conditions, as well as an introduction to alternative modelling methods, including metabolic, data-driven, and AI methods. Finally, the book includes guidance on using the modelling tools for assessing different operating strategies and identifying promising mitigation actions. A must-have book for anyone needing to understand, account for, and reduce water utility Scope 1 emissions. ISBN: 9781789060454 (Paperback) ISBN: 9781789060461 (eBook) ISBN: 9781789060478 (ePub)
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26

Velkushanova, Konstantina, Linda Strande, Mariska Ronteltap, Thammarat Koottatep, Damir Brdjanovic, and Chris Buckley, eds. Methods for Faecal Sludge Analysis. IWA Publishing, 2021. http://dx.doi.org/10.2166/9781780409122.

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Faecal sludge management is recognized globally as an essential component of city-wide inclusive sanitation. However, a major gap in developing appropriate and adequate management and monitoring for faecal sludge is the ability to understand and predict the characteristics and volumes of accumulated faecal sludge, and correlations to source populations. Since standard methods for sampling and analysing faecal sludge do not currently exist, results are not comparable, the actual variability is not yet fully understood, and the transfer of knowledge and data between different regions and institutions can be challenging and often arbitrary. Due to this lack of standard analytical methods for faecal sludge, methods from other fields, such as wastewater management, and soil and food science are frequently applied. However, these methods are not necessarily the most suitable for faecal sludge analysis, and have not been specifically adapted for this purpose. Characteristics of faecal sludge can be different than these other matrices by orders of magnitude. There is also a lack of standard methods for sampling, which is complicated by the difficult nature of in situ sampling, the wide range of onsite sanitation technologies and potential sampling locations, and the diverse heterogeneity of faecal sludge within onsite containments and within cities. This illustrates the urgent need to establish common methods and procedures for faecal sludge characterisation, quantification, sampling, and modelling. The aim of this book is to provide a basis for standardised methods for the analysis of faecal sludge from onsite sanitation technologies, for improved communication between sanitation practitioners, and for greater confidence in the generated data. The book presents background information on types of faecal sludge, methods for sample collection, health and safety procedures for handling, case studies of experimental design, an approach for estimating faecal sludge at community to city-wide scales, modelling containment and treatment processes, recipes for simulants, and laboratory methods for faecal sludge analysis currently in use by faecal sludge laboratories. This book will be beneficial for researchers, laboratory technicians, academics, students and sanitation practitioners. ISBN13: 9781780409115 eISBN: 9781780409122
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