Abstract: . . .  Bannister, P. (1991). An Experimental and Analytical Assessment of a steam rankine solar thermal system, Ph.D. Thesis, Energy Research Center, The ANU, Australia Beckman W.A., Broman L., Fiksel A., Klein S.A., Lindberg E., Schuler M. and Thornton J. (1994). Trnsys - the most complete solar energy system modelling and simulation software, Renewable Energy, vol. 5, pp. 486-488 CSTB (2000), IISiBat Version 3.0 Manual, CSTB Sophia Antipolis, France Johnston G. (1995). Flux mapping the 400 m 2 Big Dish at the Australian National University. Journal of Solar Energy Engineering-Transactions of the ASME, vol. . . .
. . .  the promising result of the steam line model. Figure 10 and 11 illustrate the power output results from steam engine model. The predicted are generally match the actual measured data excluding in some condition where the complicated bypass condition is not reached by the model. Page 7 Modelling of a 400m2 steam based Paraboloidal Dish Siangsukone & Lovegrove ANZSES 2003 Destination Renewables 85 © copyright Reviewed as full Paper 26 to 29 November 2003 0 100 200 300 400 500 600 11:08 11:17 11:28 11:38 11:48 11:58 12:08 12:18 12:28 Time [Hr] Steam line outlet temperature [C] Measured Predicted Figure . . .
. . .  operation. Moreover, the annual performance of multiple dishes Rankine cycle solar thermal power systems will be assessed. This will be a valuable tool in the development of designs for solar thermal power production systems. REFERENCE Bannister, P. (1991). An Experimental and Analytical Assessment of a steam rankine solar thermal system, Ph.D. Thesis, Energy Research Center, The ANU, Australia Beckman W.A., Broman L., Fiksel A., Klein S.A., Lindberg E., Schuler M. and Thornton J. (1994). Trnsys - the most complete solar energy system modelling and simulation software, Renewable Energy, vol. 5, pp. . . .
. . .  result of the steam line model. Figure 10 and 11 illustrate the power output results from steam engine model. The predicted are generally match the actual measured data excluding in some condition where the complicated bypass condition is not reached by the model. Page 7 Modelling of a 400m2 steam based Paraboloidal Dish Siangsukone & Lovegrove ANZSES 2003 Destination Renewables 85 © copyright Reviewed as full Paper 26 to 29 November 2003 0 100 200 300 400 500 600 11:08 11:17 11:28 11:38 11:48 11:58 12:08 12:18 12:28 Time [Hr] Steam line outlet temperature [C] Measured Predicted Figure 9: Measured . . .
. . .  result of the steam line model. Figure 10 and 11 illustrate the power output results from steam engine model. The predicted are generally match the actual measured data excluding in some condition where the complicated bypass condition is not reached by the model. Page 7 Modelling of a 400m2 steam based Paraboloidal Dish Siangsukone & Lovegrove ANZSES 2003 Destination Renewables 85 © copyright Reviewed as full Paper 26 to 29 November 2003 0 100 200 300 400 500 600 11:08 11:17 11:28 11:38 11:48 11:58 12:08 12:18 12:28 Time [Hr] Steam line outlet temperature [C] Measured Predicted Figure 9: Measured and . . .
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