UNI EN 13384-2 : 2009
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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CHIMNEYS - THERMAL AND FLUID DYNAMIC CALCULATION METHODS - PART 2: CHIMNEYS SERVING MORE THAN ONE HEATING APPLIANCE
08-04-2022
01-01-2009
Foreword
1 Scope
2 Normative references
3 Terms and definitions
4 Symbols, terminology, units
5 Calculation method
5.1 General principles
5.2 Pressure equilibrium condition
5.2.1 Negative pressure chimneys
5.2.2 Positive pressure chimneys
5.3 Mass flow requirement
5.4 Pressure requirements
5.4.1 Negative pressure chimneys
5.4.2 Positive pressure chimneys
5.5 Temperature requirement
5.6 Calculation procedure
6 Flue gas data characterising the heating appliance
7 Data for chimney and connecting flue pipes
8 Basic data for the calculation
8.1 Air temperatures
8.1.1 External air temperature (T[L])
8.1.2 Ambient air temperature (T[u])
8.2 External air pressure (p[L])
8.3 Gas constant
8.3.1 Gas constant of the air (R[L])
8.3.2 Gas constant of flue gas (R)
8.4 Density of air (rho[L])
8.5 Specific heat capacity of the flue gas (c[p])
8.6 Water vapour content (sigma(H[2]O)[j]) and condensing
temperature (T[sp])
8.7 Correction factor for temperature instability (S[H])
8.8 Flow safety coefficient (S[E])
8.9 External coefficient of heat transfer
9 Determination of temperatures
10 Mixing calculations
10.1 Flue gas mass flow (m[j])
10.2 Flue gas temperature at the inlet of the chimney
segment (T[ej])
10.3 CO[2]-content of the flue gas in the chimney segment
(sigma(CO[2])[j])
10.4 H[2]O-content of the flue gas (sigma(H[2]O)[j])
10.5 Gas constant of the flue gas (R[j])
10.6 Flue gas data
10.6.1 Specific heat capacity (c[pVj]), (c[pj])
10.6.2 Thermal conductivity of the flue gas
(lambda[Avj]), (lambda[Aj])
10.6.3 Dynamic viscosity (eta[Avj]), (eta[Aj])
11 Density and velocity of the flue gas
12 Determination of the pressures
12.1 Pressures at each inlet of the chimney segments
12.1.1 Draught
12.1.2 Positive pressure
12.1.3 Draught due to chimney effect in the chimney
segment (P[Hj])
12.1.4 Pressure resistance in the chimney segment
(P[Rj])
12.2 Minimum draught required at the flue gas inlet into
the chimney and maximum allowed draught (P[Ze] and
P[Zemax]) and maximum and minimum differential
pressure at the flue gas inlet into the chimney
(P[ZOe] and P[ZOemin])
12.2.1 Minimum required and maximum allowed draught
12.2.2 Maximum available and minimum allowed
differential pressure
12.2.3 Calculated pressure resistance of the
connecting flue pipe (P[Vj])
12.2.4 Calculated pressure resistance of the air
supply (P[Bcj])
13 Inner wall temperature
14 Cascade installations
14.1 Principle of the calculation method
14.2 Pressure equilibrium condition
14.2.1 Negative pressure cascade installation
14.2.2 Positive pressure cascade installation
14.3 Mass flow requirement
14.4 Pressure requirements
14.4.1 Negative pressure chimneys
14.4.2 Positive pressure chimneys
14.5 Temperature requirement
14.6 Calculation procedure
14.7 Pressures at the outlet of the connecting flue pipe
and pressures at the inlet of the collector segment
14.7.1 Pressure at the flue gas inlet into the
collector segment (P[ZCjl] or P[ZOCjl])
14.7.2 Pressures required or available at the outlet
of the connecting flue pipe (P[ZeCjl],
P[ZeOCjl])
14.8 Inner wall temperature (T[iobCjl])
15 Balanced flue chimney
15.1 Principle of the calculation method
15.2 Pressure equilibrium condition
15.3 Mass flow requirement
15.4 Pressure requirements
15.4.1 Negative pressure chimneys
15.4.2 Positive pressure chimneys
15.5 Temperature requirements
15.6 Calculation procedure for balanced flue chimneys
15.7 Mass flow of the supply air
15.8 Determination of the temperatures in balanced
flue chimneys
15.8.1 Separate ducts
15.8.2 Concentric ducts
15.8.3 Concentric connection pipes
15.9 Pressures of the air supply ducts
15.9.1 Draught due to chimney effect of the air
supply duct of chimney segment j
15.9.2 Draught due to chimney effect of the air
supply duct of connection pipes
15.9.3 Pressure resistance of the air supply duct
of the chimney segment j (P[RBj])
15.10 Density and velocity of the supply air
15.10.1 Density and velocity of the supply air in
the air supply duct averaged over the length
of the chimney segment
15.10.2 Density and velocity of the supply air
averaged over the length of the connection
pipes
Annex A (informative) Recommendations
A.1 Recommendations for the chimney and heating
appliances:
A.2 Recommendations for connecting flue pipes:
Annex B (informative) Characteristics for the heating
appliance
Defines methods for calculation of the thermal and fluid dynamic characteristics of chimneys serving more than one heating appliance.
| Committee |
E02.06
|
| DocumentType |
Standard
|
| PublisherName |
Ente Nazionale Italiano di Unificazione (UNI)
|
| Status |
Superseded
|
| SupersededBy | |
| Supersedes |
| Standards | Relationship |
| BS EN 13384-2 : 2003 | Identical |
| DIN EN 13384-2:2015-06 | Identical |
| UNE-EN 13384-2:2016 | Identical |
| I.S. EN 13384-2:2015 | Identical |
| NBN EN 13384-2 : 2015 | Identical |
| NS EN 13384-2 : 2003 | Identical |
| EN 13384-2:2015 | Identical |
| ONORM EN 13384-2 : 2015 | Identical |
| NEN EN 13384-2 : 2015 | Identical |
| NF EN 13384-2 : 2015 | Identical |
| SN EN 13384-2 : 2015 | Identical |
| UNI 10641 : 2013 | NATURAL DRAUGHT MULTIPLE APPLIANCE FLUE DUCTS AND CHIMNEYS FOR TYPE C FAN ASSISTED GAS APPLIANCES - DESIGN AND CHECKING |
| UNI 11528 : 2014 | GAS PLANTS OVER 35 KW - DESIGN, INSTALLATION AND COMMISSIONING |
| UNI 11554 : 2014 | NON-REGULATED PROFESSIONS - GAS OPERATORS WORKING ON GAS PLANTS SUPPLIED BY DISTRIBUTION NETWORK - KNOWLEDGE, SKILL AND COMPETENCE REQUIREMENTS |
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