Demonstrating remote area power supply systems on the World Wide Web

Lund, C.P., Wilmot, N., Pryor, T. and Cole, G. (2001) Demonstrating remote area power supply systems on the World Wide Web. Renewable Energy, 22 (1-3). pp. 345-351.

Abstract

One of the primary advantages of the internet is its ability to enable flexible, 24-h access to up-to-date information, irrespective of the geographic location of the user. It is thus rapidly becoming an important tool for the dissemination of information on a global scale. In order to take advantage of the increased accessibility available through the internet, the Murdoch University Energy Research Institute has developed an internet-based version of its physical renewable energy remote area power supply (RAPS) demonstration system. In this way, the physical site, which aims to inform the community about the cost, performance and reliability of renewable energy systems by enabling them to visit a practical operating RAPS system, is available to a much larger audience. The internet-based site, WebRAPS, contains a number of features including case studies of the three RAPS systems at the physical site, specifications of the components used in the systems and general information about the renewable energy system technologies. It also displays historical and real-time data from a monitoring system integrated with the largest of the physical RAPS systems. Visitors to the internet site are able to see how the RAPS system is operating, almost as well as if they were present at the physical site itself. This paper demonstrates the features of the WebRAPS site and discusses how it was developed.
Murdoch University Energy Research Institute, Australia, developed an Internet-based version of its physical renewable energy remote area power supply (RAPS) demonstration system. Information on the cost, performance, and reliability of such systems is available to a much larger audience as users and community stakeholders can visit a practical operating RAPS system. Case studies are presented for each of the three systems in the RAPS building, including a 24 V system with 300 W solar array and 300 W wind turbine, a 48 V system with 1.2 kW solar array and 1.8 kW wind turbine, and a 12 V caravan system with 160 W solar array. (from World Renewable Energy Conf Proceedings, Perth, Australia, Feb 99).

Item Type:	Journal Article
Publisher:	Elsevier BV
URI:	http://researchrepository.murdoch.edu.au/id/eprint/17212

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