91.120.10;91.120.30 标准查询与下载

DIN 4108-3:2014 建筑物中的能量经济学和热防护.第3部分:针对气候条件的防潮.设计和建造时的要求和指南

Thermal protection and energy economy in buildings - Part 3: Protection against moisture subject to climate conditions - Requirements and directions for design and construction

DIN EN ISO 13788:2013 建筑部件和构件的湿热性能.能避免临界表面湿度和缝隙冷凝作用的内表面温度.计算方法(ISO 13788-2012).德文版本EN ISO 13788-2012

Hygrothermal performance of building components and building elements - Internal surface temperature to avoid critical surface humidity and interstitial condensation - Calculation methods (ISO 13788:2012); German version EN ISO 13788:2012

BS EN ISO 13788:2012 建筑物部件和结构件的湿温性能.防止临界表面潮湿和缝隙冷凝的内表面温度.计算方法

Hygrothermal performance of building components and building elements. Internal surface temperature to avoid critical surface humidity and interstitial condensation. Calculation methods

ISO 13788:2012 建筑部件和构件的湿热性能.能避免临界表面湿度和缝隙冷凝作用的内表面温度.计算方法

This International Standard gives simplified calculation methods for: a) The internal surface temperature of a building component or building element below which mould growth is likely, given the internal temperature and relative humidity. The method can also be used to assess the risk of other internal surface condensation problems. b) The assessment of the risk of interstitial condensation due to water vapour diffusion. The method used does not take account of a number of important physical phenomena including: — the variation of material properties with moisture content; — capillary suction and liquid moisture transfer within materials; — air movement from within the building into the component through gaps or within air spaces; — the hygroscopic moisture capacity of materials. c) Consequently, the method is applicable only where the effects of these phenomena can be considered to be negligible. The time taken for water, from any source, in a layer between two high vapour resistance layers to dry out and the risk of interstitial condensation occurring elsewhere in the component during the drying process.

Hygrothermal performance of building components and building elements - Internal surface temperature to avoid critical surface humidity and interstitial condensation - Calculation methods

PD CEN/TR 15601:2012 建筑的温湿性能 带不连续铺设小单元屋顶对风雨的抗性

This Techncial Report describes a method of test for determining the resistance of pitched roof coverings to wind-driven and deluge rain. The test method is applicable to discontinuously laid unsealed small roof covering elements such as clay tiles, concrete tiles, slates, fibre cement slates and stones. NOTE The test method may be adapted for fittings.

Hygrothermal performance of buildings - Resistance to wind - driven rain of roof coverings with discontinuously laid small elements - Test methods

DIN EN ISO 15927-5:2012 建筑物的温湿性能.气候数据的计算和表示.第5部分:空间加热用设计热负载用数据

Hygrothermal performance of buildings - Calculation and presentation of climatic data - Part 5: Data for design heat load for space heating (ISO 15927-5:2004 + Amd 1:2011); German version EN ISO 15927-5:2004 + A1:2011

EN ISO 13788:2012 湿热性能的建筑组件和元素.内表面温度,以避免临界表面湿度和间质冷凝.计算方法

This International Standard gives simplified calculation methods for:a) The internal surface temperature of a building component or building element below which mould growth is likely, given the internal temperature and relative humidity. The method can also be used to assess the risk of other internal surface condensation problems.b) The assessment of the risk of interstitial condensation due to water vapour diffusion. The method used does not take account of a number of important physical phenomena including:— the variation of material properties with moisture content;— capillary suction and liquid moisture transfer within materials;— air movement from wi

Hygrothermal performance of building components and building elements - Internal surface temperature to avoid critical surface humidity and interstitial condensation - Calculation methods (ISO 13788:2012)

ISO 15927-5:2004/Amd 1:2011 建筑的温湿性能.气候数据的计算和显示.第5部分:空间加热用设计热负荷的数据.修改件1

Hygrothermal performance of buildings - Calculation and presentation of climatic data - Part 5: Data for design heat load for space heating; Amendment 1

DIN EN ISO 15927-6:2007 建筑的温湿性能.气候数据的计算和表示.第6部分:积聚的温差(户外每日平均温度的单位)

This part of ISO 15927 specifies the definiton,method of computation and method of presentation of data on accumulated temperature differences,used for assessing the energy used for space heating in buildings. These are normally expressed in degree-hours or degree-days,and such data are often referred to simply as "heating degree-hours"or "heating degree-days". This part of ISO 15927 includes approximate methods for calculating accumulated temperature differences based on hourly or daily mean temperatures and for estimating monthly values to and base temperature,for use when data computed directly from meteorological air temperature records are not available. In some countries,a threshold temperature different from the base temperature is used.This part of ISO 15927 does not cover this.

Hygrothermal performance of buildings - Calculation and presentation of climatic data - Part 6: Accumulated temperature differences (degree-days) (ISO 15927-6:2007); English version of DIN EN ISO 15927-6:2007-11

DIN V 4108-4:2007 建筑物中隔热和节能.第4部分:温湿设计值

Thermal insulation and energy economy in buildings - Part 4: Hygrothermal design values

DIN V 4108-4/A1:2006 建筑物的热绝缘和能源经济.第4部分:湿热值;修改件1

The project specifies characteristic values relating to thermal insulation which shall be applied to technical verification of thermal performance of buildings and building commponents unsing calculation. Design values of thermal conductivity indicated in this prestandard, in particular take into account the influence of temperature, actual moisture content and changing product properties. The water vapour resistance factors indicated in this document are also standard values. The specified values of water vapour resistance factors are intended for assessment of dew protection.

Thermal insulation and energy economy in buildings - Part 4: Hygrothermal design values; Amendment A1

BS EN ISO 15927-5:2004+A1:2011 建筑的温湿性能.气候数据的计算和表示.空间加热用热负荷设计用数据

Hygrothermal performance of buildings. Calculation and presentation of climatic data. Data for design heat load for space heating

DIN V 4108-4:2004 建筑物中隔热和节能.第4部分:温湿设计值

The project specifies characteristic values relating to thermal insulation which shall be applied to technical verification of thermal performance of buildings and building commponents unsing calculation. Design values of thermal conductivity indicated in this prestandard, in particular take into account the influence of temperature, actual moisture content and changing product properties. The water vapour resistance factors indicated in this document are also standard values. The specified values of water vapour resistance factors are intended for assessment of dew protection.

Thermal insulation and energy economy in buildings - Part 4: Hygrothermal design values

DIN EN ISO 15927-1:2004 建筑物的湿热性能.气象数据的计算与显示.第1部分:单一气象元素的月均值和年均值

This standard specifies procedures for calculating and presenting climatic data needed to assess various aspects of the thermal and moisture performance of buildings. Numerical values for specific locations should be obtained from the meteorological service in the relevant country. This standard covers the following single climatic variables: - air temperature; - atmospheric humidity; - wind speed; - precipitation; - solar radiation; - long wave radiation.

Hygrothermal performance of buildings - Calculation and presentation of climatic data - Part 1: Monthly and annual means of single meteorological elements (ISO 15927-1:2003); German version EN ISO 15927-1:2003

BS EN ISO 15927-1:2003 建筑物的温湿性能.气象数据的计算和表示.单一气象元素的月均值

ISO 15927-1:2003 specifies procedures for calculating and presenting the monthly means of those parameters of climatic data needed to assess some aspects of the thermal and moisture performance of buildings. Numerical values for any locations should be obtained from the meteorological service in the relevant country. ISO 15927-1:2003 covers the following single climate variables: air temperature; atmospheric humidity; wind speed; precipitation; solar radiation; longwave radiation. Meteorological instrumentation and methods of observation are not covered; these are specified by the World Meteorological Organisation (WMO).

Hygrothermal performance of buildings - Calculation and presentation of climatic data - Monthly means of single meteorological elements

EN ISO 15927-1:2003 建筑物的温湿性能.气象数据的计算和表示.第1部分:单一气象元素的月均值ISO 15927-1-2003

Hygrothermal performance of buildings - Calculation and presentation of climatic data - Part 1: Monthly means of single meteorological elements ISO 15927-1:2003

DIN EN 14114:2002 建筑设备和工业设施的湿热性能.水蒸汽扩散计算.制冷管道绝缘系统; 德文版本 EN 14114:2002

This standard specifies a method to calculate the density of water vapour flow rate for cold pipe insulation systems, and the total amount of water diffused into the insulation over time. The standard is applicable when the temperature of the medium in the pipe is above 0? It applies to pipes inside buildings as well as in the open air.#,,#

Hygrothermal performance of building equipment and industrial installations - Calculation of water vapour diffusion - Cold pipe insulation systems; German version EN 14114:2002

EN 14114:2002 建筑设备和工业设施的湿热性能.水蒸汽扩散计算.制冷管道绝缘系统

The standard is applicable when the temperature of the medium in the pipe is above 0 0C. It applies to pipes inside buildings as well as in the open ait.

Hygrothermal Performance of Building Equipment and Industrial Installations - Calculation of Water Vapour Diffusion - Cold Pipe Insulation Systems

EN ISO 13788:2001 建筑构件和件的湿热性能.避免严重的表面潮湿和间隙式冷凝的内表温度.计算方法 ISO 13788-2001

Hygrothermal Performance of Building Components and Building Elements - Internal Surface Temperature to Avoid Critical Surface Humidity and Interstitial Condensation - Calculation Methods ISO 13788:2001

DIN 4108-3:2001 建筑物中的能量经济学和热防护.第3部分:针对气候条件的防潮.设计和建造时的要求和指南

The document specifies hygrothermal requirements and instructions for planning and performance of buildings and building components. It defines hygrothermal physical quantities and specifies requirements to protection against surface condensation (external and internal surface condensation), protection against driving rain (stressing groups and a map showing the driving rain stressing areas in germany). It gives examples for calculation and a list of former hygrothermal physical quantities due to be replaced by standardized European and international symbols.#,,#

Thermal protection and energy economy in buildings - Part 3: Protection against moisture subject to climate conditions; Requirements and directions for design and construction