Design and Optimization of Cooling System for Tracked Vehicle Powerpack

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Military tracked vehicles are deployed in severe environmental and loading conditions during Military operations. The space availability and high heat rejection sources makes the cooling system design a challenging task by offering little margin in design parameters. This paper presents prime aspects of the design methodology i.e. packaging of cooling system aggregates in available space, optimizing air flow, numerical simulation and also the evaluation of cooling system performance on a test bench in simulated vehicle conditions and during field trials. During preliminary design stage virtual prototyping approach was adopted which helped to make critical decisions earlier in the development stage before physical prototyping. Further, sensitivity study of size of heat exchangers, layout of fan-heat exchangers and its effect on overall system resistance was studied. Data from field trials were gathered and analysed. We established a good correlation of thermal data from field trials in collaboration with CVRDE and data evaluated based on numerical simulations. This approach and close correlation between the theoretical and field data will be helpful in achieving all future developments of Tracked Vehicle Powerpacks, first time right.

Keywords: Tracked vehicle, Military Vehicle, Cooling System, Radiator, Charged Air Cooler, Hydraulic Oil Cooler, Fan, Powerpack, Numerical Analysis, CFD, Simulation, Digital Prototype.

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  • ABOUT THE ENTRANT

  • Name:
    Sachin Wagle
  • Type of entry:
    team
    Team members:
    Sachin Wagle
    Jayesh Namjoshi
    Murtuza Kundawala
    Manoj Srivastava
  • Profession:
    Engineer/Designer
  • Number of times previously entering contest:
    2
  • Sachin's favorite design and analysis tools:
    Unigraphics
  • Sachin's hobbies and activities:
    Playing Music on flute & Keyboard, wandering, Poem
  • Sachin belongs to these online communities:
    linkedin
  • Sachin is inspired by:
    I can dream; I can dream anything I want to.
  • Software used for this entry:
    ANSYS HYPERMESH
  • Patent status:
    pending