DIN EN 13216-1:2004-11
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
CHIMNEYS - TEST METHODS FOR SYSTEM CHIMNEYS - PART 1: GENERAL TEST METHODS
Hardcopy , PDF
08-07-2019
English
01-01-2004
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Foreword
Introduction
1 Scope
2 Normative references
3 Terms and definitions
4 Test environment and measurement parameters
4.1 Location of test chimneys
4.2 Test environment
4.3 Location for the measurement of ambient air condition
4.4 Accuracy of measurement
5 Performance tests for system chimneys, material independent
5.1 General
5.2 Abrasion resistance test
5.2.1 Test apparatus
5.2.2 Test sample
5.2.3 Measuring parameters
5.2.4 Test procedure
5.2.5 Test results
5.3 Relative movement of the flue liner in multi-wall system
chimneys
5.3.1 Test apparatus
5.3.2 Test sample
5.3.3 Measuring parameters
5.3.4 Test procedure
5.3.5 Test results
5.4 Gas tightness test
5.4.1 Test apparatus
5.4.2 Test sample
5.4.3 Measuring parameters
5.4.4 Test procedure
5.4.5 Test results
5.5 Condensate resistance test
5.5.1 Test apparatus
5.5.2 Test sample
5.5.3 Measuring parameters
5.5.4 Test procedure
5.5.5 Test results
5.6 Vapour and condensate resistance test
5.6.1 Test apparatus
5.6.2 Test sample
5.6.3 Measuring parameters
5.6.4 Test procedure
5.6.5 Test results
5.7 Thermal performance test
5.7.1 General
5.7.2 Test apparatus and test structure for thermal
and thermal shock tests
5.7.3 Test sample
5.7.4 Measuring parameters
5.7.5 Test procedure
5.7.6 Test results
5.8 Thermal resistance test
5.8.1 Test apparatus
5.8.2 Test sample
5.8.3 Measuring parameters
5.8.4 Test procedure
5.8.5 Test results
5.9 Terminal flow resistance
5.9.1 Test apparatus
5.9.2 Test sample
5.9.3 Measuring parameters
5.9.4 Test procedure
5.9.5 Test results
5.10 Aerodynamic behaviour of terminal under wind
conditions
5.10.1 Test apparatus
5.10.2 Test sample
5.10.3 Measuring parameters
5.10.4 Test procedure
5.10.5 Test results
5.11 Flow resistance of the test chimney, of fittings or
liners
5.11.1 Test apparatus
5.11.2 Test sample
5.11.3 Measuring parameter
5.11.4 Test procedure
5.11.5 Test results
5.12 Rainwater resistance for chimney sections
5.12.1 Test apparatus
5.12.2 Test sample
5.12.3 Test procedure
5.12.4 Measuring parameters
5.12.5 Test results
5.13 Rainwater resistance for terminals
5.13.1 Test apparatus
5.13.2 Test sample
5.13.3 Test procedure
5.13.4 Measuring parameters
5.13.5 Test results
5.14 Test report
Annex A (informative) Recommended test sequence
Annex B (normative) Calculation method to predict
condensation in multi-wall chimneys
for different ambient air temperatures
others than the test ambient air
temperature
B.1 Dimensions of the chimney structure type
B.2 Calculation of the flue gas and inner wall
temperatures
B.2.1 Calculation without taking account of
condensation heat
B.2.2 Calculation with taking account of
condensation heat
B.3 Calculation of layer temperatures
B.4 Thermal resistance, test chimney
B.5 Multi-wall chimney, back ventilated
B.5.1 General requirement
B.5.2 Removed moisture flow
B.5.3 Penetrating moisture flow
B.5.4 Maximum moisture flow
B.5.5 Layer temperatures
B.5.6 Calculation of the frictional and form resistance
of the ventilation ducts, from a test chimney
B.5.7 Moisture flow at test chimney
B.5.8 Expression of results
B.6 Multi-wall chimneys without back-ventilation, designated W
B.6.1 General requirement
B.6.2 Partial pressures
B.6.3 Variations in partial pressure in critical planes
B.6.4 Penetrating moisture flow
B.6.5 Condensation water penetration
B.6.6 Layer temperatures
B.6.7 Calculation of the variations in partial pressure in
the chimney structure, height-dependent
B.6.8 Expression of results
Annex C (informative) Methods of determining the effects of extract
and air supply provisions
Annex D (normative) Method of measuring the hot gas temperature
Annex E (informative) Hot gas mass flow, heat capacity of the flue
gas, example of air velocity for natural gas
combustion
Annex F (informative) Example of a test report
Bibliography
Describes material-independent general test methods for system chimneys.
| DevelopmentNote |
DRAFT 2016 issued in December 2016. (12/2016)
|
| DocumentType |
Standard
|
| Pages |
65
|
| PublisherName |
German Institute for Standardisation (Deutsches Institut für Normung)
|
| Status |
Superseded
|
| Standards | Relationship |
| NS EN 13216-1 : 1ED 2004 | Identical |
| BS EN 13216-1:2004 | Identical |
| EN 13216-1:2004 | Identical |
| NF EN 13216-1 : 2005 | Identical |
| NEN EN 13216-1 : 2004 | Identical |
| EN 13216-1:2019 | Identical |
| ONORM EN 13216-1 : 2004 | Identical |
| I.S. EN 13216-1:2004 | Identical |
| UNE-EN 13216-1:2006 | Identical |
| SN EN 13216-1 : 2004 | Identical |
| UNI EN 13216-1 : 2006 | Identical |
| NBN EN 13216-1 : 2004 | Identical |
| EN 13384-1:2015 | Chimneys - Thermal and fluid dynamic calculation methods - Part 1: Chimneys serving one heating appliance |
| IEC 60529:1989+AMD1:1999+AMD2:2013 CSV | Degrees of protection provided by enclosures (IP Code) |
| BS 1042-2.1:1983 | Measurement of fluid flow in closed conduits. Velocity area methods Method using Pitot static tubes |
| EN 1443:2003 | Chimneys - General requirements |
| EN 60529:1991/AC:2016-12 | DEGREES OF PROTECTION PROVIDED BY ENCLOSURES (IP CODE) (IEC 60529 EDITION 2.2 CORRIGENDUM 2:2015) |
| EN 10088-1:2014 | Stainless steels - Part 1: List of stainless steels |
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