Heat Pump COP Calculator – Coefficient of Performance
Calculate the Coefficient of Performance (COP) for heat pumps and compare to Carnot efficiency.
Calculate Actual COP
COP = Heat Output / Power Input. If your heat pump delivers 4 kW of heat using 1 kW of electricity, COP = 4. This means you get 4 units of heat for every unit of electricity.
Find Carnot COP Limit
Carnot COP = T_hot / (T_hot - T_cold) using absolute temperatures (Kelvin). This is the theoretical maximum efficiency any heat pump can achieve between those temperatures.
Determine Efficiency Percentage
Efficiency = (Actual COP / Carnot COP) × 100%. Real heat pumps achieve 30-60% of Carnot efficiency. Higher percentages indicate better engineering and less energy waste.
**Energy Efficiency Rating**
COP directly measures efficiency. A COP of 3 means 300% efficiency – you get 3 kW of heat for 1 kW of electricity. Higher COP means lower operating costs and reduced carbon footprint.
**Temperature Dependence**
COP decreases as the temperature difference increases. Air source heat pumps have lower COP in winter. Ground source systems maintain higher COP year-round due to stable ground temperatures.
**Carnot Limit Benchmark**
Carnot COP sets the theoretical maximum. Comparing actual COP to Carnot reveals how well-engineered the system is. Modern heat pumps reach 50-60% of Carnot efficiency.
**Cost Savings Calculator**
Higher COP means lower electricity bills. A COP 4 heat pump costs 1/4 as much to run as electric resistance heating. Compare COP values when shopping for heat pump systems.
Typical COP Values by Heat Pump Type
| Heat Pump Type | Typical COP | Best Conditions | Notes |
|---|---|---|---|
| Air Source (mild) | 3.0-4.0 | 7°C outside | Most common residential type |
| Air Source (cold) | 2.0-2.5 | -7°C outside | COP drops in winter |
| Ground Source | 3.5-5.0 | 10°C ground | Stable year-round performance |
| Water Source | 4.0-5.5 | 15°C water | Highest efficiency option |
| CO2 (R744) | 3.0-4.5 | Hot water heating | Eco-friendly refrigerant |
What is a good COP for a heat pump?
A COP of 3.0 or higher is considered good for air source heat pumps. Ground source systems should achieve COP 4.0+. Modern premium units reach COP 5.0+ under ideal conditions.
Why does COP decrease in cold weather?
Larger temperature difference between source and sink requires more work. The compressor must raise refrigerant temperature more, consuming more electricity. This is why ground source maintains better winter COP.
Is COP the same as efficiency?
COP can exceed 100% because it measures heat moved, not heat created. A COP of 4 equals 400% "efficiency" – but this isn't free energy. The extra heat comes from the outdoor environment.
What affects heat pump COP?
Source temperature, sink temperature, refrigerant type, compressor efficiency, heat exchanger design, and system maintenance all affect COP. Proper sizing and installation are critical for optimal performance.
How is COP different from HSPF?
COP is instantaneous efficiency at specific conditions. HSPF (Heating Seasonal Performance Factor) is seasonal average efficiency over a heating season. HSPF accounts for varying outdoor temperatures.
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