Thermal Energy Storage
Projects.DynamicEnergyStorage History
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- Powell, K. M., Hedengren, J. D., and Edgar, T. F., Dynamic Optimization of a Solar Thermal Energy Storage System over a 24 Hour Period using Weather Forecasts, American Control Conference (ACC), Washington, DC, 2013. Preprint
[2] Powell, K. M., Hedengren, J. D., and Edgar, T. F., Dynamic Optimization of a Solar Thermal Energy Storage System over a 24 Hour Period using Weather Forecasts, American Control Conference (ACC), Washington, DC, 2013. Preprint
[2] K.M. Powell, J.D. Hedengren, and T.F. Edgar, Dynamic Optimization of a Solar Thermal Energy Storage System over a 24 Hour Period using Weather Forecasts, American Control Conference, Washington, DC, June 2013.
[3] K.M. Powell, Dynamic Optimization of Energy Systems with Thermal Energy Storage, Dissertation, Austin, TX, June 2013. PDF
- Powell, K. M., Hedengren, J. D., and Edgar, T. F., Dynamic Optimization of a Solar Thermal Energy Storage System over a 24 Hour Period using Weather Forecasts, American Control Conference (ACC), Washington, DC, 2013. Preprint
[3] K.M. Powell, Dynamic Optimization of Energy Systems with Thermal Energy Storage, Dissertation, The University of Texas at Austin, June 2013. Download PDF
[1] K.M. Powell and T.F. Edgar, Modeling and Control of a Solar Thermal Plant with Thermal Energy Storage, Chemical Engineering Science, to be published.
[2] K.M. Powell, J.D. Hedengren, and T.F. Edgar, Dynamic Optimization of a Solar Thermal Energy Storage System over a 24 Hour Period using Weather Forecasts, American Control Conference, Montreal, Canada, June 2012, submitted.
[1] K.M. Powell and T.F. Edgar, Modeling and Control of a Solar Thermal Plant with Thermal Energy Storage, Chemical Engineering Science, 2012.
[2] K.M. Powell, J.D. Hedengren, and T.F. Edgar, Dynamic Optimization of a Solar Thermal Energy Storage System over a 24 Hour Period using Weather Forecasts, American Control Conference, Washington, DC, June 2013.
[3] K.M. Powell, Dynamic Optimization of Energy Systems with Thermal Energy Storage, Dissertation, Austin, TX, June 2013. PDF
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A solar thermal power plant is investigated as a case study for thermal energy storage. This process uses solar energy as the heat source, but the results are applicable to any system with an intermittent energy supply. Results from the study were generated by creating a realistic solar plant model with APMonitor driven with a MATLAB script. The results show that thermal energy storage allows more constant energy delivery.
A solar thermal power plant is investigated as a case study for thermal energy storage. This process uses solar energy as the heat source, but the results are applicable to any system with an intermittent energy supply. Results from the study were generated by creating a realistic solar plant model. The results show that thermal energy storage allows more constant energy delivery.
Dynamic Energy Storage
Information on latest research
Dynamic Energy Storage
Information on latest research