Drying Technology, 1532-2300

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  1. Article
  2. Drying of paper: A review 2000–2018

    Stig Stenström, 2019, In : Drying Technology.

    Research output: Contribution to journalArticle

  3. Determination of external mass transfer coefficients in dynamic sorption (DVS) measurements

    Thorell, A. & Lars Wadsö, 2017 Jun 23, In : Drying Technology.

    Research output: Contribution to journalArticle

  4. Modeling fixed-bed drying of bark

    Huttunen, M., Holmberg, A. & Stig Stenström, 2017 Jan 2, In : Drying Technology. 35, 1, p. 97-107 11 p.

    Research output: Contribution to journalArticle

  5. Water vapor sorption and diffusivity in bark

    Holmberg, A., Lars Wadsö & Stig Stenström, 2016, In : Drying Technology. 34, 2, p. 150-160

    Research output: Contribution to journalArticle

  6. The Loss of Aroma Components of the Fruit of Vangueria infausta L. (African Medlar) After Convective Drying

    Ráice, R., Chiau, E., Ingegerd Sjöholm & Björn Bergenståhl, 2015, In : Drying Technology. 33, 8, p. 887-895

    Research output: Contribution to journalArticle

  7. Surface Composition and Morphology of Particles Dried Individually and by Spray Drying

    Nuzzo, M., Millqvist-Fureby, A., Sloth, J. & Björn Bergenståhl, 2015, In : Drying Technology. 33, 6, p. 757-767

    Research output: Contribution to journalArticle

  8. Modeling drying and energy performance of industrial through-dryers

    Weineisen, H. & Stig Stenström, 2008, In : Drying Technology. 26, 6, p. 776-785

    Research output: Contribution to journalArticle

  9. Effect of high-temperature drying and restraint on twist of Norway spruce

    Eva Frühwald, 2007, In : Drying Technology. 25, 1-3, p. 489-496

    Research output: Contribution to journalArticle

  10. A model for through-drying of tissue paper at constant pressure drop and high drying intensity

    Weineisen, H. & Stig Stenström, 2007, In : Drying Technology. 25, 12, p. 1949-1958

    Research output: Contribution to journalArticle

  11. Drying and hydration of cement based self-leveling flooring compounds

    Anderberg, A. & Lars Wadsö, 2007, In : Drying Technology. vol 25, no 12, p. 1995-2003

    Research output: Contribution to journalArticle

  12. A modular process modeling tool for the analysis of energy use and cost in the pulp and paper industry

    Lindell, K. & Stig Stenström, 2006, In : Drying Technology. 24, 11, p. 1335-1345

    Research output: Contribution to journalArticle

  13. Modeling through drying of tissue-effect of pore size distribution on drying characteristics

    Weineisen, H. & Stig Stenström, 2005, In : Drying Technology. 23, 9-11, p. 1909-1923

    Research output: Contribution to journalArticle

  14. Static and dynamic modeling of cardboard drying - Part 1: Theoretical model

    Karlsson, M. & Stig Stenström, 2005, In : Drying Technology. 23, 1-2, p. 143-163

    Research output: Contribution to journalArticle

  15. Static and dynamic modeling of cardboard drying - Part 2: Simulations and experimental results

    Karlsson, M. & Stig Stenström, 2005, In : Drying Technology. 23, 1-2, p. 165-186

    Research output: Contribution to journalArticle

  16. Transport equations for moist air at elevated wet bulb temperatures

    Berg, C. G. A., Kemp, I. C., Stig Stenström & Wimmerstedt, R., 2004, In : Drying Technology. 22, 1-2, p. 201-224

    Research output: Contribution to journalArticle

  17. An experimentally simple method for measuring sorption isotherms

    Lars Wadsö, Svennberg, K. & Dueck, A., 2004, In : Drying Technology. 22, 10, p. 2427-2440

    Research output: Contribution to journalArticle

  18. Simulation of Convective Drying of Wet Porous Materials,

    Hashimoto, A., Stig Stenström & Kameoka, T., 2003, In : Drying Technology. 21, 8, p. 1411-1431

    Research output: Contribution to journalArticle

  19. Modelling of heat transfer in hot pressing and impulse drying of paper

    Nilsson, J. & Stig Stenström, 2001, In : Drying Technology. 19, 10, p. 2469-2485

    Research output: Contribution to journalArticle

  20. Modeling and correlating the permeability of pulp and paper

    Nilsson, L. & Stig Stenström, 1997, In : Drying Technology. 15, 6-8, p. 1845-1855

    Research output: Contribution to journalArticle

  21. Heat and Mass Transfer Coefficients in Computer Simulation of Paper Drying

    Wilhelmsson, B. & Stig Stenström, 1995, In : Drying Technology. 13, 4, p. 959-975

    Research output: Contribution to journalArticle

  22. Evaluation of the Energy Efficiencies for a Gas Heated Infrared Paper Dryer

    Stig Stenström & Johansson, M., 1995, In : Drying Technology. 13, 5-7, p. 1345-1358

    Research output: Contribution to journalArticle

  23. A test of different methods to evaluate the diffusivity from unsteady-state sorption measurements

    Lars Wadsö, 1994, In : Drying Technology. 12, 8, p. 1863-1876

    Research output: Contribution to journalArticle

  24. The diffusion of water vapour through pulp and paper

    Nilsson, L., Wilhelmsson, B. & Stig Stenström, 1993, In : Drying Technology. 11, 6, p. 1205-1225

    Research output: Contribution to journalArticle

  25. Surface mass transfer coefficients for wood

    Lars Wadsö, 1993, In : Drying Technology. 11, 6, p. 1227-1249

    Research output: Contribution to journalArticle

  26. Simulation models of multi-cylinder paper drying

    Wilhelmsson, B., Nilsson, L., Stig Stenström & Wimmerstedt, R., 1993, In : Drying Technology. 11, 6, p. 1177-1203

    Research output: Contribution to journalArticle

  27. Evaluation of Equations Approximating Thermodynamic and Transport Properties of Water, Steam and Air for Use in CAD of Drying Processes

    Pakowski, Z., Bartczak, Z., Strumillo, C. & Stig Stenström, 1991, In : Drying Technology. 9, 3, p. 753-773

    Research output: Contribution to journalArticle

  28. Review article
  29. Drying of biofuels from the forest—A review

    Stig Stenström, 2017 Jul 27, In : Drying Technology. 35, 10, p. 1167-1181 15 p.

    Research output: Contribution to journalReview article