@misc{8023,
  abstract     = {{The effect of jet Reynolds number, jet exit angle, the nozzle to surface distance, jet to jet spacing on the heat transfer, and pressure force performance from multiple impinging round jets on a moving curved surface have been numerically evaluated. Two correlations are developed and validated for the average Nu number and the pressure force coefficient and the agreement between the CFD and correlations was reasonable. The surface motion effect becomes more pronounced on the Nu number distribution for low jet Re number, high jet to jet spacing, large jet to surface distance, and angled jets. The pressure force coefficient is highly dependent on the jet to surface distance and jet angle but relatively insensitive to jet Re number and jet to jet spacing. }},
  author       = {{Chitsazan, Ali and Klepp, Georg Heinrich and Glasmacher, Birgit}},
  booktitle    = {{Frontiers in heat and mass transfer : FHMT ; an international journal }},
  issn         = {{2151-8629}},
  keywords     = {{Angled jets, Heat transfer, Pressure force, Surface motion, Curvature, Correlation}},
  number       = {{1}},
  publisher    = {{Global Digital Centra}},
  title        = {{{CORRELATION DEVELOPMENT FOR JET IMPINGEMENT HEAT TRANSFER AND FORCE ON A MOVING CURVED SURFACE}}},
  doi          = {{10.5098/hmt.18.16}},
  volume       = {{18}},
  year         = {{2022}},
}

@misc{8024,
  abstract     = {{For the optimization of the impinging round jet, the pressure force coefficient and drying energy consumption on the moving curved surface are set as the objective functions to be minimized simultaneously. SHERPA search algorithm is used to search for the optimal point from multiple objective tradeoff study (Pareto Front) method. It is found that the pressure force coefficient on the impingement surface is highly dependent on the jet to surface distance and jet angle, while the drying energy consumption is highly dependent on the jet to jet spacing. Generally, the best design study during the multi-objective optimization is found at the maximum jet to surface distance, jet to jet spacing and surface velocity, and also minimum inlet velocity and jet angle. }},
  author       = {{Chitsazan, Ali and Klepp, Georg Heinrich and Chitsazan, Mohammad Esmaeil and Glasmacher, Birgit}},
  booktitle    = {{Frontiers in heat and mass transfer : FHMT ; an international journal }},
  issn         = {{2151-8629}},
  keywords     = {{Multiple jets, Heat transfer, Pressure force, Energy consumption, Optimization}},
  publisher    = {{Global Digital Centra}},
  title        = {{{MULTI-OBJECTIVE OPTIMIZATION OF DRYING ENERGY CONSUMPTION AND JET IMPINGEMENT FORCE ON A MOVING CURVED SURFACE}}},
  doi          = {{10.5098/hmt.18.17}},
  volume       = {{18}},
  year         = {{2022}},
}

@misc{8025,
  author       = {{Chitsazan, Ali and Klepp, Georg Heinrich and Glasmacher, Birgit}},
  booktitle    = {{Frontiers in Heat and Mass Transfer}},
  issn         = {{2151-8629}},
  publisher    = {{Global Digital Centra}},
  title        = {{{NUMERICAL STUDY OF JET IMPINGEMENT FORCE AND HEAT TRANSFER ON A MOVING CURVED SURFACE}}},
  doi          = {{10.5098/hmt.18.15}},
  volume       = {{18}},
  year         = {{2022}},
}