Heat Loss & Radiator Size
Estimate room heat loss and the radiator catalogue output to look for.
Method: room heat-loss and radiator Delta T estimate
Estimate the heat output a room needs, then convert that load into the radiator catalogue output to look for.
Estimate room heat loss and the radiator catalogue output to look for.
Method: room heat-loss and radiator Delta T estimate
A quick radiator sizing estimate starts with the room volume: length x width x height. The calculator multiplies that volume by a W/m3 heat-loss factor and then adjusts it for the indoor-to-outdoor design temperature difference.
Use the room preset as a revision shortcut. An insulated or internal room uses a lower W/m3 allowance; an older, exposed or draughty room uses a higher allowance. A full design would break the room down into walls, windows, roof, floor, ventilation and infiltration losses.
Radiator catalogues often quote output at Delta T50. If the system runs at lower flow and return temperatures, the same radiator gives less heat. The calculator uses a standard exponent-style correction so a Delta T40 or Delta T30 system shows the larger Delta T50 catalogue output you would need to look for.
Treat the result as a sizing sense-check for revision and early planning. Real selection still depends on the building fabric, design temperatures, emitter data, hydraulic design, controls and current manufacturer instructions.
A 4 m x 3 m room with a 2.4 m ceiling has a volume of 28.8 m3. With the average 40 W/m3 preset and a 21C indoor / -3C outdoor design difference, estimated heat loss is 28.8 x 40 = 1.15 kW, or about 3,930 BTU/h. At Delta T40, the radiator catalogue output needed at Delta T50 is about 1.54 kW because lower-temperature operation reduces emitter output.
Use this worksheet to record the inputs behind a radiator output estimate before checking manufacturer data.
| Worksheet line | Record | Why it matters |
|---|---|---|
| Room dimensions | Length, width and height | Sets the heated room volume |
| Design temperatures | Indoor target and outdoor design value | Controls the heat-loss temperature difference |
| Room exposure | Internal, insulated, average, older or exposed | Chooses a realistic W/m3 allowance |
| Heat loss | kW and BTU/h | Sets the room output the emitter must cover |
| Emitter Delta T | Delta T50, Delta T40, Delta T30 or custom | Lower-temperature systems need larger emitters |
| Catalogue output | Radiator output at Delta T50 | Lets you compare common manufacturer tables |
| Final checks | Wall space, valves, pipework and controls | A heat output number is not the whole design |
Do not use this worksheet as a replacement for a room-by-room design calculation. It is a transparent revision estimator and product-table sense-check.
You need enough output to match the room heat loss. Enter the room size, design temperatures and room condition, then use the BTU/h result as a first-pass radiator output estimate.
Delta T50 means the radiator output was rated with the radiator mean water temperature 50C above room temperature. Lower Delta T operation gives less heat from the same radiator.
The temperature difference between radiator and room is smaller, so heat transfer falls. To deliver the same room heat loss, the Delta T50 catalogue output normally has to be higher.
No. It is a revision and early-planning estimator. A full design checks each building element, ventilation losses, emitter data, controls, flow temperatures and manufacturer instructions.
Method: room heat-loss and radiator Delta T estimate
Training & revision aids — live installations follow the full standard, the manufacturer’s instructions and calibrated instruments.