COP, EER, SCOP y SEER: significado y utilidad de estos parámetros 23 marzo 2019 30 noviembre 2017 Los términos COP y EER, que hace unos años se sustituyeron por SCOP y SEER, se utilizan para determinar la eficiencia energética de los equipos de aire acondicionado o bomba de calor. What is Seasonal Energy Efficiency Ratio? The higher the measurement of energy efficiency rating is, the more energy you save! The term EER stands for Energy Efficiency Ratio and can be defined as the ratio of cooling capacity (measured in Btu) to the amount of energy consumed (Wh). EER (Energy Efficiency Ratio) = Evaporator Cooling Capacity (kW) / Total Energy Expended (kW) Calculation of EER Value. Básicamente los parámetros EER y SEER se refieren a la eficiencia del equipo en refrigeración y los parámetros COP y SCOP al rendimiento energético en calefacción. A = COP or EER @ 100% Load. As you can see from the above description, SEER applies to cooling units. C = COP or EER @ 50% Load. SEER rating, Seasonal Energy Efficiency Ratio, measures the ratio between the cooling output over a typical cooling season divided by the consumed energy for that same season. – COP = 10551/3600= 2.93 • So for every 2.93 units of heat removed the system uses on unit of energy. November 30, 2020 BryanOrr No Comments. • Conversion Formula : COP = EER x 0.293 • The COP represents the cooling effect in btu's or watts of a refrigerant cycle, compared to the btu or watts equivalent of … All of these ratings are a calculation of how much energy you have to put into a system in … Let’s get through all of the jargon and try to get to the point as quickly as possible. SCOP (Seasonal Coefficient of Performance) geeft het seizoensgebonden rendement weer en bepaalt de energieklasse van de warmtepomp in verwarmingsmodus. Definition 3: COP, coefficient of performance: COP is defined as the cooling load, in kW, to power input at the compressor, in kW. So, if you are designing for a space with somewhat constant internal loads that are independent of outdoor air temperature, EER is a good indicator. Then equality can be written as. The definition is very close to EER, but the units are different. ... (COP). EER & COP vs. SEER & HSPF. SEER of 13 is approximately equivalent to a COP of 3.43, which means that 3.43 units of heat energy are removed from indoors per unit of work energy used to run the heat pump. D = COP or EER @ 25% Load. SEER (Seasonal Energy Efficiency Ratio) geeft de seizoensgebonden waarde van de energie-efficiëntie van het product weer en bepaalt zijn energieklasse in koelmodus. B = COP or EER @ 75% Load. When we talk about the size of an HVAC system, we refer to its output capacity. These measurements are in SEER (central air conditioner units, Heat Pump cooling season), EER (window unit), HSPF (Heat Pump), AFUE (Furnace, boilers) and COP (heat pump, chiller). Useful information about EER, SEER, and COP: Classification of energy consumption of heating and cooling devices is determined by COP and EER values. Cuantos más altos sean, mejor eficiencia tendrá el equipo que vayamos a comprar, pero también su costo será más elevado. Tienes razón Albert, los COP solían ser mayores que los EER y ahora los SEER son mayores que los SCOP. SEER = EER ÷ 0.9 SEER = COP x 3.792 EER = COP x 3.413 . No se el motivo exacto pero supongo que el funcionamiento al 100% penaliza más a la generación de frío que la generación de calor, por lo tanto cuando vamos a otras capacidades (47%) la generación de frío es mucho más eficiente y se obtiene un SEER mas alto. The EER value is used for cooling purposes only.