White paper: Optimizing the design of HVACR Systems

Optimizing the design of HVACR Systems to address New-age challenges

Most people spend over 90% of their time indoors, so a healthy indoor environment is essential to their well-being. The COVID-19 pandemic also put a focus on clean indoor air with better circulation bringing HVACR systems.

The built environment generates a staggering 39% of all global greenhouse gas emissions that has put a greater focus on sustainability and decarbonization in the industry. Building codes also move towards reducing energy poverty by ensuring ‘cooling for all’ driving use of HVACR systems and demand for more performant systems that create a smaller environmental footprint.

So HVACR systems today need to work harder than ever before, making it important to have effective simulation solutions to develop them and ensure their safe and reliable operation.

What to expect for the white paper

This white paper covers the use of Computational Fluid Dynamics (CFD) to reduce energy consumption – reducing CO2 emissions – and increase HVACR systems performance while ensuring it produces a safe, high-comfort environment.

It covers topics such as fan performance, system noise reduction, heat exchanger design, disinfection with UV light, thermal comfort, electrics cooling, 3D scanning of existing buildings, the use of Artificial Intelligence and Machine learning for a real-time Digital Twin model, use of virtual reality (VR) and augmented reality (AR), and how to reach a 10X productivity gain of CFD simulations.

To download our white paper for free, simply fill in the form. We hope you find this resource valuable and informative!

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Our Privacy Notice describes how we process Personal Data about you. It also provides information on how you may exercise any of your rights as a Data Subject. You have the right to withdraw your consent at any time by clicking on the "Unsubscribe" link within the electronic marketing communications sent to you. By submitting this form, you agree to our Terms of Use.

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