91.140.99 建筑物中的其他设施 标准查询与下载

VDI 4709-2010 中央吸尘系统-设施管理中的设计、测试和应用

The guideline VDI 4709 provides information for building owners, planners, operators, building users and installation companies about the planning, calculation and execution of central vacuum cleaning systems and proposes minimum requirements for suction power and noise emissions. The popularity of central vacuum cleaning systems is on the increase in Germany, because their advantages are obvious: they do not contaminate the indoor air with fine dust, like conventional vacuum cleaners do. In central systems, the dust is evacuated by a central appliance and directly released into the outdoors. In the individual rooms, all that is necessary is a hose with a nozzle, which is connected to an inlet valve. This hygienic way of vacuuming is the key advantage over mobile vacuum cleaners. The operating noise of the appliance is also less audible if the central appliance is installed in a remote or well-isolated room. Central vacuum cleaning systems used in residential buildings, business and administration buildings, banks, hotels etc. can protect people's health by reducing or avoiding fine-dust contamination, which is of benefit especially to allergic persons.

Central vacuum cleaning systems - Design, testing and application in facility management

BS PD CEN/TR 15615:2008 关于不同欧洲标准与《建筑物能效指令》（EPBD）的一般关系的说明

1.1 Overview The calculation methodology follows the framework set out in the Annex to the EPBD1. The various standards used in this process are listed in Annex A. Many of the standards deal with specific aspects of the calculation (e.g. fabric losses, air changes, energy use for lighting, system performance): these aspects are drawn together in the following items: The main goal of these standards is to facilitate the implementation of the Directive in Member States. In consequence they do not prescribe a single definition of energy rating or the expression of energy performance, but rather give a limited number of options. Similarly the items on inspections offer various levels of inspection. It is up to national bodies to select one or more of the options given, depending on the purpose of the calculation and the type and complexity of the buildings and their services. The four main components set out in the Directive relate to:  calculation methodology;  minimum energy performance requirements;  energy performance certificate;  inspections of boilers and air-conditioning. Figure 1 illustrates how the standards are related to articles of the EPBD defining these requirements. 1.2 Calculation methodology The standards providing the calculation methodology are indicated in Figure 1, either explicitly or by reference to Annex A. The calculation methodology is used to determine the data for energy certificates. EN ISO 13790 allows for different levels of complexity:  simplified monthly or seasonal calculation; simplified hourly calculation;  detailed calculation, which can be chosen according to relevant criteria related to the purpose of the calculation, such as new or existing buildings or type and/or complexity of the building and its services. The calculations are based on specified boundary conditions of indoor climate (EN 15251) and external climate. The simplified calculation methods are fully specified in the EN ISO 13790. The detailed calculation methods are not fully specified in EN ISO 13790, but any implementation needs to be validated according to the criteria in EN 15265 and the input and boundary conditions are to be consistent with the fully specified methods. Zoning arrangements (applicable to all calculation methods) are described in EN ISO 13790. The characteristics of the technical building systems are included via:  heating systems, EN 15316-1, EN 15316-2-1, EN 15316-2-3, EN 15316-4 (various parts) and EN 15377;  cooling systems, EN 15243;  domestic hot water, EN 15316-3 (various parts);  ventilation, EN 15241;  lighting, EN 15193;  integrated building automation and controls, EN 15232.

Explanation of the general relationship between various European standards and the Energy Performance of Buildings Directive (EPBD)

ANSI/ASTM F1284:2009 住宅中心真空清洁系统清除地毯内嵌污物的效果评估试验方法

Test Method For Evaluating Carpet Embedded Dirt Removal Effectiveness Of Residential Central Vacuum Cleaning Systems

CJ/T 183-2008 钢塑复合压力管

本标准规定了铜塑复合压力管(以下简称复合管)的定义、分类和标记、材料和结构、要求、测试方法、检验规则和标志、产品使用说明书、包装、运输与贮存。 本标准适用于城镇和建筑内外冷热水、饮用水、供暖、燃气、特种流体(包括工业废水、腐蚀性流体，煤矿井下供水、排水、压风等)、排水(包括重力污、废水排放和虹吸式屋面雨水排放系统)输送用复合管以及电力电缆、通信电缆、光缆保护套管用复合管。

Plastic-steel-plastic composite pressure pipe

CJ/T 288-2008 预制双层不锈钢烟道及烟囱

本标准规定了预制双层不锈钢烟道及烟囱的术语和定义、型号编制、材料、结构和尺寸、性能要求、试验方法、检验规则、标志、包装、运输、贮存、烟道及烟囱的安装。 本标准适用于以厚度为0.6mm~l.5mm的不锈钢板、在工厂制造、在使用现场组装的预制双层不锈钢烟囱。预制双层不锈钢烟囱用于公共建筑物中的燃油燃气锅炉、直燃型溴化锂吸收式冷热水机组、柴油发电机、厨房的排烟系统，长期连续使用温度低于450℃、短期不连续使用温度低于550 ℃，有冷凝液的废气、烟气的输送和排放。

Factory-made stainless steel flue and chimneys

CJ/T 296-2008 燃气用非定尺不锈钢波纹管及接头

本标准规定了燃气用非定尺不锈钢波纹管及接头(简称"波纹管及接头")的产品分类、技术要求、试验方法、检验规则和标志、包装、运输和贮存。 本标准适用于公称尺寸DNlO~DN50，公称压力PN≤0.4 MPa的燃气用非定尺不锈钢波纹管及接头。

Undetermined dimension corrugated stainless steel tubes and connector used in fuel gas piping systems

ASTM F1284-04(2008) 评估住宅中央真空清洁系统地毯嵌入式除尘效果的标准试验方法

Standard Test Method for Evaluating Carpet Embedded Dirt Removal Effectiveness of Residential Central Vacuum Cleaning Systems

NF P50-779:2008 建筑物的能量性能.全部能量的使用和能量额定值的定义

Energy performance of buildings - Overall energy use and definition of energy ratings.

BS EN 15603:2008 建筑的能量性能.全部能量的使用和能量额定值的定义

The purpose of the standard is to: a) collate results from other standards that calculate energy use for specific services within a building; b) account for energy generated in the building, some of which may be exported for use elsewhere; c) present a summary of the overall energy use of the building in tabular form; d) provide energy ratings based on primary energy, carbon dioxide emission or other parameters defined by national energy policy; e) establish general principles for the calculation of primary energy factors and carbon emission coefficients. This standard defines the energy services to be taken into account for setting energy performance ratings for planned and existing buildings, and provides for this: f) method to compute the standard calculated energy rating, a standard energy use that does not depend on occupant behaviour, actual weather and other actual (environment or indoor) conditions; g) method to assess the measured energy rating, based on the delivered and exported energy; h) methodology to improve confidence in the building calculation model by comparison with actual energy use; i) method to assess the energy effectiveness of possible improvements. This European standard is applicable to a part of a building (e.g. flat), a whole building, or several buildings. It is up to national bodies to define under which conditions, for which purposes and for which types of buildings the various ratings apply. This standard handles the energy performance of a building as a whole. The assessment of the energy performance of specific technical building systems is handled in the appropriate part of EN 15241, EN 15243 and EN 15316 series.

Energy performance of buildings - Overall energy use and definition of energy ratings

CJ/T 112-2008 IC卡膜式燃气表

本标准规定了最大流量为160m /h的IC卡膜式燃气表的技术要求、试验方法、检验规则、标志、包装、运输与贮存。 本标准适用于IC卡膜式燃气表(以下简称燃气表)的设计、生产、试验与验收。

Integrated circuit and diaphragm gas meter

NF P50-782:2008 建筑的能量性能.使用动力学方法计算空间加热和冷却的能量需求.一般标准和确认程序

Energy performance of buildings - Calculation of energy needs for space heating and cooling using dynamic methods - General criteria and validation procedures.

DB21/T 1611-2008 钢制采暖散热器

steel heating radiator

LST EN 15603-2008 建筑物的能源性能 总体能源使用和能源评级的定义

Energy performance of buildings - Overall energy use and definition of energy ratings

PD CEN/TR 15615:2008 关于不同欧洲标准与《建筑物能效指令》(EPBD)的一般关系的说明.保护文件

The calculation methodology follows the framework set out in the Annex to the EPBD1. The various standards used in this process are listed in Annex A. Many of the standards deal with specific aspects of the calculation (e.g. fabric losses, air changes, energy use for lighting, system performance): these aspects are drawn together in the following items: The main goal of these standards is to facilitate the implementation of the Directive in Member States.

Explanation of the general relationship between various European standards and the Energy Performance of Buildings Directive (EPBD) - Umbrella Document

CJ 50-2008 瓶装液化石油气调压器

本标准规定了瓶装液化石油气调压器（以下简称调压器）的分类及型号编制、技术要求、试验方法、检验规则、标志、包装、运输和贮存。 本标准适用于进口压力为 0.03MPa～1.56MPa, 出口压力为 2.8OkPa±0.5OkPa，额定流量小于或等于 2m/h, 使用环境温度为-20 ℃～45 ℃的家用瓶装液化石油气调压器 ( 以下简称家用调压器 ); 以及进口压力为 0.03MPa～1.56MPa，出口压力为 2.8OkPa±0.5OkPa 或 5.OOkPa±0.9OkPa, 额定流量小于或等于 3.6m/h，使用环境温度为-20 ℃～45 ℃的非家用瓶装液化石油气调压器（以下简称非家用调压器）。 本标准所提到的压力值凡未标注的均指表压。

Pressure regulators for liquefied petroleum gas cylinders

EN 15603:2008 建筑的能量性能.全部能量的使用和能量额定值的定义

The purpose of the standard is to: a) collate results from other standards that calculate energy use for specific services within a building; b) account for energy generated in the building, some of which may be exported for use elsewhere; c) present a summary of the overall energy use of the building in tabular form; d) provide energy ratings based on primary energy, carbon dioxide emission or other parameters defined by national energy policy; e) establish general principles for the calculation of primary energy factors and carbon emission coefficients.This standard defines the energy services to be taken into account for setting energy performance ratings for planned and existing buildings, and provides forThis: f) method to compute the standard calculated energy rating, a standard energy use that does not depend on occupant behaviour, actual weather and other actual (environment or indoor) conditions; g) method to assess the measured energy rating, based on the delivered and exported energy; h) methodology to improve confidence in the building calculation model by comparison with actual energy use; i) method to assess the energy effectiveness of possible improvements.This European Standard is applicable to a part of a building (e. g. flat), a whole building, or several buildings. It is up to national bodies to define under which conditions, for which purposes and for which types of buildings the various ratings apply.This standard handles the energy performance of a building as a whole. The assessment of the energy performance of specific technical building systems is handled in the appropriate part of EN 15241, EN 15243 and EN 15316 series.

Energy performance of buildings - Overall energy use and definition of energy ratings

DIN EN 15193:2008 建筑物的能量性能.照明用能量要求

This European Standard specifies the calculation methodology for the evaluation of the amount of energy used for indoor lighting inside the building and provides a numeric indicator for lighting energy requirements used for certification purposes. This European Standard can be used for existing buildings and for the design of new or renovated buildings. It also provides reference schemes to base the targets for energy allocated for lighting usage. This European Standard also provides a methodology for the calculation of instantaneous lighting energy use for the estimation of the total energy performance of the building. Parasitic powers not included in the luminaire are excluded. In this European Standard, the buildings are classified in the following categories: offices, education buildings, hospitals, hotels, restaurants, sports facilities, wholesale and retail services and manufacturing factories. In some locations outside lighting may be fed with power from the building. This lighting may be used for illumination of the fa~,ade, open-air car park lighting, security lighting, garden lighting etc. These lighting systems may consume significant energy and if they are fed from the building, this load will not be included in the Lighting Energy Numeric Indicator or into the values used for heating and cooling load estimate. If metering of the lighting load is employed, these loads may be included in the measured lighting energy.

Energy performance of buildings - Energy requirements for lighting; English version of DIN EN 15193:2008-03

DS/EN 15265:2007 建筑物的能源性能 使用动态方法计算空间供暖和制冷的能源需求 一般标准和验证程序

This European Standard specifies a set of assumptions, requirements and validation tests for procedures used for the calculation of the annual energy needs for space heating and cooling of a room in a building where the calculations are done with a time step of one hour or less.This European Standard does not impose any specific numerical technique for the calculation of the room heating or cooling need and the internal temperatures of a room.The purpose of this European Standard is to validate calculation methods used to:- assess the energy performance of each room of a building;- provide energy data to be used as interface with system performance analysis

Energy performance of buildings - Calculation of energy needs for space heating and cooling using dynamic methods - General criteria and validation procedures

DIN EN 15265:2007 建筑物的能量性能.用动力学方法计算对流加热和制冷所需的能量.一般标准和确认程序

This European Standard specifies a set of assumptions, requirements and validation tests for procedures used for the calculation of the annual energy needs for space heating and cooling of a room in a building where the calculations are done with a time step of one hour or less. This European Standard does not impose any specific numerical technique for the calculation of the room heating or cooling need and the internal temperatures of a room. The purpose of this European Standard is to validate calculation methods used to: -- assess the energy performance of each room of a building; -- provide energy data to be used as interface with system performance analysis (heating, cooling, ventilating, lighting, domestic hot water etc). The validation procedure is used to check the energy need for space heating and cooling based on a ~1 transient sensible heat balance model, taking into account: -- the external surface heat balance; -- the conduction through the building envelope; -- the thermal capacities of external and internal structures; -- the internal surface heat balance; -- the air heat balance; -- the heat balance solution method. All other aspects are given either by prescribed boundary conditions or by input data and are not part of the model validation. It is assumed, that for all these other matters e.g. embedded heating and cooling systems, prescriptive models have to be used according to existing European Standards. The system performance analysis and moisture balance are not within the scope of this European Standard.

Energy performance of buildings - Calculation of energy needs for space heating and cooling using dynamic methods - General criteria and validation procedures; English version of DIN EN 15265:2007-11

JG/T 2-2007 钢制板型散热器

Steel plate radiator