Innovation and collaborative, synchronized program management for new programs
Balancing space, efficiency, performance, and durability of HVAC systems is a complicated multi-objective optimization challenge and requires exhaustive iterations to reach an ideal design. Moreover evolving refrigerant requirements and infrastructure changes, such as retire ozone-depleting refrigerants with neutral ones, on-site power generation, waste recovery system, filtration and air quality monitoring, and cost-effective reversible heat pumps add additional research burden on HVAC manufacturers and building developers.
To effectively handle complexity and retain efficiency during the engineering process. Siemens Digital Industries Software delivers a modular approach to creating a database of standard components, system architecture, scalable layouts and deploys it across the broader organization.
Balancing space, efficiency, performance, and durability of HVAC systems is a complicated multi-objective optimization challenge and requires exhaustive iterations to reach an ideal design. Moreover evolving refrigerant requirements and infrastructure changes, such as retire ozone-depleting refrigerants with neutral ones, on-site power generation, waste recovery system, filtration and air quality monitoring, and cost-effective reversible heat pumps add additional research burden on HVAC manufacturers and building developers.
To effectively handle complexity and retain efficiency during the engineering process. Siemens Digital Industries Software delivers a modular approach to creating a database of standard components, system architecture, scalable layouts and deploys it across the broader organization.
Heating, ventilation, and air conditioning (HVAC) systems often consist of several components including the compressor, valves, pumps, fans, air handling units (AHUs), and fan coil units (FCUs) with each having individual performance characteristic curves. Ensuring optimal performance of the HVAC system over a broad-spectrum of operating loads imposes specific component customization and sizing challenges. Customizing an individual component’s design is cost-prohibitive.
The integrated multi-physics solutions of Siemens Digital Industries Software enables HVAC manufacturers to build uniquely customizable products and scalable techniques using a modular approach. Using the modular approach, the HVAC manufactures can capitalize on simulation experience and deploy the methodology to various engineering centers thereby standardize permissible configurations, mitigate risk, eliminate repetitive tasks, and excel at product innovation.
Accelerate product development and solve the toughest problems with scalable help from engineering and consulting services.
Simulate almost any engineering problem that involves the flow of liquids, gases (or a combination of both), together with all of the associated physics.
Maximize field reliability by performing fully automated active power cycling on modules and discrete, combined with JEDEC-standard compliant thermal impedance measurements.
Address your HVAC engineering design challenge using multi-level philosophy combining system data and end-user expectations.
Bronswerk Heat Transfer uses Simcenter FLOEFD to locate pressure losses.
Newer machines are cyber-physical systems embedded with smartness and automation capabilities. Building such machines require a holistic multi-doma...