🔥 Heat Pump Designer
MCS Certified
0330 113 1333
1
Property
2
Rooms
3
Review
4
Results
Design Your Heat Pump System
Professional BS EN 12831-1:2017 compliant heat loss calculation
🏠
Detached
🏡
Semi-detached
🏘️
Mid-terrace
🏚️
End-terrace
🏢
Flat
💡
Next: We'll conduct a detailed room-by-room heat loss survey. Add each room individually with dimensions, walls, windows, and radiators.
📐 Add Room Details
Room 1
🧱 Walls
🪟 Windows
📻 Radiators (Current)
Room Heat Loss Calculation
20.0 m²
0 W
0 W
📋 Review Your Survey
Check all room details before generating the system design
ℹ️
Survey Summary: Review all room details before generating the final system design.
🏠 Property Details
📐 Rooms Surveyed
📊 Total Property Heat Loss
0 W
(0.0 kW) @ Design Conditions (-3°C)
Heat Loss Density: 0 W/m²
✅
MCS Compliance: This calculation follows BS EN 12831-1:2017 standards and is suitable for Boiler Upgrade Scheme applications.
🎯 Your Heat Pump System
Complete MCS-compliant heat pump design based on your property
Heat Pump Size
0 kW
Required capacity @ -3°C
Hot Water Cylinder
0 L
Recommended capacity
Est. System Cost
£0
Including installation
Annual Savings
£0
vs gas boiler
📊 System Breakdown
Total Heat Loss: 0 W
Property Size: 0 m²
Total Rooms: 0
Design Temperature: -3°C external
🔧 Recommended Equipment
Air Source Heat Pump:
0 kW outdoor unit
Flow temperature: 50-55°C for optimal efficiency
SCOP: 3.5+ (Seasonal Coefficient of Performance)
Hot Water Cylinder:
0 litre unvented cylinder
Suitable for 0 occupants with 0 bathroom(s)
Additional Components:
- Buffer tank (100L recommended)
- Weather compensation controls
- Smart thermostat with zone control
- Upgraded pipework and insulation
💡
Grant Available: Up to £7,500 available through the Boiler Upgrade Scheme (BUS) for heat pump installations.
✅
MCS Certified Design: This system design is compliant with MCS standards and eligible for government grants.