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Cooling towers

The following provides a list of all the publications catalogued in Structurae that are relevant to this structure type.

  1. Prabhakar, N. (1991): Hyperbolic Cooling Towers. In: Structural Engineering International, v. 1, n. 3 (August 1991), pp. 22-22.

    https://doi.org/10.2749/101686691780617508

  2. Niemann, Hans-Jürgen / Kopper, H. D. (1998): Influence of adjacent buildings on wind effects on cooling towers. In: Engineering Structures, v. 20, n. 10 (October 1998), pp. 874-880.

    https://doi.org/10.1016/S0141-0296(97)00131-4

  3. Hara, Takashi (2011): Local Failure of Cooling and Solar Updraft Towers. Presented at: 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures, London, September 2011.
  4. Meyer, Joachim / Pfister, Tobias (2011): Monitoring and Life Cycle Management of Cooling Towers. Presented at: 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures, London, September 2011.
  5. Busch, Dieter / Harte, Reinhard / Krätzig, Wilfried B. / Montag, Ulrich (2002): New natural draft cooling tower of 200 m of height. In: Engineering Structures, v. 24, n. 12 (December 2002), pp. 1509-1521.

    https://doi.org/10.1016/s0141-0296(02)00082-2

  6. Heine, P. (2010): Oberflächenschutz von Kühlturminnenschalen - positive Langzeiterfahrungen mit Beschichtungssystemen. In: Bautechnik, v. 87, n. 7 (July 2010), pp. 418-424.

    https://doi.org/10.1002/bate.201090070

  7. Lee, Sang-Yun / Noh, Sam-Young (2017): On a form-finding concept of the natural draught cooling tower shell. Presented at: Interfaces: Architecture, Engineering, Science, Annual Meeting of the International Association of Shell & Spatial Structures (IASS), Hamburg, 25-27 September 2017.
  8. Reuter, Hanno / Kröger, Detlev (2011): Parametric CFD analysis of a natural draft wet-cooling tower with isotropic fill. Presented at: 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures, London, September 2011.
  9. Guimond, R. / Malla, Sujan / da Silva, C. (1993): Pego Cooling Towers: Some Design Aspects. In: Structural Engineering International, v. 3, n. 4 (November 1993), pp. 245-248.

    https://doi.org/10.2749/101686693780607679

  10. Langeneke, Bernt / Busch, Dieter (1995): Repair of the inner shell of natural draft cooling towers. Presented at: Extending the Lifespan of Structures, IABSE Symposium, San Francisco, August 1995, pp. 1387-1392.
  11. Lançon, Hervé / Camp, Géraldine / Carreaud, Pierre / Piot, Sebastien (2011): SCANSITES 3D: the method to fingerprint the health of cooling towers. Presented at: 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures, London, September 2011.
  12. Cichocki, Bernd (1981): Der Stahlbetonkühlturm für das Kraftwerk Voitsberg 3. In: Schweizer Ingenieur und Architekt, v. 99, n. 47 ( 1981), pp. 1087-1092.

    https://doi.org/10.5169/seals-74611

  13. Harte, Reinhard / Kraetzig, Wilfried (2011): State-of-the-art of Structural Design of Cooling and Solar Updraft Towers. Presented at: 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures, London, September 2011.
  14. Altmeyer, Felix / Lang, Christian / Weigl, Joachim (2011): Stochastic Structural Analysis with Reference to Natural Draft Cooling Tower Shells. Presented at: 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures, London, September 2011.
  15. Casucci, D. / Andres, M. / Wörmann, R. (2016): Suitability of Cooling Towers in Areas Prone to Earthquakes. In: Journal of the International Association for Shell Structures, v. 57, n. 1 (31 March 2016), pp. 75-82.

    https://doi.org/10.20898/j.iass.2016.187.770

  16. Lohaus, Ludger / Abebe, Yared (2011): Tailored concrete concepts for very tall cooling and solar updraft towers. Presented at: 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures, London, September 2011.
  17. Zhao, Lin / Ke, Shitang / Zhang, Junfeng / Ge, Yaojun (2011): Theoretical and Testing Investigation of Wind-induced Performance of Super-large Cooling Tower. Presented at: 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures, London, September 2011.
  18. Reed, D. A. / Scanlan, Robert H. (1983): Time Series Analysis of Cooling Tower Wind Loading. In: Journal of Structural Engineering (ASCE), v. 109, n. 2 (February 1983), pp. 538-554.

    https://doi.org/10.1061/(asce)0733-9445(1983)109:2(538)

  19. Sudret, B. / Defaux, G. / Pendola, M. (2005): Time-variant finite element reliability analysis – application to the durability of cooling towers. In: Structural Safety, v. 27, n. 2 (April 2005), pp. 93-112.

    https://doi.org/10.1016/j.strusafe.2004.05.001

  20. Alexandridis, A. / Gardner, N. J. (1992): Tolerance Limits for Geometric Imperfections in Hyperbolic Cooling Towers. In: Journal of Structural Engineering (ASCE), v. 118, n. 8 (August 1992), pp. 2082-2100.

    https://doi.org/10.1061/(asce)0733-9445(1992)118:8(2082)

  21. Cheng, XX / Zhao, L. / Ge, YJ / Dong, R. / Demartino, C. (2017): Wind effects on rough-walled and smooth-walled large cooling towers. In: Advances in Structural Engineering, v. 20, n. 6 (30 May 2017), pp. 843-864.

    https://doi.org/10.1177/1369433216664354

  22. Zhang, Jun-Feng (2017): Wind induced dynamic effects on hyperboloidal cooling tower shells and the Equivalent Static Wind Loads. Presented at: Interfaces: Architecture, Engineering, Science, Annual Meeting of the International Association of Shell & Spatial Structures (IASS), Hamburg, 25-27 September 2017.
  23. Meyer, Joachim / Niemann, Hans-Jürgen / Höhler, Sebastian / Lehnen, Dieter / Hölscher, Norbert / Hubert, Wolfgang (2017): Wind Loads for designing Hybrid Cooling Towers. Presented at: Interfaces: Architecture, Engineering, Science, Annual Meeting of the International Association of Shell & Spatial Structures (IASS), Hamburg, 25-27 September 2017.
  24. Cheng, X. X. / Zhao, L. / Ge, Y. J. / Ke, S. T. / Liu, X. P. (2015): Wind Pressures on a Large Cooling Tower. In: Advances in Structural Engineering, v. 18, n. 2 (February 2015), pp. 201-219.

    https://doi.org/10.1260/1369-4332.18.2.201

  25. Orlando, Maurizio (2001): Wind-induced interference effects on two adjacent cooling towers. In: Engineering Structures, v. 23, n. 8 (August 2001), pp. 979-992.

    https://doi.org/10.1016/s0141-0296(00)00110-3

  26. Ke, Shitang / Du, Lingyun / Ge, Yaojun (2018): The Wind-induced internal pressure effect within a novel super-large cylindrical-conical steel cooling tower. In: The Structural Design of Tall and Special Buildings, v. 27, n. 15 (25 October 2018), pp. e1510.

    https://doi.org/10.1002/tal.1510

  27. Mang, Herbert A. / Floegl, Helmut / Trappel, Friedrich / Walter, Herbert (1983): Wind-loaded reinforced-concrete cooling towers: buckling or ultimate load?. In: Engineering Structures, v. 5, n. 3 (July 1983), pp. 163-180.

    https://doi.org/10.1016/0141-0296(83)90014-7

  28. Busch, Dieter / Harte, Reinhard / Krätzig, Wilfried B. / Montag, Ulrich (2001): World's Tallest Natural Draft Cooling Tower. In: Structural Engineering International, v. 11, n. 2 (May 2001), pp. 107-109.

    https://doi.org/10.2749/101686601780347084

  29. Krätzig, Wilfried B. / Andres, Matthias / Arntz, Matthias / Eckstein, Ulrich / Harte, Reinhard / Wörmann, Ralf (2016): Zum Entwurf großer Naturzugkühltürme - In memoriam Professor Dr.-Ing. Udo Wittek 1942 - 2015. In: Bautechnik, v. 93, n. 3 (March 2016), pp. 151-161.

    https://doi.org/10.1002/bate.201500069

  30. May, B. (1979): Zur Gründung hyperbolischer Naturzugkühltürme auf Großbohrpfählen mit vorgespanntem Kreisring. In: Beton- und Stahlbetonbau, v. 74, n. 6 (June 1979), pp. 145-153.

    https://doi.org/10.1002/best.197900250