Heat Loss Calculator – Cost Calculator | Online Quote & Profit Estimator

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Professional Heat Loss Calculator

Calculate the required heating power (Watts/BTUs) for your room

1. Room Dimensions

Room Length (meters)

Room Width (meters)

Ceiling Height (meters)

2. Temperatures

Desired Indoor Temp (°C)

Outside Design Temp (°C)

Air Changes per Hour (ACH) 0.5 (Well Sealed/New) 1.0 (Average House) 1.5 (Drafty/Old) 2.0 (Very Drafty)

3. Insulation (U-Values)

External Walls U-Value Insulated: 0.3, Solid Brick: 2.0

Windows U-Value Double Glaze: 1.6, Single: 4.8

Total Window Area (m²)

4. Floor & Roof

Roof U-Value Well Insulated: 0.15 – 0.25

Floor U-Value Insulated: 0.25, Suspended Timber: 0.7

Estimated Heat Loss

Watts

0 BTU/hr

Understanding Room Heat Loss

Heat loss is the measure of total transfer of heat through the fabric of a building from the inside to the outside. Whether you are sizing a new radiator, installing underfloor heating, or upgrading a boiler, calculating heat loss is the most critical step to ensure comfort and energy efficiency.

The Heat Loss Formula

The core calculation for fabric heat loss is defined by the formula:

Q = U × A × ΔT

Q: Heat loss in Watts (W)
U: The U-value of the material (W/m²K)
A: The surface area (m²)
ΔT: The temperature difference between inside and outside (°C)

What are U-Values?

A U-value measures how effective a material is as an insulator. The lower the U-value, the better the material is at keeping heat inside your home. For example, a modern highly insulated wall might have a U-value of 0.18, whereas an old solid stone wall could be as high as 2.1.

Building Element	Typical U-Value (Poorly Insulated)	Typical U-Value (Highly Insulated)
External Walls	2.0 – 2.2	0.18 – 0.30
Windows	4.8 (Single)	1.2 (Triple)
Roof / Loft	2.5	0.13 – 0.20
Ground Floor	0.8	0.20 – 0.25

Ventilation and Air Infiltration

Not all heat is lost through walls. A significant portion escapes through gaps in windows, doors, and floorboards, or through intentional ventilation. Our calculator accounts for this using the "Air Changes per Hour" (ACH) method. Ventilation loss is calculated by multiplying the room volume by the air density and specific heat capacity (roughly 0.33 coefficient for standard conditions).

Example Calculation

Consider a room 5m long, 4m wide, and 2.5m high. If the outside temperature is -5°C and you want it to be 21°C inside (a 26°C difference):

Wall Loss: 42m² (total wall minus windows) × 0.3 U-value × 26ΔT = 327.6 Watts
Window Loss: 3m² × 1.6 U-value × 26ΔT = 124.8 Watts
Ventilation Loss: (50m³ volume × 1 ACH) × 0.33 × 26ΔT = 429 Watts

Summing all elements gives the total wattage required to maintain the temperature during peak winter conditions.