Perform a costing analysis for building ventilation and cooling systems.
Calculate fan sizes to meet specific room air volume flow requirements.
Perform cooling tower sizing using industry standard heat transfer models.
Design and optimise efficiency of vapour compression and refrigeration cycles.
Size restrictors and dampers to obtain the required flow distribution in complex systems such as high speed railway passenger car air conditioning systems.
Include the effect of heat loads such as occupation numbers, IT equipment or building thermal environment in your HVAC system design.
Investigate the effect of varying environmental conditions on room conditions (such as relative humidity, wet bulb and dry bulb temperature) and evaluate the effectiveness of possible design changes.
Our product offers a comprehensive thermodynamics and flow solver as well as an extensive HVAC component library and advanced fluid models for almost any HVAC component design or system layout. It challenges learners to master diagnostic and troubleshooting skills across seven pieces of HVAC equipment Gas Furnace, Oil Furnace, Gas Boiler, Split Residential A/C, Commercial A/C, Heat Pumps. Base on simulation results obtain, we are able to Optimize optimal distribution of air supply outlets, air diffusers, ceiling flow bars throughout the different parts of buildings needed to ensure proper air delivery in large or. The optimisation of unique HVAC systems can easily be done through Flownex ® SE to achieve the optimum flow distribution and maximum energy efficiency. DELMAR ONLINE TRAINING SIMULATION: HVAC 3.0 is a 3-D, immersive simulation that offers a rich learning experience that mimics field performance. HVAC simulation is able to analyze the flow performance of the existing and proposed HVAC air distribution system. Flownex ® Simulation Environment provides you with a complete solution tool to design an HVAC system and its components for precise temperature, humidity and pressure requirements.