Transient Free Surface Flows in Building Drainage Systems

John Swaffield

$131

Paperback

Not in-store but you can order this
How long will it take?

Availability Information

We source books from suppliers in Australia and overseas. For books we don't currently have in stock, the time it takes to get them from our suppliers can vary widely - from a few days to a few months - so we check each book with each supplier to determine the expected time it will take to be supplied to us.

We then advise you accordingly. If the time taken to get any book is too long for you, you can let us know and we will cancel or adjust your order, and refund as required.

To find out the anticipated arrival time for specific items prior to ordering, please contact us by phone or email:

Phone +61 2 9264 3111, or 1800 4 BOOKS (1800 4 26657) if outside Sydney:
option 1 Abbey's Bookshop (Crime, History, Science, Kids & more) • info@abbeys.com.au
option 2 Language Book Centre (ESL & Foreign Languages) • language@abbeys.com.au
option 3 Galaxy Bookshop (Sci-fi, Fantasy, Romance, Graphic Novels) • sf@galaxybooks.com.au

QTY:

English

Routledge
26 September 2019

Environmentally-friendly architecture & design; Water industries; Hydrology & the hydrosphere; Building construction & materials

Climate change will present a series of challenges to engineers concerned with the provision of both building internal appliance drainage networks and rainwater systems within the building boundary, generally identified as the connection to the sewer network. Climate change is now recognised as presenting both water shortage and enhanced rainfall design scenarios.

In response to predictions about immanent climate change Transient Free Surface Flows in Building Drainage Systems addresses problems such as the reduction in water available to remove waste from buildings, and conversely, the increase in frequency of tropical-type torrential rain. Starting with introductory chapters that explain the theories and principles of solid transport, free surface flows within drainage networks, and attenuating appliance discharge flows, this book allows readers from a variety of backgrounds to fully engage with this crucial subject matter. Later chapters apply these theories to the design of sanitary and rainwater systems. Case studies highlight the applicability of the method in assessing the appropriateness of design approaches.

In this unique book, research in modelling for free surface flows at Edinburgh’s Heriot-Watt University is drawn on to provide a highly authoritative, physics-based study of this complex engineering issue.

By: John Swaffield
Imprint: Routledge
Country of Publication: United Kingdom
Dimensions: Height: 234mm, Width: 156mm,
Weight: 430g
ISBN: 9780367377809
ISBN 10: 0367377802
Pages: 286
Publication Date: 26 September 2019
Audience: Professional and scholarly , Undergraduate
Format: Paperback
Publisher's Status: Active

John Swaffield was President of the Chartered Institution of Building Services Engineers for 2008–09, and Emeritus Professor of Building Engineering at Heriot Watt University, Edinburgh, until he tragically passed away in early 2011. The writing of this book was completed by his colleagues at Heriot Watt. Michael Gormley is a Senior Lecturer in Architectural Engineering in the School of the Built Environment at Heriot-Watt University. He has been an active researcher in the field of fluid flow modelling since 2000. His research interests include pressure transient propagation and suppression in high rise buildings, water conservation and the modelling and control of infection spread in hospitals. Grant Wright is a lecturer in Civil Engineering in the School of the Built Environment at Heriot-Watt University. His research interests include fluid flow modelling at multiple scales, ranging from curtilage level drainage systems through to regional scale flood modelling, as well as the performance of Sustainable Urban Drainage Systems and public perception of flooding related issues. Ian McDougall is a computing officer in the School of the Built Environment at Heriot-Watt University. He has been responsible for the production and maintenance of drainage related computer models since 1995. His research specialisms are solid transport in horizontal drains and water conservation.