FprEN 16905-4

SLOVENSKI STANDARD
01-julij-2022
Toplotna črpalka s plinsko gnanim motorjem z notranjim zgorevanjem - 4. del:
Preskusne metode
Gas-fired endothermic engine driven heat pumps - Part 4: Test methods
Gasbefeuerte endothermische Motor-Wärmepumpen - Teil 4: Prüfverfahren
Pompes à chaleur à moteur endothermique alimenté au gaz - Partie 4 : Méthodes
d'essai
Ta slovenski standard je istoveten z: prEN 16905-4
ICS:
27.080 Toplotne črpalke Heat pumps
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

DRAFT
EUROPEAN STANDARD
prEN 16905-4
NORME EUROPÉENNE
EUROPÄISCHE NORM
July 2022
ICS 27.080 Will supersede EN 16905-4:2017
English Version
Gas-fired endothermic engine driven heat pumps - Part 4:
Test methods
Pompes à chaleur à moteur endothermique alimenté Gasbefeuerte endothermische Motor-Wärmepumpen -
au gaz - Partie 4 : Méthodes d'essai Teil 4: Prüfverfahren
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee
CEN/TC 299.
If this draft becomes a European Standard, CEN members are bound to comply with the CEN/CENELEC Internal Regulations
which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.

This draft European Standard was established by CEN in three official versions (English, French, German). A version in any other
language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC
Management Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,
Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and
United Kingdom.
Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are
aware and to provide supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without
notice and shall not be referred to as a European Standard.

EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2022 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 16905-4:2022 E
worldwide for CEN national Members.

prEN 16905-4:2022 (E)
Contents Page
European foreword . 6
Introduction . 7
1 Scope . 8
2 Normative references . 9
3 Terms and definitions . 9
4 Test methods . 9
4.1 General . 9
4.2 Basic principles method of calculation for the determination of capacities . 10
4.2.1 Capacity. 10
4.2.2 Engine heat recovery capacity . 12
4.2.3 Heat input . 14
4.2.4 Electrical power input . 15
4.2.5 Gas utilization efficiency (GUE) . 19
4.2.6 Engine heat recovery efficiency (EHRE) . 20
4.2.7 Total gas utilization efficiency (GUE ) . 21
T
4.2.8 Auxiliary energy factor (AEF) . 22
4.2.9 Auxiliary energy engine heat recovery factor (AEHRF) . 23
4.2.10 Total auxiliary energy factor (AEF ) . 24
T
4.2.11 Primary energy factor (PER) . 24
4.3 Test apparatus. 25
4.3.1 Arrangement of the test apparatus. 25
4.3.2 Installation and connection of the appliance . 26
4.4 Uncertainties of measurement . 28
4.5 Test procedure . 29
4.5.1 General . 29
4.5.2 Non-cyclical operation . 33
4.5.3 Cyclical operation . 46
4.6 Test methods for electric power consumption during thermostat off mode, standby
mode and off mode . 50
4.6.1 Measurement of electrical power consumption during thermostat off mode . 50
4.6.2 Measurement of the electrical power consumption during standby mode . 50
4.6.3 Measurement of the electric power consumption during crankcase heater mode . 50
4.6.4 Measurement of the electric power consumption during off mode . 51
4.7 Test results — Data to be recorded . 51
5 Heat recovery test for air-cooled multisplit systems . 53
5.1 Test installation . 53
5.1.1 General . 53
5.1.2 Three-room calorimeter method . 53
5.1.3 Three-room air-enthalpy method . 53
5.1.4 Two-room air-enthalpy method . 54
5.2 Test procedure . 54
5.3 Test results . 54
6 Test report . 54
prEN 16905-4:2022 (E)
6.1 General information . 54
6.2 Additional information . 55
6.3 Rating test results . 55
Annex A (normative) Calorimeter test method . 56
A.1 General . 56
A.2 Calibrated room-type calorimeter . 58
A.3 Balanced ambient room-type calorimeter . 59
A.4 Calculations-cooling capacities . 59
A.4.1 General . 59
A.4.2 Total cooling capacity on the indoor-side . 61
A.4.3 Total cooling capacity of liquid (water)-cooled equipment deducted from the
condenser side . 61
A.4.4 Latent cooling capacity (room dehumidifying capacity) . 61
A.4.5 Sensible cooling capacity . 62
A.4.6 Sensible cooling capacity . 62
A.5 Calculation-heating capacities . 62
A.5.1 General . 62
A.5.2 Determination of the heating capacity by measurements in the indoor-side room . 63
A.5.3 Determination of the heating capacity by measurements in the outdoor-side room . 64
A.5.4 Total heating capacity of liquid (water)-to-air unit deducted from the water side . 64
Annex B (normative) Indoor air enthalpy test method . 65
B.1 General . 65
B.2 Test conditions . 65
B.3 Application . 65
B.4 Calculations-cooling capacities . 66
B.5 Calculations-heating capacities . 66
Annex C (normative) Symbols and units used in Annex A and B . 67
Annex D (normative) Water enthalpy test method . 69
D.1 General . 69
D.2 Calculations. 69
D.2.1 Measured cooling capacity . 69
D.2.2 Measured heating capacity. 69
D.2.3 Measured engine heat recovery capacity. 70
Annex E (informative) Direct method for air-to-water (brine) and water (brine)-to-water
(brine) appliances . 71
E.1 Introduction. 71
E.2 Compensation system for air-to-water (brine) appliances . 71
E.3 Compensation system for water (brine) to water (brine) appliances . 72
prEN 16905-4:2022 (E)
E.4 General . 73
Annex F (informative) Measurement control criteria for water (brine) to water (brine)
appliances . 74
F.1 Water (brine)-to-water (brine) heat pump in heating mode . 74
F.2 Water (brine)-to-water (brine) chiller or chiller/heater in cooling mode . 75
Annex G (normative) Determination of the liquid pump efficiency . 77
G.1 General . 77
G.2 Hydraulic power of the liquid pump . 77
G.2.1 The liquid pump is an integral part of the appliance . 77
G.2.2 The liquid pump is not an integral part of the appliance . 77
G.3 Efficiency of integrated pumps . 77
G.3.1 Glandless circulators . 77
G.3.2 Dry motor pumps . 78
G.4 Efficiency of non-integrated pumps . 80
Annex H (informative) Calculation procedure for determination of GUE, AEF and Cd values . 81
H.1 Calculation procedure for determination of GUE values at part load (GUEPL) . 81
H.1.1 General . 81
H.1.2 For air-to-air, brine-to-air and water-to-air units . 81
H.1.3 For air-to-water, water-to-water and brine-to-water units . 82
H.2 Calculation procedure for determination of AEF values at part load (AEFPL) . 83
H.2.1 General . 83
H.2.2 For air-to-air, brine-to-air and water-to-air units . 83
H.2.3 For air-to-water, water-to-water and brine-to-water units . 83
H.3 Air-to-air and water-to-air units - Determination of the degradation coefficient Cd. 84
H.3.1 General . 84
H.3.2 Air-to-air units – Cooling mode . 85
H.3.3 Air-to-air units – Heating mode . 85
H.3.4 Water-to-air units – Cooling mode . 85
H.3.5 Water-to-air units – Heating mode . 85
H.4 Air-to-water(brine) units and water(brine)-to-water(brine) and DX-to-water(brine)
units - Determination of the degradation coefficient Cd . 85
Annex I (informative) “Individual” correction to include in the “global” electrical power
input correction depending on the GEHP appliance . 87
Annex J (informative) Heating capacity tests - Flow chart and examples of different test
sequences . 94
J.1 Flow chart . 94
J.2 Examples of test profiles . 95
prEN 16905-4:2022 (E)
Annex K (normative) Rating of indoor and outdoor units of multisplit and modular heat
recovery multisplit system . 100
K.1 General . 100
K.2 Terms and definitions . 100
K.3 Rating of indoor units . 101
K.3.1 General . 101
K.3.2 Air flow rate measurement . 101
K.3.3 Measurement of the power input of indoor units . 101
K.4 Rating of outdoor units . 101
K.4.1 General . 101
K.4.2 Test conditions . 102
K.4.3 Test procedure . 102
K.4.4 Calculation of the SPER based on the PER outdoor . 102
c c-
K.4.5 Calculation of the SPER based on the PER outdoor . 102
h h-
Annex L (normative) Testing and rating of individual indoor units . 103
L.1 Indoor unit under test . 103
L.2 Test methods . 103
L.2.1 General . 103
L.2.2 Calorimeter method. 103
L.2.3 Air-enthalpy method . 104
L.3 Test conditions . 104
L.4 Rated performance . 105
L.5 Data to be recorded. 105
Annex M (informative) Air flow measurement . 108
M.1 General . 108
M.2 Test installation . 108
M.3 Test conditions . 108
M.4 Air flow measurement . 108
Annex ZA (informative) Relationship between this European Standard and the ecodesign
requirements of Commission Regulation (EU) No 813/2013 aimed to be covered . 109
Annex ZB (informative) Relationship between this European Standard and the energy
labelling requirements of Commission Delegated Regulation (EU) No 811/2013
aimed to be covered . 110
Annex ZC (informative) Relationship between this European Standard and the ecodesign
requirements of Commission Regulation (EU) No 2016/2281 aimed to be covered. 111
Bibliography . 112

prEN 16905-4:2022 (E)
European foreword
This document (prEN 16905-4:2022) has been prepared by Technical Committee CEN/TC 299 “Gas-fired
sorption appliances, indirect fired sorption appliances, gas-fired endothermic engine heat pumps and
domestic gas-fired washing and drying appliances”, the secretariat of which is held by UNI.
This document is currently submitted to the CEN Enquiry.
This document will supersede EN 16905-4:2017.
In comparison with the previous edition, the following technical modifications have been made:
— Editorial and technical changes throughout the draft and in Annex ZA, ZB in order to align the text to
the Ecodesign Requirements of Commission Regulation (EU) No 813/2013;
— Addition of Annex ZC in order to align the text to the Ecodesign Requirements of Commission
Regulation (EU) No 2016/2281.
This document has been prepared under a Standardization Request given to CEN by the European
Commission and the European Free Trade Association, and supports essential requirements of EU
Directive(s) / Regulation(s).
For relationship with EU Directive(s) / Regulation(s), see informative Annex ZA, ZB or ZC, which is an
integral part of this document.
prEN 16905-4:2022 (E)
Introduction
The GEHP appliances having their condenser cooled by air and by the evaporation of external additional
water are not covered by this document.
Single split and multisplit systems are covered by this document.
The GEHP appliances can have one or more primary or secondary functions.
This document specifies the requirements, test methods and test conditions concerning, in particular, the
construction, safety, fitness for purpose, and rational use of energy, for the rating and performance
calculation of air conditioners and heat pumps using either air, water or brine as heat transfer media,
with gas-fired endothermic engine driven compressors when used for space heating, cooling and
refrigeration, hereafter referred to as “GEHP appliance”.
EN 16905 comprises the following parts under the general title, Gas-fired endothermic engine driven
heat pumps:
— Part 1: Terms and definitions;
— Part 2: Safety;
— Part 3: Tests conditions;
— Part 4: Tests methods;
— Part 5: Calculation of seasonal performances in heating and cooling mode.
prEN 16905-4:2022 has been prepared to address the essential requirements of the European Regulation
(EU) 2016/426 relating to appliances burning gaseous fuels and repealing Directive 2009/142/EC (see
prEN 16905-4:2022, Annex ZA).
EN 16905-1:2017, prEN 16905-2:2021, EN 16905-3:2017, prEN 16905-4:2022 and prEN 16905-5:2021
are linked to the Energy Related Products Directive (2009/125/EC) in terms of tests conditions, tests
methods and seasonal performances calculation methods under Mandate M/535; (see EN 16905- 3:2017,
Annex ZA, prEN 16905-4:2022, Annex ZA, prEN 16905-5:2021, Annex ZA and prEN 16905-2:2021,
Annexes ZB and ZC).
These documents will be reviewed whenever new mandates could apply.
prEN 16905-4:2022 (E)
1 Scope
This document specifies the requirements, test methods and test conditions for the rating and
performance calculation of gas-fired endothermic engine driven heat pumps for heating and/or cooling
mode including the engine heat recovery, to be used outdoor.
This document specifies the test conditions tests methods and seasonal performances calculation
methods.
This document is to be used in conjunction with:
a) the terms and conditions, EN 16905-1:2017
b) the safety, prEN 16905-2:2021
c) the test conditions, EN 16905-3:2017
d) the calculation of seasonal performances in heating and cooling mode, prEN 16905-5:2021
e) the heat pump standards, EN 14511-2:2018, EN 14511-3:2018 and EN 14825:2022.
This document only applies to appliances with a maximum heat input (based on net calorific value) not
exceeding 70 kW at standard rating conditions.
This document only applies to appliances under categories I , I , I , I , I , I , I , I , I , I ,
2H 2E 2Er 2R 2E(S)B 2L 2LL 2ELL 2E(R)B 2ESi
I , I , I , I II +, II +, II , II , II , II , II , II , II and II according to
2E(R) 3P 3B 3B/P, 2H3 2Er3 2H3B/P 2L3B/P 2E3B/P 2ELL3B/P 2L3P 2H3P 2E3P 2Er3P
EN 437:2021.
This document only applies to appliances having:
a) gas fired endothermic engines under the control of fully automatic control systems;
b) closed system refrigerant circuits in which the refrigerant does not come into direct contact with the
fluid to be cooled or heated;
c) where the temperature of the heat transfer fluid of the heating system (heating water circuit) does
not exceed 105 °C during normal operation;
d) where the maximum operating pressure in the:
1) heating water circuit (if installed) does not exceed 6 bar;
2) domestic hot water circuit (if installed) does not exceed 10 bar.
This document applies to GEHP appliances only when used for space heating or space cooling or for
refrigeration, with or without heat recovery.
This document is applicable to GEHP appliances that are intended to be type tested. Requirements for
GEHP appliances that are not type tested would need to be subject to further consideration.
prEN 16905-4:2022 (E)
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments) applies.
EN 437:2021, Test gases - Test pressures - Appliance categories
EN 14511-3:2018, Air conditioners, liquid chilling packages and heat pumps for space heating and cooling
and process chillers, with electrically driven compressors - Part 3: Test methods
EN 16905-1:2017, Gas-fired endothermic engine driven heat pumps - Part 1: Terms and definitions
prEN 16905-2:2021, Gas-fired endothermic engine driven heat pumps — Part 2: Safety
EN 16905-3:2017, Gas-fired endothermic engine driven heat pumps - Part 3: Test conditions
prEN 16905-5:2021, Gas-fired endothermic engine driven heat pumps — Part 5: Calculation of seasonal
performances in heating and cooling mode
FprEN 12102-1:2022, Air conditioners, liquid chilling packages, heat pumps, process chillers and
dehumidifiers with electrically driven compressors - Determination of the sound power level - Part 1: Air
conditioners, liquid chilling packages, heat pumps for space heating and cooling, dehumidifiers and process
chillers
3 Terms and definitions
For the purposes of this document, the terms and definitions given in EN 16905-1:2017 apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https://www.iso.org/obp
— IEC Electropedia: available at http://www.electropedia.org/
4 Test methods
4.1 General
A steady-state or transient or cyclical operation test could be applied for 100 % load tests or for reduced
load tests.
The sound power level is measured in the standard rating conditions as given in EN 16905-3:2017 with
the corresponding test methods according to FprEN 12102-1:2022 considering that this standard,
dedicated to determination of the sound power level could be used with appliances covered in the scope
of EN 16905-1:2017; prEN 16905-2:2021; EN 16905-3:2017 and prEN 16905-5:2021.

Currently in preparation.
Currently in preparation.
Currently in preparation.
prEN 16905-4:2022 (E)
4.2 Basic principles method of calculation for the determination of capacities
4.2.1 Capacity
4.2.1.1 Measured capacity
The measured cooling or heating capacity of air-to-air or water (brine)-to-air GEHP shall be determined
by measurements in a calorimeter room (see Annex A) or by the air enthalpy method (see Annex B).
The measured cooling or heating capacity of air-to-water (brine) or water (brine)-to-water (brine) GEHP
shall be determined in accordance with the water enthalpy method (see Annex D).
The measured heat recovery capacity of all GEHP shall be determined in accordance with the water
enthalpy method (see Annex D).
4.2.1.2 Effective capacity
4.2.1.2.1 Effective cooling capacity
The effective cooling capacity is 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 heat
exchanger:
a) if the fan(s) or pump(s) is (are) an integral part of the appliance, the capacity correction due to the
device, C , calculated according to 4.2.4.3.3.1 or 4.2.4.4.2.1, which is excluded from the total
device-indoor
power input shall be added to the cooling capacity (the correction is positive). The effective heating
capacity shall be determined using the following formula:
Q Q+Abs C (1)
( )
Ec c device _indoor
b) if the fan(s) or pump(s) is (are) not an integral part of the appliance, the capacity correction due to
the device, C , calculated according to 4.2.4.3.3.2 or 4.2.4.4.2.2, which is added to the total
device-indoor
electrical power input shall be subtracted from the cooling capacity (the correction is negative).The
effective cooling capacity shall be determined using the following formula:
Q Q−Abs C (2)
( )
Ec c device _indoor
where:
Q is the effective cooling capacity, in kilowatt;
EC
Q is the measured cooling capacity, in kilowatt;
c
C is the capacity correction due to the device(s) (fan(s) or pump(s)) responsible for
device_indoor
circulating the heat transfer medium through the indoor heat exchanger, in kilowatt.
=
=
prEN 16905-4:2022 (E)
4.2.1.2.2 Effective heating capacity
The effective heating capacity is 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 heat
exchanger:
a) if the fan(s) or pump(s) is (are) an integral part of the appliance, the capacity correction due to the
device, C , calculated according to 4.2.4.3.3.1 or 4.2.4.4.2.1, which is excluded from the total
device_indoor
electrical power input shall also be subtracted from the heating capacity (the correction is negative).
The effective heating capacity shall be determined using the following formula:
Q Q−Abs C (3)
( )
Eh h device _indoor
b) if the fan(s) or pump(s) is (are) not an integral part of the appliance, the capacity correction due to
the device, C , calculated according to 4.2.4.3.3.2 or 4.2.4.4.2.2, which is added to the total
device_indoor
electrical power input shall be also added to the heating capacity (the correction is positive). The
effective heating capacity shall be determined using the following formula:
Q Q+Abs C (4)
( )
Eh h device _indoor
where
Q is the effective heating capacity, in kilowatt;
Eh
Q is the measured heating capacity, in kilowatt;
h
C is the capacity correction due to the device(s) (fan(s) or pump(s)) responsible for
device_indoor
circulating the heat transfer medium through the indoor heat exchanger, in kilowatt.
4.2.1.3 Rating capacity
4.2.1.3.1 Rating cooling capacity
The rating cooling capacity shall be determined using the following formula:
Q
grc
Q=Q×±Abs C (5)
( )
Rc c device _indoor
Q
gmc
where
Q is the rating cooling capacity, in kilowatt;
Rc
Q is the measured cooling capacity, in kilowatt;
c
Q is the rating gas heat input in cooling mode, in kilowatt;
grc
Q is the measured gas heat input in cooling mode, in kilowatt;
gmc
C is the capacity correction due to the device(s) (fan(s) or pump(s)) responsible for
device_indoor
circulating the heat transfer medium through the indoor heat exchanger, in kilowatt.
NOTE For more explanation about the capacity correction due to the device responsible for circulating the heat
transfer medium through the indoor heat exchanger, see 4.2.1.2.1.
=
=
prEN 16905-4:2022 (E)
4.2.1.3.2 Rating heating capacity
The rating heating capacity shall be determined using the following formula:
Q
grh
Q=Q×±Abs C (6)
( )
Rh h device _indoor
Q
gmh
where
Q is the rating heating capacity, in kilowatt;
Rh
Q is the measured heating capacity, in kilowatt;
h
Q is the rating gas heat input in heating mode, in kilowatt;
grh
Q is the measured gas heat input in heating mode, in kilowatt;
gmh
C is the capacity correction due to the device(s) (fan(s) or pump(s)) responsible for
device_indoor
circulating the heat transfer medium through the indoor heat exchanger, in kilowatt.
NOTE For more explanation about the capacity correction due to the device responsible for circulating the heat
transfer medium through the indoor heat exchanger, see 4.2.1.2.2.
4.2.2 Engine heat recovery capacity
4.2.2.1 Effective engine heat recovery capacity
The effective engine heat recovery capacity is the measured engine heat recovery capacity corrected for
the heat from the device (pump(s)) of the engine heat recovery circuit (measured in any condition):
a) if this (these) pump(s) is (are) an integral part of the appliance, the capacity correction due to the
pump(s), c , calculated according to 4.2.4.4.2.1 which is excluded from the total electrical power
device_hr
input shall be also subtracted from the engine heat recovery capacity (the correction is negative).
b) if this(these) pump(s) is (are) not an integral part of the appliance, capacity correction due to the
pump(s), c , calculated according to 4.2.4.4.2.2, which is added to the total electrical power
device_hr
input shall be also added to the engine heat recovery capacity (the correction is positive).
The effective engine heat recovery capacity shall be determined using the following formula, which is
applicable to either heating or cooling mode:
Q Q±Abs C (7)
( )
Ehr hr device _hr
where
Q is the effective engine heat recovery capacity, in kilowatt;
Ehr
Q is the measured engine heat recovery capacity, in kilowatt;
hr
C is the capacity correction due to the pump(s) responsible for circulating the heat
device_hr
transfer medium through the engine heat recovery exchanger, in kilowatt.
=
prEN 16905-4:2022 (E)
4.2.2.2 Rating engine heat recovery capacity in cooling mode
The rating engine heat recovery capacity shall be determined using the following formula:
Q
grhrc
Q =Q×±Abs C (8)
( )
Rhrc hr device _hr
Q
gmhr
where
Q is the rating engine heat recovery capacity in cooling mode, in kilowatt;
Rhrc
Q is the measured engine heat recovery capacity, in kilowatt;
hr
Q is the rating engine heat recovery gas heat input in cooling mode, in kilowatt;
grhrc
Q is the measured engine heat recovery gas heat input, in kilowatt;
gmhr
C is the capacity correction due to the pump(s) responsible for circulating the heat
device_hr
transfer medium through the engine heat recovery heat exchanger, in kilowatt.
NOTE 1 For more explanation about the capacity correction due to the pump(s) responsible for circulating the
heat transfer medium through the engine heat recovery heat exchanger, see 4.2.2.1.
NOTE 2 The rating heat recovery heat input in cooling mode is equal to the rating heat recovery heat input in
heating mode.
4.2.2.3 Rating engine heat recovery capacity in heating mode
The rating engine heat recovery capacity shall be determined using the following formula:
Q
grhrh
Q =Q×±Abs C (9)
( )
Rhrh hr device _hr
Q
gmhr
where
Q is the rating engine heat recovery capacity in heating mode, in kilowatt;
Rhrh
Q is the measured engine heat recovery capacity, in kilowatt;
hr
Q is the rating engine heat recovery gas heat input in heating mode, in kilowatt;
grhrh
Q is the measured engine heat recovery gas heat input, in kilowatt;
gmhr
C is the capacity correction due to the pump(s) responsible for circulating the heat
device_hr
transfer medium through the engine heat recovery heat exchanger, in kilowatt.
NOTE For more explanation about the capacity correction due to the pump(s) responsible for circulating the
heat transfer medium through the engine heat recovery heat exchanger, see 4.2.2.1.
prEN 16905-4:2022 (E)
4.2.3 Heat input
4.2.3.1 General conditions for operation of the gas-fired part of the appliance
Tests are carried out with the appropriate reference gas(es) for the category to which the appliance
belongs (see EN 437:2021), supplied at the corresponding normal pressure indicated in EN 437:2021.
4.2.3.2 Measurement of heat inputs under test conditions
The appliance is installed as described in prEN 16905-2:2021 and adjusted as described in 4.2.4.1 and
then operated at the heat input imposed by control system of the appliance. The heat input measurement
is carried out when thermal “equilibrium” conditions have been achieved under the particular test
conditions.
NOTE 1 It is important to note that the rating heating, cooling or heat recovery heat input is determined in
accordance with the method given in prEN 16905-2:2021, but that the measured heat input achieved under
particular test conditions is different and determined in a different way. This is described below.
Air pressure at inlet and outlet of the gas engine shall be balanced to avoid under/over pressure of the
gas engine.
The heat input under the test conditions (Q ) in kilowatt is given by the formula:
gm
n
Mc *H
∑ ( j )
iM(T)j
j=1
Q 0,278⋅ (10)
gm
n
or
n
Vc *H
∑ ( j )
iV(T)j
j=1
Q 0,278⋅ (11)
gm
n
where
j is the scan number;
n is the number of scan of the data collection period;
Q is the measured heat input, in kilowatt;
gm
H is the net calorific value of the test gas at the considered scan, in megajoule per kilogram;
iM(T)j
Mc is the mass flow rate of dry test gas at the considered scan, in kilogram per hour;
j
H is the net calorific value of the test gas at the considered scan, in megajoule per cubic
iV(T)j
meter (dry gas, 15 °C, 1 013,25 mbar);
Vc is the volumetric flow rate of dry test gas corrected to 1013,25 mbar and 15 °C at the
j
considered scan, in cubic meter per hour and derived from the following formula:
p +−pj p
288,15
aj wj
Vc=V⋅⋅ (12)
j mj
1013, 25 273,15+t
gj
where
V is the measured gas flow rate at the considered scan, in cubic meter per hour;
mj
p is the atmospheric pressure at the considered scan, in millibar;
aj
pj is the gas supply pressure at the gas meter at the considered scan, in millibar;
=
=
prEN 16
...