Building on our February webinar on heat pumps, this session delves into more advanced systems. We’ll explore reversible and polyvalent heat pump configurations and how to integrate both into the ultimate hybrid full-electric system.
Join us as we share best practices and design principles for maximizing heat pump system performance:
- Design of Reversible and Polyvalent Heat Pumps
- Explanation of reversible heat pumps
- Key components and working principles
- Advantages and applications
- Examples of Various Heat Pumps
- Benefits and desing constraints
- CO₂ Heat Pumps
- Propane Heat Pump
- Sewage Heat Pumps
- CO₂ Heat Pumps
- Benefits and desing constraints
- Residential Building Case Study
- Overview of multiple heat pump configurations
- Centralised vs. Decentralised heating/DHW
- BTES with or without drycooler
- Overview of multiple heat pump configurations
Whether you’re an HVAC Engineer, M&E Consultant, Installer, Design & Build Contractor, ESCO, or simply interested in the latest HVAC technologies, everyone is welcome to join!
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An Introduction to Air Handling
Understanding air handling units and their role in HVAC systems is crucial for maintaining indoor air quality. In this webinar, we'll explore the different types of AHUs, delve into the Mollier/HX diagram, and discuss key topics such as VAV/CAV systems and CO₂ control.
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Designing Changeover Systems
In changeover systems, the same thermal end units or even the same hydraulic network are used for both heating and cooling purposes. This makes them attractive from an investment standpoint but significantly increases the complexity of calculations.
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Improving Pump Energy Savings
Replacing old pumps by new pumps can generate energy savings up to 45% simply due to improved pump and motor efficiency. However, by looking beyond the pump itself, up to 95% of pump energy savings can be achieved by also optimising pump controls, valve selection, pump (de)centralisation, and more.