Development of a 'smart' monolayer application system for reducing evaporation from farm dams: introductory paper
Paper
Paper/Presentation Title | Development of a 'smart' monolayer application system for reducing evaporation from farm dams: introductory paper |
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Presentation Type | Paper |
Authors | Brink, Gavin (Author), Symes, Troy (Author) and Hancock, Nigel (Author) |
Editors | Banhazi, T. M. and Saunders, C. |
Journal or Proceedings Title | Proceedings of the 2009 CIGR International Symposium of the Australian Society for Engineering in Agricuture (SEAg 2009) |
Number of Pages | 9 |
Year | 2009 |
Place of Publication | Brisbane, Australia |
ISBN | 9780858259096 |
Web Address (URL) of Paper | http://search.informit.com.au/fullText;dn=645968829193298;res=IELENG |
Conference/Event | SEAg 2009: Agricultural Technologies In a Changing Climate |
Event Details | SEAg 2009: Agricultural Technologies In a Changing Climate Event Date 13 to end of 16 Sep 2009 Event Location Brisbane, Australia |
Abstract | Chemical monolayer films are potentially an economical low-impact means of reducing evaporative loss from farm water storages. However, their performance can be highly variable as they are affected by climatic and environmental factors: principally wind, wave action and bio-degradation. These limitations must be accommodated for in the management of the applied monolayer by means of appropriate and timely autonomous application and re-application. Although a number of autonomous application systems for monolayer already exist, none has proved overly successful. It is argued that whilst this is in part due to sub-optimal performance of monolayer materials, it is also due in large measure to inaccuracies and/or inappropriate design in both application systems and particularly application strategies which are not adaptive to the prevailing environmental conditions. Therefore, a control system is being developed to adaptively and spatially vary monolayer application rates according to changing conditions monitored on-site. This will form part of an autonomous electromechanical system for the optimal application and spreading of chemical monolayer. This paper reports progress towards this objective; firstly by evaluation of the design requirements for automated systems at a range of spatial scales; and secondly via the construction of a first ‘pre-prototype’ to act as an evaluation platform and concept demonstrator. |
Keywords | chemical monolayer, autonomous, electromechanical, low-impact, water, evaporation reduction, pre-prototype, application, farm dam |
ANZSRC Field of Research 2020 | 300207. Agricultural systems analysis and modelling |
300201. Agricultural hydrology | |
409901. Agricultural engineering | |
Public Notes | File reproduced in accordance with the copyright policy of the publisher/author. |
Byline Affiliations | National Centre for Engineering in Agriculture |
https://research.usq.edu.au/item/9z6xw/development-of-a-smart-monolayer-application-system-for-reducing-evaporation-from-farm-dams-introductory-paper
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