Ventilation & Comfort Modeling
Developing heating, ventilation and air conditioning (HVAC) systems takes into account factors such as room temperature, humidity and expected occupancy as well as heat loss through doors, windows and walls. Understanding air flow in a building, vehicle or any other environment is key to creating the best design of an HVAC system.
Cost containment and eco-friendliness are important considerations as well. Virtual modeling gives engineers the opportunity to test a large number of options in a short period of time. In this way, designers can come up with the most cost-effective, energy-efficient, comfortable and appropriate system possible.
Software from ANSYS helps engineers model and analyze the complex geometries of a room or structure; at the same time, it offers powerful meshing utilities and CAD integration.
Courtesy GTD GmbH and University of Sheffield.
Whether the project requires a simple analysis of room dynamics or more complex situations in which temperature, moisture, acoustics or sustainability must be considered, ANSYS software offers:
- A wide range of turbulence models including RANS and LES
- State-of-the-art grey and spectral radiation solvers that consider short-wave and long-wave radiation, window performance, shading, and solar gain
- Conjugate heat transfer capabilities
- Full one-way and two-way thermal and mechanical coupling of fluid and structural models for assessment of wind-induced distortion and vibrations
All of these features help engineers develop systems that result in ideal conditions. For instance, data centers require adherence to minimum/maximum temperatures, while noise dampening is a key factor in concert halls. An ice hockey stadium requires a combination of freezing conditions close to the ice yet a comfortable environment in seating and concession areas.
The multiphysics solutions from ANSYS lead designers to the best HVAC system solution based on input parameters, which range from room specifications to the activity of its occupants. The net result is faster approval of building designs, reduced risk of cost overruns, and on-target construction.
Courtesy Cairo University, post-processing courtesy Maciej Ginalski.