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COMPARSION OF DEMAND DRIVEN AND PRESSURE DRIVEN HYDRAULIC ANALYSIS OF THE IRRIGATION NETWORK

Asoc. Milan Cisty

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b31/s12.021View metrics

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Title
COMPARSION OF DEMAND DRIVEN AND PRESSURE DRIVEN HYDRAULIC ANALYSIS OF THE IRRIGATION NETWORK
Authors
Asoc. Milan Cisty
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on WATER RESOURCES. FOREST, MARINE AND OCEAN ECOSYSTEMS
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-13-1
Language
en
Publication type
Conference Paper
References22
  1. Cisty , M. (2002): Optimalizačné a simulačné modely v závlahách súčasnos ti. - Bratislava STU v Bratislave SvF, 2002. - 96 s. ISBN 80-227-1770-3

  2. Calejo, M.J., Lamaddalena, N., and Pereira, L.S. (2005): Pressurized irrigation network modelling: a flow driven analysis approach. In: Boaventura Cunha, J., Morais, R. (Eds.), Proceedings of the EFITA/WCCA 2005 Joint Conference on Information Technologies in Agriculture. EFITA and Univ. Tra´s -os-Montes e Alto Douro, Vila Real, pp. 260– 265.

  3. Labye, Y., Olson, M.A., Galand, A., Tsiourtis, N. (1988): Design and Optimization of Irrigation Distribution Networks. Irrigation and Drainage Paper no. 44. FAO, Roma.

  4. Lamaddalena, N. (1997): Integrated simulation model for design and performance analysis of on-demand pressurized irrigation systems. Ph.D. Thesis. Instituto Superior de Agronomia, Universidade Te´cnica de Lisboa.

  5. Lamaddalena, N. and Pereira, L.S. (1998): Performance analysis of on-demand pressurised irrigation systems. In: Pereira, L.S.,

  6. Lamaddalena, N., Sagardoy, J.A. (2000): Performance analysis of on-demand pressurized irrigation systems. Irrigation and Drainage Paper no. 59. FAO, Roma.

  7. Lamaddalena, N., & Pereira, L. S., (2007): Pressure - driven modeling for performance analysis of irrigation systems operating on demand. Agricultural water management, 90(1), 36-44.

  8. McInnis, D., Karney, B.W. (1995): Transients in distribution networks: field tests and demand models. J. Hydrogen Energy 121 (3), 218–231.

  9. Islam, M.R., and Chaudhry M. H., (1998): Modeling of constituent transport in unsteady flows in pipe networks. J. Hydrogen Energy 124 (11), 1115–1124.

  10. Pezzinga, G. (1999): Quasi-2D model for unsteady flow in pipe networks. J. Hydrogen Energy 125 (7), 676–685.

  11. Walski, T.M., Chase, D.V., Savic, D.A. (2001): Water Distribution Modelling. Haestad Press, Watertown, USA.

  12. Cisty , M. (2002): Optimalizačné a simulačné modely v závlahách súčasnos ti. - Bratislava STU v Bratislave SvF, 2002. - 96 s. ISBN 80-227-1770-3

  13. Calejo, M.J., Lamaddalena, N., and Pereira, L.S. (2005): Pressurized irrigation network modelling: a flow driven analysis approach. In: Boaventura Cunha, J., Morais, R. (Eds.), Proceedings of the EFITA/WCCA 2005 Joint Conference on Information Technologies in Agriculture. EFITA and Univ. Tra´s -os-Montes e Alto Douro, Vila Real, pp. 260– 265.

  14. Labye, Y., Olson, M.A., Galand, A., Tsiourtis, N. (1988): Design and Optimization of Irrigation Distribution Networks. Irrigation and Drainage Paper no. 44. FAO, Roma.

  15. Lamaddalena, N. (1997): Integrated simulation model for design and performance analysis of on-demand pressurized irrigation systems. Ph.D. Thesis. Instituto Superior de Agronomia, Universidade Te´cnica de Lisboa.

  16. Lamaddalena, N. and Pereira, L.S. (1998): Performance analysis of on-demand pressurised irrigation systems. In: Pereira, L.S.,

  17. Lamaddalena, N., Sagardoy, J.A. (2000): Performance analysis of on-demand pressurized irrigation systems. Irrigation and Drainage Paper no. 59. FAO, Roma.

  18. Lamaddalena, N., & Pereira, L. S., (2007): Pressure - driven modeling for performance analysis of irrigation systems operating on demand. Agricultural water management, 90(1), 36-44.

  19. McInnis, D., Karney, B.W. (1995): Transients in distribution networks: field tests and demand models. J. Hydrogen Energy 121 (3), 218–231.

  20. Islam, M.R., and Chaudhry M. H., (1998): Modeling of constituent transport in unsteady flows in pipe networks. J. Hydrogen Energy 124 (11), 1115–1124.

  21. Pezzinga, G. (1999): Quasi-2D model for unsteady flow in pipe networks. J. Hydrogen Energy 125 (7), 676–685.

  22. Walski, T.M., Chase, D.V., Savic, D.A. (2001): Water Distribution Modelling. Haestad Press, Watertown, USA.

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