Difference between revisions of "Solar Heat Energy Demonstrator"
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* Detailed design of pipework and equipment | * Detailed design of pipework and equipment | ||
== Sizing == | |||
=== Bivalent Systems === | |||
Bivalent40kw.pdf | |||
{{#l:QAHV_6PP_AW_v2.pdf}} | |||
https://hw7.ddns.net/ui/hndesign?loadCID=QmNg4trTmoxkD35qj4eBWd1exKwKfbVpP3jRNgEQwZn4qB | |||
== Heat Pump Selection == | == Heat Pump Selection == |
Revision as of 23:55, 10 June 2022
To Do:
- Site visit
- Review designs and calculate loads
- Produce schematic of proposed design
- Detailed design of pipework and equipment
Sizing
Bivalent Systems
Bivalent40kw.pdf
https://hw7.ddns.net/ui/hndesign?loadCID=QmNg4trTmoxkD35qj4eBWd1exKwKfbVpP3jRNgEQwZn4qB
Heat Pump Selection
Specifically designed for commercial sanitary hot water application, where gas boilers, combined heat and power systems (CHP) or electric water heating have been traditionally utilised, the QAHV provides a low carbon solution for hospitals, hotels, leisure centres and student accommodation. Utilising the natural and stable refrigerant CO2 (R744), the environmentally clean solution enables compliance to strict local planning laws and boosts BREEAM points. Compounded by the increasing decarbonisation of the electrical grid and the UK’s commitment to Net Zero 2050, the QAHV provides a high efficiency, low carbon hot water delivery solution with leaving water temperature up to 90°C.
QAHV_6PP_AW_v2
QAHV-N560YA-HPB_Service_Manual
QAHV-N560YA-HPB_Install_Manual
QAHV-N560YA-HPB-PI-SHEET