‘air heating product’ means a device that:

A heat generator designed for an air heating product and an air heating product housing designed to be equipped with such a heat generator shall, together, be considered as an air heating product;

‘air-based heating system’ means the components and/or equipment necessary for the supply of heated air, by means of an air-moving device, either through ducting or directly into the heated space, where the purpose of the system is to attain and maintain the desired indoor temperature of an enclosed space, such as a building or parts thereof, for the thermal comfort of human beings;

‘heat generator’ means the part of an air heating product that generates useful heat using one or more of the following processes:

‘cooling product’ means a device that:

A cold generator designed for use in a cooling product and a cooling product housing designed to be equipped with such a cold generator shall, together, be considered as a cooling product;

‘air-based cooling system’ means the components or equipment necessary for the supply of cooled air, by means of an air-moving device, either through ducting or directly into the cooled space, in order to attain and maintain the desired indoor temperature of an enclosed space, such as a building or parts thereof, for the thermal comfort of human beings;

‘water-based cooling system’ means the components or equipment necessary for the distribution of chilled water and the transfer of heat from indoor spaces to chilled water, where the purpose of the system is to attain and maintain the desired indoor temperature of an enclosed space, such as a building or parts thereof, for the thermal comfort of human beings;

‘cold generator’ means the part of a cooling product that generates a temperature difference allowing heat to be extracted from the heat source, the indoor space to be cooled, and transferred to a heat sink, such as ambient air, water or ground, using a vapour compression cycle or a sorption cycle;

‘comfort chiller’ means a cooling product:

‘fan coil unit’ means a device that provides forced circulation of indoor air, for the purpose of one or more of heating, cooling, dehumidification and filtering of indoor air, for the thermal comfort of human beings, but which does not include the source of heating or cooling nor an outdoor side heat exchanger. The device may be equipped with minimal ductwork to guide the intake and exit of air, including conditioned air. The product may be designed to be built in or may have an enclosure allowing it be placed in the space to be conditioned. It may include a Joule effect heat generator designed to be used as back-up heater only;

‘high temperature process chiller’ means a product:

‘rated refrigeration capacity’ (P) means the refrigeration capacity that the high temperature process chiller is able to reach, when operating at full load and measured at an inlet air temperature of 35 °C for air-cooled high temperature process chillers and at an inlet water temperature of 30 °C for water-cooled high temperature process chillers, expressed in kW;

‘air-cooled high temperature process chiller’ means a high temperature process chiller, of which the heat transfer medium at the condensing side is air;

‘water-cooled high temperature process chiller’ means a high temperature process chiller, of which the heat transfer medium at the condensing side is water or brine;

‘biomass fuel’ means a fuel produced from biomass;

‘biomass’ means the biodegradable part of products, waste and residues of biological origin from agriculture (including vegetal and animal substances), forestry and related industries including fisheries and aquaculture, and the biodegradable fraction of industrial and municipal waste;

‘solid fuel’ means a fuel which is solid at normal indoor room temperatures;

‘rated heating capacity’ (P_rated,h ) means the heating capacity of a heat pump, warm air heater or fan coil units when providing space heating at ‘standard rating conditions’, expressed in kW;

‘rated cooling capacity’ (P_rated,c ) means the cooling capacity of a comfort chiller and/or air conditioner or fan coil units when providing space cooling at ‘standard rating conditions’, expressed in kW;

‘standard rating conditions’ means the operating conditions of comfort chillers, air conditioners and heat pumps under which they are tested to determine their rated heating capacity, rated cooling capacity, sound power level and/or emissions of nitrogen oxides. For products using internal combustion engines, this is the engine rpm equivalent (Erpm_equivalent );

‘leaving chilled water temperature’ means the temperature of the water leaving the comfort chiller, expressed in degree Celsius.

[F9‘conversion coefficient’ (CC) means a coefficient the value of which is CC = 2.5.]

‘gross calorific value’ (GCV) means the total amount of heat released by a unit quantity of fuel when it is burned completely with oxygen and when the products of combustion are returned to ambient temperature; this quantity includes the heat of condensation of any water vapour contained in the fuel and of the water vapour formed by the combustion of any hydrogen contained in the fuel;

‘global warming potential’ (GWP) means the climatic warming potential of a greenhouse gas relative to that of carbon dioxide (CO₂), calculated in terms of the 100-year warming potential of one kilogram of a greenhouse gas related to one kilogram of CO₂. GWP values considered are those set out in Annexes I, II and IV to Regulation (EU) No 517/2014. GWP values for mixtures of refrigerants shall be based on the method presented in Annex IV of the Regulation (EU) No 517/2014;

‘air flow rate’ means the air flow rate in m³/h measured at the air outlet of indoor and/or outdoor units (if applicable) of comfort chillers, air conditioners or heat pumps, and fan coil units at standard rating conditions for cooling, or heating if the product has no cooling function;

‘sound power level’ (L_WA ) means the A-weighted sound power level measured indoors and/or outdoors, at standard rating conditions, and expressed in dB;

‘supplementary heater’ means a heat generator of the air heating product that generates supplemental heat during conditions where the heating load exceeds the heating capacity of the preferred heat generator;

‘preferred heat generator’ means the heat generator of the air heating product that has the highest contribution in the total heat supplied over the heating season;

‘seasonal space heating energy efficiency’ (η_s,h ) means the ratio between the reference annual heating demand pertaining to the heating season covered by an air heating product, and the annual energy consumption for heating, corrected by contributions accounting for temperature control and the electricity consumption of ground water pump(s), where applicable, expressed in %;

‘seasonal space cooling energy efficiency’ (η_s,c ) means the ratio between the reference annual cooling demand pertaining to the cooling season covered by a cooling product, and the annual energy consumption for cooling, corrected by contributions accounting for temperature control and the electricity consumption of ground water pump(s), where applicable, expressed in %;

‘temperature control’ means equipment that interfaces with the end-user regarding the values and timing of desired indoor temperature and communicates relevant data, such as actual indoor and/or outdoor temperature(s), to an interface of the air heating or cooling product such as a central processing unit, thus contributing to the regulation of the indoor temperature(s);

‘bin’ (bin_j ) means a combination of an ‘outdoor temperature (T_j )’ and ‘bin hours (h_j)’, as set out in Annex III, Tables 26, 27 and 28;

‘bin hours’ (h_j ) means the hours per season, expressed in hours per year, at which an outdoor temperature occurs for each bin, as set out in Annex III, Tables 26, 27 and 28;

‘indoor temperature’ (T_in ) means the dry bulb indoor air temperature, expressed in degrees Celsius; the relative humidity may be indicated by a corresponding wet bulb temperature;

‘outdoor temperature’ (T_j ) means the dry bulb outdoor air temperature, expressed in degrees Celsius; the relative humidity may be indicated by a corresponding wet bulb temperature;

‘capacity control’ means the ability of a heat pump, air conditioner, comfort chiller or high temperature process chiller to change its heating or cooling capacity by changing the volumetric flow rate of the refrigerant(s), to be indicated as ‘fixed’ if the volumetric flow rate cannot be changed, ‘staged’ if the volumetric flow rate is changed or varied in series of not more than two steps, or ‘variable’ if the volumetric flow rate is changed or varied in series of three or more steps;

‘degradation coefficient’ ((C_dh ) for heating mode and (C_dc ) for cooling or refrigeration mode) means the measure of efficiency loss due to cycling of the product; if it is not determined by measurement then the default degradation coefficient shall be 0,25 for an air conditioner or heat pump, or 0,9 for a comfort or high temperature process chiller;

‘nitrogen oxides emissions’ means the sum of the emissions of nitrogen monoxide and nitrogen dioxide by air heating products or cooling products using gaseous or liquid fuels, and expressed in nitrogen dioxide, established while providing the rated heating capacity, expressed in mg/kWh in terms of GCV.

‘warm air heater’ means an air heating product that transfers the heat from a heat generator directly to air and incorporates or distributes this heat through an air-based heating system;

‘warm air heater using gaseous/liquid fuels’ means a warm air heater that uses a heat generator using the combustion of gaseous or liquid fuels;

‘warm air heater using electricity’ means a warm air heater that uses a heat generator using the Joule effect in resistance heating;

‘B₁ warm air heater’ means a warm air heater using gaseous/liquid fuels specifically designed to be connected to a natural draught flue that evacuates the residues of combustion to the outside of the room containing the B₁ warm air heater and for drawing the combustion air directly from the room; a type B₁ warm air heater is marketed as a B₁ warm air heater only;

‘C₂ warm air heater’ means a warm air heater using gaseous/liquid fuels specifically designed for drawing the combustion air from a common duct system to which more than one appliance is connected and extracting flue gas to the duct system; a type C₂ warm air heater is marketed as a C₂ warm air heater only;

‘C₄ warm air heater’ means a warm air heater using gaseous/liquid fuels specifically designed for drawing the combustion air from a common duct system to which more than one appliance is connected and extracting flue gas to another pipe of the flue system; a type C₄ warm air heater is marketed as a C₄ warm air heater only;

‘minimum capacity’ means the minimum heating capacity of the warm air heater (P_min ), expressed in kW;

‘useful efficiency at rated heating capacity’(η_nom ) means the ratio of the rated heating capacity and the total power input to achieve this heating capacity, expressed in %, whereby the total power input is based on the GCV of the fuel if using gaseous/liquid fuels;

‘useful efficiency at minimum capacity’ (η_pl ) means the ratio of the minimum capacity and the total power input to achieve this heating capacity, expressed in %, whereby the total power input is based on the GCV of the fuel;

‘seasonal space heating energy efficiency in active mode’ (η_s,on ) means the seasonal thermal energy efficiency multiplied by the emission efficiency, expressed in %;

‘seasonal thermal energy efficiency’ (η_s,th ) means the weighted average of the useful efficiency at rated heating capacity, and the useful efficiency at minimum capacity, including consideration of the envelope losses;

‘emission efficiency’ (η_s,flow ) means a correction applied in the calculation of the seasonal space heating energy efficiency in active mode that takes into account the equivalent air flow of the heated air and the heating capacity;

‘envelope loss factor’ (F_env ) means the losses in seasonal space heating energy efficiency due to heat loss of the heat generator to areas outside the space to be heated, expressed in %;

‘auxiliary electricity consumption’ means the losses in seasonal space heating energy efficiency due to electric power consumption at rated heating capacity (el_max ), at minimum capacity (el_min ) and in standby mode (el_sb ), expressed in %;

‘pilot flame losses’ means the losses in seasonal space heating energy efficiency caused by the ignition burner power consumption, expressed in %;

‘permanent pilot flame power consumption’ (P_ign ) means the power consumption of a burner intended to ignite the main burner and that can only be extinguished by intervention of the user, expressed in W based on the GCV of the fuel;

‘vented flue losses’ means the losses in seasonal space heating energy efficiency during periods the preferred generator is not active, expressed in %.

‘heat pump’ means an air heating product:

‘air-to-air heat pump’ means a heat pump which has a heat generator that uses a vapour compression cycle driven by an electric motor or internal combustion engine and whereby the outdoor side heat exchanger (evaporator) allows heat transfer from ambient air;

‘water/brine-to-air heat pump’ means a heat pump which has a heat generator that uses a vapour compression cycle driven by an electric motor or internal combustion engine and whereby the outdoor side heat exchanger (evaporator) allows heat transfer from water or brine;

‘rooftop heat pump’ means an air-to-air heat pump, driven by an electric compressor, of which the evaporator, compressor and condenser are integrated into a single package;

‘sorption cycle heat pump’ means a heat pump which has a heat generator that uses a sorption cycle relying on external combustion of fuels and/or supply of heat;

‘multi-split heat pump’ means a heat pump incorporating more than one indoor units, one or more refrigerating circuit, one or more compressors and one or more outdoor units, where the indoor units may or may not be individually controlled;

‘air conditioner’ means a cooling product that provides space cooling and:

‘air-to-air air conditioner’ means an air conditioner which has a cold generator that uses a vapour compression cycle driven by an electric motor or internal combustion engine and whereby the outdoor side heat exchanger (condenser) allows heat transfer to air;

‘water/brine-to-air air conditioner’ means an air conditioner which has a cold generator that uses a vapour compression cycle driven by an electric motor or internal combustion engine and whereby the outdoor side heat exchanger (condenser) allows heat transfer to water or brine;

‘rooftop air conditioner’ means an air-to-air air conditioner, driven by an electric compressor, of which the evaporator, compressor and condenser are integrated into a single package;

‘multi-split air conditioner’ means an air conditioner incorporating more than one indoor units, one or more refrigeration circuits, one or more compressors and one or more outdoor units, where the indoor units may or may not be individually controlled;

‘sorption cycle air conditioner’ means an air conditioner which has a cold generator that uses a sorption cycle relying on external combustion of fuels and/or supply of heat;

‘air-to-water comfort chiller’ means a comfort chiller that has a cold generator that uses a vapour compression cycle driven by an electric motor or internal combustion engine and whereby the outdoor side heat exchanger (condenser) allows heat transfer to air, including heat transfer that is based on evaporation into this air of externally added water, provided that the device is also able to function without the use of additional water, using air only;

‘water/brine-to-water comfort chiller’ means a comfort chiller that has a cold generator that uses a vapour compression cycle driven by an electric motor or internal combustion engine and whereby the outdoor side heat exchanger (condenser) allows heat transfer to water or brine, excluding heat transfer that is based on evaporation of externally added water;

‘sorption cycle comfort chiller’ means a comfort chiller which has a cold generator that uses a sorption cycle relying on external combustion of fuels and/or supply of heat.

‘reference design conditions’ means the combination of the ‘reference design temperature’, the maximum ‘bivalent temperature’ and the maximum ‘operation limit temperature’, as set out in Annex III, Table 24;

‘reference design temperature’ means the ‘outdoor temperature’ for either cooling (T_design,c ) or heating (T_design,h ) as described in Annex III, Table 24, at which the ‘part load ratio’ is equal to 1 and which varies according to the cooling or heating season, expressed in degrees Celsius;

‘bivalent temperature’ (T_biv ) means the outdoor temperature (T_j ) declared by the manufacturer at which the declared heating capacity equals the part load for heating and below which the declared heating capacity has to be supplemented with electric back-up heater capacity in order to meet the part load for heating, expressed in degrees Celsius;

‘operation limit temperature’ (T_ol ) means the outdoor temperature declared by the manufacturer for heating, below which the heat pump will not be able to deliver any heating capacity and the declared heating capacity is equal to zero, expressed in degrees Celsius;

‘part load ratio’ (pl(T_j )) means the ‘outdoor temperature’ minus 16 °C, divided by the ‘reference design temperature’ minus 16 °C, for either space cooling or space heating;

‘season’ means a set of ambient conditions, designated as either a heating season or a cooling season, describing per bin the combination of outdoor temperatures and bin hours pertaining to that season;

‘part load for heating’ (Ph(T_j )) means the heating load at a specific outdoor temperature, calculated as the design heating load multiplied by the part load ratio and expressed in kW;

‘part load for cooling’ (Pc(T_j )) means the cooling load at a specific outdoor temperature, calculated as the design cooling load multiplied by the part load ratio and expressed in kW;

‘seasonal energy efficiency ratio’ (SEER) is the overall energy efficiency ratio of the air conditioner or comfort chiller, representative for the cooling season, calculated as the ‘reference annual cooling demand’ divided by the ‘annual energy consumption for cooling’;

‘seasonal coefficient of performance’ (SCOP) is the overall coefficient of performance of a heat pump using electricity, representative of the heating season, calculated as the reference annual heating demand divided by the ‘annual energy consumption for heating’;

‘reference annual cooling demand’ (Q_C ) means the reference cooling demand to be used as basis for calculation of SEER and calculated as the product of the design cooling load (P_design,c ) and the equivalent active mode hours for cooling (H_CE), expressed in kWh;

‘reference annual heating demand’ (Q_H ) means the reference heating demand, and pertaining to a designated heating season, to be used as basis for calculation of SCOP and calculated as the product of the design heating load (P_design,h ) and the equivalent active mode hours for heating (H_HE ), expressed in kWh;

‘annual energy consumption for cooling’ (Q_CE ) means the energy consumption required to meet the ‘reference annual cooling demand’ and is calculated as the ‘reference annual cooling demand’ divided by the ‘active mode seasonal energy efficiency ratio’ (SEER_on ) and the electricity consumption of the unit for thermostat-off, standby, off and crankcase heater mode during the cooling season, expressed in kWh;

‘annual energy consumption for heating’ (Q_HE ) means the energy consumption required to meet the ‘reference annual heating demand’ pertaining to a designated heating season, and is calculated as the ‘reference annual heating demand’ divided by the ‘active mode seasonal coefficient of performance’ (SCOP_on ) and the electricity consumption of the unit for thermostat-off, standby, off and crankcase heater mode during the heating season expressed in kWh;

‘equivalent active mode hours for cooling’ (H_CE ) means the assumed annual number of hours the unit must provide the ‘design cooling load’ (P_design,c ) in order to satisfy the ‘reference annual cooling demand’, expressed in hours;

‘equivalent active mode hours for heating’ (H_HE ) means the assumed annual number of hours a heat pump air heater has to provide the design heating load to satisfy the reference annual heating demand, expressed in hours;

‘active mode seasonal energy efficiency ratio’ (SEER_on ) means the average energy efficiency ratio of the unit in active mode for the cooling function, constructed from part load and bin-specific energy efficiency ratios (EER_bin (T_j )) and weighted by the bin hours the bin condition occurs;

‘active mode seasonal coefficient of performance’ (SCOP_on ) means the average coefficient of performance of the heat pump in active mode, for the heating season, constructed from the part load, electric back up heating capacity (where required) and bin-specific coefficients of performance (COP_bin (T_j )) and weighted by the bin hours the bin condition occurs;

‘bin-specific coefficient of performance’ (COP_bin (T_j )) means the coefficient of performance of the heat pump for every bin_j with outdoor temperature (T_j ) in a season, derived from the part load, declared capacity and declared coefficient of performance (COP_d (T_j ) and calculated for other bins through inter/extrapolation, when necessary corrected by the applicable degradation coefficient;

‘bin-specific energy efficiency ratio’ (EER_bin (T_j )) means the energy efficiency ratio specific for every bin_j with outdoor temperature (T_j ) in a season, derived from the part load, declared capacity and declared energy efficiency ratio (EER_d (T_j )) and calculated for other bins through inter/extrapolation, when necessary corrected by the applicable degradation coefficient;

‘declared heating capacity’ (Pdh(T_j )) means the heating capacity of the vapour compression cycle of a heat pump, pertaining to an outdoor temperature (T_j ) and indoor temperature (T_in ), as declared by the manufacturer, expressed in kW;

‘declared cooling capacity’ (Pdc(T_j )) means the cooling capacity of the vapour compression cycle of the air conditioner or comfort chiller, pertaining to an outdoor temperature (T_j ) and indoor temperature (T_in ), as declared by the manufacturer, expressed in kW;

‘design heating load’ (P_design,h ) means the heating load applied to a heat pump at the reference design temperature, whereby the design heating load (P_design,h ) is equal to the part load for heating with outdoor temperature (T_j ) equal to reference design temperature for heating (T_design,h ), expressed in kW;

‘design cooling load’ (P_design,c ) means the cooling load applied to a comfort chiller or air conditioner at the reference design conditions, whereby the design cooling load (P_design,c ) is equal to declared cooling capacity at outdoor temperature (T_j ) equal to reference design temperature for cooling (T_design,c ), expressed in kW

‘declared coefficient of performance’ (COP_d (T_j )) means the coefficient of performance at a limited number of specified bins (j) with outdoor temperature (T_j );

‘declared energy efficiency ratio’ (EER_d (T_j ) means the energy efficiency ratio at a limited number of specified bins (j) with outdoor temperature (T_j );

‘electric back-up heating capacity’ (elbu(T_j )) is the heating capacity of a real or assumed supplementary heater with a COP of 1 that supplements the declared heating capacity (Pdh(T_j )) in order to meet the part load for heating (Ph(T_j )) in case Pdh(T_j ) is less than Ph(T_j ), for the outdoor temperature (T_j ), expressed in kW;

‘capacity ratio’ means the part load for heating (P_h (T_j )) divided by the declared heating capacity (P_dh (T_j )) or the part load for cooling (P_c (T_j )) divided by the declared cooling capacity (P_dc (T_j ));

‘active mode’ means the mode corresponding to the hours with a cooling or heating load of the building and whereby the cooling or heating function of the unit is activated. This condition may involve on/off-cycling of the unit in order to reach or maintain a required indoor air temperature;

‘standby mode’ means a condition where the warm air heater, comfort chiller, air conditioner or heat pump is connected to the mains power source, depends on energy input from the mains power source to work as intended and provides only the following functions, which may persist for an indefinite time: reactivation function, or reactivation function and only an indication of enabled reactivation function, and/or information or status display;

‘reactivation function’ means a function facilitating the activation of other modes, including active mode, by remote switch including remote control via network, internal sensor, timer to a condition providing additional functions, including the main function;

‘information or status display’ is a continuous function providing information or indicating the status of the equipment on a display, including clocks;

[F10‘off mode’ means a condition in which the equipment is connected to a mains power source and is not providing any function other than—

‘thermostat-off mode’ means the condition corresponding to the hours with no cooling or heating load, whereby the cooling or heating function is switched on but the unit is not operational; cycling in active mode is not considered as thermostat-off mode;

‘crankcase heater mode’ means the condition in which the unit has activated a heating device to avoid the refrigerant migrating to the compressor to limit the refrigerant concentration in oil at compressor start;

‘off mode power consumption’ (P_OFF ) means the power consumption of unit in off mode, expressed in kW;

‘thermostat-off mode power consumption’ (P_TO ) means the power consumption of the unit while in thermostat-off mode, expressed in kW;

‘standby mode power consumption’ (P_SB ) means the power consumption of the unit while in standby mode, expressed in kW;

‘crankcase heater mode power consumption’ (P_CK ) means the power consumption of the unit while in crankcase heater mode, expressed in kW;

‘off mode operating hours’ (H_OFF ) means the annual number of hours [hrs/a] the unit is considered to be in off-mode, the value of which depends on the designated season and function;

‘thermostat-off mode operating hours’ (H_TO ) means the annual number of hours (hrs/a) the unit is considered to be in thermostat-off mode, the value of which depends on the designated season and function;

‘standby mode operating hours’ (H_SB ) means the annual number of hours [hrs/a] the unit is considered to be in standby mode, the value of which depends on the designated season and function;

‘crankcase heater mode operating hours’ (H_CK ) means the annual number of hours (hrs/a) the unit is considered to be in crankcase heater operation mode, the value of which depends on the designated season and function.

‘seasonal primary energy ratio in cooling mode’ (SPER_c ) means the overall energy efficiency ratio of the air conditioner or comfort chiller using fuels, representative for the cooling season;

‘seasonal gas utilisation efficiency in cooling mode’ (SGUE_c ) means the gas utilisation efficiency for the whole cooling season;

‘gas utilisation efficiency at partial load’ means the gas utilisation efficiency when cooling (GUE_c,bin ) or heating (GUE_h,bin ) at outdoor temperature T_j;

‘gas utilisation efficiency at declared capacity’ means the gas utilisation efficiency when cooling (GUE_cDC ) or heating (GUE_hDC ) at declared capacity conditions as defined in Annex III, Table 21, and corrected for possible cycling behaviour of the unit, in case the effective cooling capacity (Q_Ec ) exceeds the cooling load (P_c (T_j )) or the effective heating capacity (Q_Eh ) exceeds the heating load (P_h (T_j ));

‘effective cooling capacity’ (Q_Ec ) means the measured cooling capacity corrected for the heat from the device (pump(s) or fan(s)) responsible for circulating the heat transfer medium through the indoor side heat exchanger, expressed in kW;

‘effective heat recovery capacity’ means the measured heat recovery capacity corrected for the heat from the device (pump(s)) of the heat recovery circuit for cooling (Q_Ehr,c ) or heating (Q_Ehr,h ), expressed in kW;

‘measured heat input for cooling’ (Q_gmc ) means the measured fuel input at part load conditions as defined in Annex III, Table 21, expressed in kW;

‘seasonal auxiliary energy factor in cooling mode’ (SAEF_c ) means the auxiliary energy efficiency for the cooling season, including the contribution of thermostat-off mode, standby mode, off mode and crankcase heater mode power modes;

‘reference annual cooling demand’ (Q_C ) means the annual cooling demand, calculated as the design cooling load (P_design,c ) multiplied by the equivalent active mode hours for cooling (H_CE );

‘seasonal auxiliary energy factor in cooling mode in active mode’ (SAEF_c,on ) means the auxiliary energy efficiency for the cooling season, excluding the contribution of thermostat-off mode, standby mode, off mode and crankcase heater mode power modes;

‘auxiliary energy factor in cooling mode at partial load’ (AEF_c,bin ) means the auxiliary energy efficiency when cooling at outdoor temperature (T_j );

‘electric power input in cooling mode’ (P_Ec ) means the effective cooling electrical power input, in kW;

‘seasonal primary energy ratio in heating mode’ (SPER_h ) means the overall energy efficiency ratio of the heat pump using fuels, representative for the heating season;

‘seasonal gas utilisation efficiency in heating mode’ (SGUE_h ) means the gas utilisation efficiency for the heating season;

‘effective heating capacity’ (Q_Eh ) means the measured heating capacity corrected for the heat from the device (pump(s) or fan(s)) responsible for circulating the heat transfer medium through the indoor side heat exchanger, expressed in kW;

‘measured heat input for heating’ (Q_gmh ) means the measured fuel input at part load conditions as defined in Annex III Table 21, expressed in kW;

‘seasonal auxiliary energy factor in heating mode’ (SAEF_h ) means the auxiliary energy efficiency for the heating season, including the contribution of thermostat-off mode, standby mode, off mode and crankcase heater mode power modes;

‘reference annual heating demand’ (Q_H ) means the annual heating demand, calculated as the design heating load multiplied by the annual equivalent active mode hours for heating (H_HE );

‘seasonal auxiliary energy factor in heating mode in active mode’ (SAEF_h,on ) means the auxiliary energy efficiency for the heating season, excluding the contribution of thermostat-off mode, standby mode, off mode and crankcase heater mode power modes;

‘auxiliary energy factor in heating mode at partial load’ (AEF_h,bin ) means the auxiliary energy efficiency when heating at outdoor temperature T_j;

‘auxiliary energy factor at declared capacity’ means the auxiliary energy factor when cooling (AEF_c,dc ) or heating (AEF_h,dc ) at part load conditions as defined in Annex III, Table 21, and corrected for possible cycling behaviour of the unit, in case the effective cooling capacity (Q_Ec ) exceeds the cooling load (P_c (T_j )) or the effective heating capacity (Q_Eh ) exceeds the heating load (P_h (T_j ));

‘electric power input in heating mode’ (P_Eh ) means the effective heating electrical power input, in kW;

‘NO_x emissions of heat pumps, comfort chillers and air conditioners with an internal combustion engine’ means the emissions of the sum of nitrogen monoxide and nitrogen dioxide emissions, of heat pumps, comfort chillers and air conditioners with an internal combustion engine, measured at standard rating conditions, using engine rpm equivalent, expressed in mg nitrogen dioxide per kWh fuel input in terms of GCV;

‘engine rpm equivalent’ (Erpm_equivalent ) means the revolutions per minute of the internal combustion engine calculated on the basis of an engine rpm at 70, 60, 40 and 20 % part load ratios for heating (or cooling if no heating function is offered) and weighing factors of 0,15, 0,25, 0,30 and 0,30 respectively.

‘rated power input’ (D_A ) means the electrical power input which is needed by the high temperature process chiller (including the compressor, the condenser fan(s) or pumps(s), the evaporator pump(s) and possible auxiliaries) to reach the rated refrigeration capacity, expressed in kW to two decimal places;

‘rated energy efficiency ratio’ (EER_A ) means the rated refrigeration capacity, expressed in kW divided by the rated power input, expressed in kW, expressed to two decimal places;

‘seasonal energy performance ratio’ (SEPR) is the efficiency ratio of a high temperature process chiller at standard rating conditions, representative of the variations in load and ambient temperature throughout the year, and calculated as the ratio between the annual refrigeration demand and the annual electricity consumption;

‘annual refrigeration demand’ means the sum of each bin-specific refrigeration load multiplied by the corresponding number of bin hours;

‘refrigeration load’ means the rated refrigeration capacity multiplied by the part load ratio of high temperature process chillers, expressed in kW to two decimal places;

‘part load’ (P_C (T_j )) means the refrigeration load at a specific ambient temperature (T_j ), calculated as the full load multiplied by the part load ratio of high temperature process chillers corresponding to the same ambient temperature T_j and expressed in kW at two decimal places;

‘part load ratio of high temperature process chillers’ (P_R (T_j )) means:

‘annual electricity consumption’ is calculated as the sum of the ratios between each bin-specific cooling demand and the corresponding bin-specific energy efficiency ratio, multiplied by the corresponding number of bin hours;

‘ambient temperature’ means:

‘reference ambient temperature’ means the ambient temperature, expressed in degrees Celsius, at which the part load ratio of high temperature process chillers is equal to 1. It shall be set at 35 °C. For air-cooled high temperature process chillers, the air inlet temperature to the condenser is defined as 35 °C while for water-cooled high temperature process chillers the water inlet temperature to the condenser is defined as 30 °C with 35 °C outdoor air temperature to the condenser;

‘energy efficiency ratio at part load’ (EER_PL (T_j )) means the energy efficiency ratio for every bin in the year, derived from the declared energy efficiency ratio (EER_DC ) for specified bins and calculated for other bins by linear interpolation;

‘declared refrigeration demand means the refrigeration load at specified bin conditions, and calculated as the rated refrigeration capacity multiplied by the corresponding part load ratio of high temperature process chillers;

'declared energy efficiency ratio’ (EER_DC ) means the energy efficiency ratio of the high temperature process chiller at a specific rating point, corrected where necessary by the degradation coefficient if the minimum declared refrigeration capacity exceeds the refrigeration load or interpolated if the nearest declared refrigeration capacities lie above and below the refrigeration load;

‘declared power input’ means the electrical power input needed by the high temperature process chiller to meet the declared refrigeration capacity at a specific rating point;

‘declared refrigeration capacity’ means the refrigeration capacity delivered by the high temperature process chiller to meet the declared refrigeration demand at a specific rating point.

‘total electric power input’ (P_elec ) means the total electric power absorbed by the unit, including fan(s) and auxiliary devices.

The [F13Great Britain] authorities shall verify one single unit of the model.

The model shall be considered to comply with the applicable requirements if:

If the results referred to in point 2(a) or (b) are not achieved, the model and any other model where the information included in the technical documentation was obtained on the same basis shall be considered not to comply with this Regulation.

For air heating product, cooling product, high temperature process chiller or fan coil unit models with a rated heating, cooling or refrigeration capacity ≥ 70 kW or that are produced in lower quantities than 5 per year, if the result referred to in point 2(c) is not achieved, the model and any other model where the information included in the technical documentation was obtained on the same basis shall be considered not to comply with this Regulation.

For air heating product, cooling product, high temperature process chiller or fan coil unit models with a rated heating, cooling or refrigeration capacity < 70 kW or that are produced in quantities of 5 or more per year, if the result referred to in point 2(c) is not achieved, the [F13Great Britain] authorities shall select three additional units of the same model for testing.

The model shall be considered to comply with the applicable requirements if, for these three units, the arithmetical mean of the determined values complies with the respective verification tolerances given in Table 30.

If the result referred to in point 6 is not achieved, the model and any other model where the information included in the technical documentation was obtained on the same basis shall be considered not to comply with this Regulation.

F17...

Benchmarks for seasonal space heating or cooling energy efficiency or air heating products and cooling products and seasonal energy performance ratio of high temperature process chillers are described in Table 30.

Benchmarks for emissions of nitrogen oxides, expressed in nitrogen dioxide:

The benchmarks specified in points 1 and 2 do not necessarily imply that a combination of these values is achievable for a single product.