Refrigeration COP and Carnot Limit

The fundamental cycle efficiency seer-eer never reads: COP = (h1 - h4)/(h2 - h1), the refrigeration effect over the compressor work, against its Carnot ceiling T_evap/(T_cond - T_evap) in absolute temperature. A cycle with 60 Btu/lb effect and 25 Btu/lb work runs COP 2.40 (EER 8.19); against a Carnot 6.25 for a 40/120 F lift it is 38% of ideal. A smaller lift - a higher evaporator, a cooler condenser - raises the ceiling, the lever for efficiency. Enter the P-h enthalpies; no parasitic loads. An engineering aid; the property data and state points govern.

Run the calculator

Formula and source

COP = (h1 - h4)/(h2 - h1); COP_Carnot = (Tevap + 459.67)/((Tcond + 459.67) - (Tevap + 459.67)); eta_2nd = COP/COP_Carnot; EER = 3.412 COP.

The cooling coefficient of performance, its Carnot ceiling, the second-law efficiency, and the EER relation, standard refrigeration-cycle definitions, by name.

Audience

This tile is built for hvac and the adjacent professions in the HVAC group. The interactive calculator runs entirely in your browser. No account, no fee, no advertising, no tracking.

Related tools

Posture

Rough Logic answers the math question the working professional asks on the job. The site is a calm, fast, ad-free, account-free, ever-free reference. It does not interpret code. It does not replace the licensed professional. It does not store your inputs. The Authority Having Jurisdiction governs all installations and inspections.