- Building Design
- Building Safety
- Data Centre
- Plumbing & Pipework
- Water
Data Centre;Water;Building Design;Plumbing & Pipework;Building Safety
Robert Green: UK Technical Training Manager
Dean Richmond: Regional Head of Project Sales
Derek Brown: Regional Head of Project Sales
Oliver Jones: Senior Sales Engineer
Simon Meszaros: Senior Sales Engineer
Jonathan Szostak: Senior Sales Engineer
Jody Smith: Senior Sales Engineer
All speakers have a minimum of 10 years' experience in the design and specification of Hydronic HVAC systems.
Dean Richmond: Regional Head of Project Sales
Derek Brown: Regional Head of Project Sales
Oliver Jones: Senior Sales Engineer
Simon Meszaros: Senior Sales Engineer
Jonathan Szostak: Senior Sales Engineer
Jody Smith: Senior Sales Engineer
All speakers have a minimum of 10 years' experience in the design and specification of Hydronic HVAC systems.
3
Seminars or Webinars
1 hr
Free of Charge
01/10/2023
30/09/2025
Minimum controllable power in variable flow systems
The IMI minimum controllable power CPD covers calculations and data for investigating minimum controllable power in variable volume HVAC systems.
The following subjects will be covered to gain an understanding of the time spent in min. power situations and how these can have an effect on system control and efficiency:
• Seasonal load variation: How the power demand will vary depending on external conditions. How long we are likely to spend in a reduced power demand for a building.
• System characteristic: How do differing temperature regimes effect the relationship between flow and power in a HVAC system
• Minimum controllable flow: How can the mechanical design of a system effect the minimum controllable flow and how will this affect the minimum controllable power
• A brief overview on control stability when operating below the min. power of a system
The IMI minimum controllable power CPD covers calculations and data for investigating minimum controllable power in variable volume HVAC systems.
The following subjects will be covered to gain an understanding of the time spent in min. power situations and how these can have an effect on system control and efficiency:
• Seasonal load variation: How the power demand will vary depending on external conditions. How long we are likely to spend in a reduced power demand for a building.
• System characteristic: How do differing temperature regimes effect the relationship between flow and power in a HVAC system
• Minimum controllable flow: How can the mechanical design of a system effect the minimum controllable flow and how will this affect the minimum controllable power
• A brief overview on control stability when operating below the min. power of a system