- -

ParaTrough v1.0: Librería en Modelica para Simulación de Plantas Termosolares

RiuNet: Institutional repository of the Polithecnic University of Valencia

Share/Send to

Cited by

Statistics

ParaTrough v1.0: Librería en Modelica para Simulación de Plantas Termosolares

Show full item record

Romera Cabrerizo, JA.; Santos, M. (2017). ParaTrough v1.0: Librería en Modelica para Simulación de Plantas Termosolares. Revista Iberoamericana de Automática e Informática industrial. 14(4):412-423. https://doi.org/10.1016/j.riai.2017.06.005

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/143294

Files in this item

Item Metadata

Title: ParaTrough v1.0: Librería en Modelica para Simulación de Plantas Termosolares
Secondary Title: ParaTrough: Modelica-based Simulation Library for Solar Thermal Plants
Author: Romera Cabrerizo, Juan A. Santos, Matilde
Issued date:
Abstract:
[ES] El presente trabajo describe una librería desarrollada en Modelica que utiliza el entorno Dymola 6.1 para modelar y simular plantas termosolares de tecnología de colector cilindro-parabólico. El actual software de ...[+]


[EN] This paper describes a Modelica-based library developed to the modeling and simulation of solar thermal plants with parabolic trough collectors. The Dymola 6.1 environment has been used. Unlike other commercial tools, ...[+]
Subjects: Modelado , Simulación , Planta termosolar , Colector cilindro-parabólico , Modelica , Energía renovable , Modeling , Simulation , Solar thermal plant , Parabolic trough power plants , Renewable energy
Copyrigths: Reconocimiento - No comercial - Sin obra derivada (by-nc-nd)
Source:
Revista Iberoamericana de Automática e Informática industrial. (issn: 1697-7912 ) (eissn: 1697-7920 )
DOI: 10.1016/j.riai.2017.06.005
Publisher:
Universitat Politècnica de València
Publisher version: https://doi.org/10.1016/j.riai.2017.06.005
Type: Artículo

References

Alvarez, J. D., Gernjak, W., Malato, S., Berenguel, M., Fuerhacker, M., Yebra, L. J. 2007. Dynamic models for hydrogen peroxide control in solar photo-fenton systems. Journal of Solar Energy Engineering 129(1), 37-44. DOI:10.1115/1.2391014

Arahal, M. R., Berenguel, M., Camacho, E. F. 1997. Nonlinear neural modelbased predictive control of a solar plant. European Control Conference (ECC), IEEE, pp. 985-990.

Beschi, M., Dormido, S., Sanchez, J., Visioli, A., Yebra, L. J. 2014. Eventbased PI plus feedforward control strategies for a distributed solar collector field. IEEE Transactions on Control Systems Technology 22(4), 1615-1622. DOI: 10.1109/TCST.2013.2279216 [+]
Alvarez, J. D., Gernjak, W., Malato, S., Berenguel, M., Fuerhacker, M., Yebra, L. J. 2007. Dynamic models for hydrogen peroxide control in solar photo-fenton systems. Journal of Solar Energy Engineering 129(1), 37-44. DOI:10.1115/1.2391014

Arahal, M. R., Berenguel, M., Camacho, E. F. 1997. Nonlinear neural modelbased predictive control of a solar plant. European Control Conference (ECC), IEEE, pp. 985-990.

Beschi, M., Dormido, S., Sanchez, J., Visioli, A., Yebra, L. J. 2014. Eventbased PI plus feedforward control strategies for a distributed solar collector field. IEEE Transactions on Control Systems Technology 22(4), 1615-1622. DOI: 10.1109/TCST.2013.2279216

Berenguel, M., Arahal, M. R., Camacho, E. F. 1998. Modelling the free response of a solar plant for predictive control. Control Engineering Practice 6(10), 1257-1266. DOI: 10.1016/S0967-0661(98)00126-9

Bonilla, J., Yebra, L. J., Dormido, S., Zarza, E. 2012. Parabolic-trough solar thermal power plant simulation scheme, multi-objective genetic algorithm calibration and validation. solar Energy, 86(1), 531-540. DOI: 10.1016/j.solener.2011.10.025

Burkholder, F., Kutscher, C. F. 2009. Heat loss testing of Schott's 2008 PTR70 parabolic trough receiver. National Renewable Energy Laboratory, Colorado, US.

Camacho, E. F., Berenguel, M., Rubio, F. R., Martínez, D. 2012. Control Issues in Solar Systems. In Control of Solar Energy Systems (pp. 25-47). Springer London. DOI: 10.1007/978-0-85729-916-1_2

Casella, F., Leva, A. 2006. Modelling of thermo-hydraulic power generation processes using Modelica. Mathematical and Computer Modelling of Dynamical Systems, 12(1), 19-33. DOI: 10.1080/13873950500071082

Cirre, C.M., Valenzuela, L., Berenguel, M., Camacho, E.F. 2004. Control de plantas solares con generación automática de consignas. RIAI 1, 50-56.

Cooper, P. I. 1969. The absorption of radiation in solar stills. Solar energy 12(3), 333-346. DOI: 10.1016/0038-092X(69)90047-4

Duffie, J. A., Beckman, W. A. 2013. Solar engineering of thermal processes, vol. 3. Wiley, New York.

Elmqvist, H., Cellier, F. E., Otter, M., 1993. Object-oriented modeling of hybrid systems. European Simulation Sym., Delft, Holanda, pp. 31-41.

García, I.L., Álvarez, J.L., Blanco, D. 2011. Performance model for parabolic trough solar thermal power plants with thermal storage: Comparison to operating plant data. Solar Energy 85(10), 2443-2460. DOI: 10.1016/j.solener.2011.07.002

Hernández-Uribe, O., San Martin, J. P., Garcia-Alegre, M. C., Santos, M., Guinea, D. 2015. Smart building: decision making architecture for thermal energy management. Sensors 15(11), 27543-27568. DOI: 10.3390/s151127543

Hirsch, T., Eck, M. 2006. Simulation of the start-up procedure of a parabolic trough collector field with direct solar steam generation. In: Proceedings 5th International Modelica Conference, Vienna, Austria, pp. 135-143.

Huang, W., Hu, P., & Chen, Z., 2012. Performance simulation of a parabolic trough solar collector. Solar Energy 86(2), 746-755. DOI: 10.1016/j.solener.2011.11.018

Link, K., Gall, L., Bonifay, J., Buggert, M. 2014. Testing power plant control systems in Modelica. In: Proc. of the 10th International Modelica Conference, Lund, Sweden, 1067-1072. DOI: 10.3384/ECP140961067.

Lippke, F. 1995. Simulation of the part-load behavior of a 30 MWe SEGS plant (SAND--95-1293). Sandia National Labs., Albuquerque, NM, US.

Mikati, M., Santos, M., Armenta, C. 2012. Modelado y simulación de un sistema conjunto de energía solar y eólica para analizar su dependencia de la red eléctrica. RIAI 9(3), 267-281. DOI: 10.1016/j.riai.2012.05.010

Mikati, M., Santos, M., Armenta, C. 2013. Electric grid dependence on the configuration of a small-scale wind and solar power hybrid system. Renewable energy 57, 587-593. DOI: 10.1016/j.renene.2013.02.018

Montañés, R. M., Windahl, J., Pålsson, J., Thern, M. 2015. Dynamic modeling of a parabolic trough solar termal power plant with termal storage with Modelica. ASME-AIT-UIT. Conf. Thermal Energy Systems: Production, Storage, Utilization and the Environment. Napoli, Italy.

Ochoa, N., Santos, M. 2016. Modeling and simulation of a solar-Thermal system for its efficient implementation in Quito (Ecuador). IEEE Latin America Transactions 14(5) 2271-2279. DOI: 10.1109/TLA.2016.7530423

Österholm, R., Pålsson, J. 2014. Dynamic modelling of a parabolic trough solar power plant. In: Proc. 10 th International Modelica Conference 96, pp. 1057-1066, Lund, Sweden. DOI: 10.3384/ECP140961057.

Patnode, A. M. 2006. Simulation and performance evaluation of parabolic trough solar power plants. Doctoral dissertation, University of WisconsinMadison.

PSA. 2016. Plataforma Solar de Almería-Ciemat: Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas. Ministerio de Economía y Competitividad. www.psa.es/es/index.php

REN21. 2016. Renewable Energy Policy Network for the 21st Century. Renewable Global Status Report. www.ren21.net/.

Romera, J. A., Santos, M., López, V., 2014. Hybrid fuzzy-PID control in a thermo solar power plant condenser. In: International Conference on Progress in Informatics and Computing (PIC), IEEE, Shanghai, China, pp. 641-645.

Rubio, F. R., Camacho, E. F., Berenguel, M. 2006. Control de campos de colectores solares. Revista Iberoamericana de Automática e Informática Industrial 3(4), 26-45.

SAM. 2016. System Advisor Model. NREL. http://sam.nrel.gov/

SimTech. 2016. Simulation Technology. www.simtechnology.com/CMS/

Stuetzle, T., Blair, N., Mitchell, J. W., Beckman, W. A. 2004. Automatic control of a 30 MWe SEGS VI parabolic trough plant. Solar Energy 76(1), 187-193. DOI: http://dx.doi.org/10.1016/j.solener.2003.01.002

TRNSYS. 2016. Transient Systems Simulation Program. Thermal Energy System Specialists, LLC. http://www.trnsys.com/

Yebra, L. J., Berenguel, M., Dormido, S., Romero, M., 2005. Modelling and simulation of central receiver solar thermal power plants. In: Proc. 44th IEEE Conference on Decision and Control, Sevilla, Spain, pp. 7410- 7415. DOI: 10.1109/CDC.2005.1583357

Yebra, L. J., Berenguel, M., Zarza, E., Dormido, S. 2006. Object oriented modelling of DISS solar thermal power plant. In: 5th International Modelica Conference, Vienna, Austria, 449-456.

Yebra, L. J., Berenguel, M., Dormido, S., Zarza, E. 2008. Object oriented modelling and simulation of parabolic trough collectors with Modelica. Mathematical and Computer Modelling of Dynamical Systems 14(4), 361-375. DOI: /10.1080/13873950701847199

[-]

This item appears in the following Collection(s)

Show full item record