Browsing by Author "Liebenberg, A. D."
Now showing 1 - 1 of 1
Results Per Page
Sort Options
- ItemPerformance Evaluation of Wireless Communication in a Modular Heliostat Field.(Stellenbosch : Stellenbosch University, 2021-03) Liebenberg, A. D.; Smit, W. J.; Stellenbosch University. Faculty of Engineering. Dept. of Mechanical and Mechatronic Engineering.ENGLISH ABSTRACT: Concentrating Solar Thermal (CST) is differentiated from other renewable energy technologies by the ability to store large amounts of thermal energy cost-effectively. CST, and especially Central Receiver Systems (CRS), still require further develop- ment to drive down the Levelised Cost of Electricity (LCOE) to remain economi- cally competitive in the renewable energy market. Heliostats are used in CRS to reflect sunlight onto a central receiver. Data trans- mission is required between a central server and Local Control Units (LCUs) to enable high precision tracking, over-the-air calibration updates, and swift emer- gency reaction. Wireless communication technologies have shown both capital cost and construction time saving potential for CST plants, but practical performance knowledge of operation in heliostat fields is limited. The purpose of this study is to evaluate the feasibility of wireless communica- tion within a CST field b y m eans o f p ractical t ests a imed t o d etermine t he influ- ence of interference, dense networks, and transmission range on the network per- formance. The project forms part of the H2020 PREMA project, which aims to advance novel energy systems in the drying and pre-heating of furnace manganese ore. A communication network consisting of 50 LCUs, capable of controlling 300 heliostats, was designed and implemented to simulate data transmission in a CST network. Performance experiments were conducted at the Helio100 site to de- termine the effect of various performance limiting factors. Experimental results showed a high performing, robust wireless communication system with a worst- case polling rate of 0.79 s, which satisfies a m ajor r equirement o f t he communi- cation network. The thesis concludes that wireless communication is feasible in a CST field, which could lead to the reduction of capital costs and construction time, reducing the LCOE of CST plants.