共找到 304 条与 建筑物中的设施综合 相关的标准,共 21 页
Details methods of testing and rating gas-fired air-conditioning and heat pump appliances which utilize natural, manufactured and mixed gases, liquefied petroleum gases, and LP gas-air mixtures. This includes engine-driven heat pumps, absorption-cycle heat pumps, desiccant-type heat pumps, and other gas-fired heat pumps. The heat pumps may provide the functions of year-round space conditioning either by direct heating and cooling of air or indirectly by production of heated and chilled water.
Performance Testing and Rating of Gas-Fired, Air Conditioning and Heat Pump Appliances
Isolative gas-pressurized expansion device
Method of test for leakage of equipment units for dwellings
Method of test for strength and durability of equipment unit for dwellings
Adjustable weir-gate (Orifice with 300~5000mm)
Spiral submerged-arc welded steel pipe for municipal heat supply
This guide covers a methodological approach to developing protocols for collecting empirical building or facility energy performance data. The methodological approach covered in this guide is appropriate for commercial and institutional buildings or facilities, and with some adaptations, the approach can also be used for larger multifamily buildings or small industrial buildings or facilities. This guide does not specify a complete project or experimental design, the hardware or software needed for data collection and data management, or the data analysis techniques to be used. The values stated in SI units are to be regarded as the standard. The values given in parentheses are for information only. This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Guide for Developing Energy Monitoring Protocols for Commercial and Institutional Buildings or Facilities (04.11)
The collection of empirical data to determine building energy performance is an important but complex and costly activity. Careful development of energy monitoring projects can make a crucial difference in the value of project results relative to the expense. Increasing the widespread understanding of how energy is used and the types of services it provides in commercial, institutional, and related (light industrial, large multifamily, and mixed commercial/residential) buildings has proved to be difficult. This difficulty arises from the following variables: the complexity of buildings as energy systems; the diversity of sizes, uses, schedules, and types of buildings; the changes in uses of buildings; and the mixture of uses within individual buildings. These factors make building energy performance and energy (and dollar) savings from energy improvements difficult to categorize and compare. The audience for this guide is diverse, including energy suppliers such as utilities, building owners and managers, building occupants, designers, public and private research organizations, equipment manufacturers, and public regulators. The user of this guide must be familiar with the fundamental techniques of engineering project management and energy performance data collection, data management, and data analysis. See Refs (1-4)3 for a discussion of techniques related to the collection and analysis of energy performance data.1.1 This guide covers a methodological approach to developing protocols for collecting empirical building or facility energy performance data.1.2 The methodological approach covered in this guide is appropriate for commercial and institutional buildings or facilities, and with some adaptations, the approach can also be used for larger multifamily buildings or small industrial buildings or facilities.1.3 This guide does not specify a complete project or experimental design, the hardware or software needed for data collection and data management, or the data analysis techniques to be used.1.4 The values stated in SI units are to be regarded as the standard. The values given in parentheses are for information only.1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Standard Guide for Developing Energy Monitoring Protocols for Commercial and Institutional Buildings or Facilities
Conduits die of adapting form autostressing reinforced concrete water conduits
METHOD OF TEST FOR DRAINAGE OF EQUIPMENT UNITS FOR DWELLINGS
GENERAL RULES OF TESTING METHOD FOR WORKING-SPACE (MAINTENANCE, REPAIR AND CHANGE) OF EQUIPMENT UNITS FOR DWELLINGS
GENERAL RULES OF MEASURING METHOD FOR DIMENSION OF EQUIPMENT UNITS FOR DWELLINGS
この規格は,住宅に使用される配管()ュニット()(以下。ユニットという。)のモデュール呼び寸法()について規定する.注()配管とは,空気用ダクト,給水管,排水管,通気管,ガス管,電線管等の総称をいう。注()配管ユニットとは,建築部材に取り付けられるように前加工された配管群又は建築部材と配管を組み合わせたものをいう。注()この規格でモデュール呼び寸法とは,3. 2の規定による対向する構成材基準面間の距離をいう。
Modular co-ordinating sizes of piping unit for dwellings
Technical specification for floor radiant heating(explanation)
Standard for Energy Efficiency Inspection of Heating Residential Buildings(explanation)
General rules of testing method for dimension of equipment units for dwellings
Technical Specification for Energy Conservation Renovation of Existing Heating Residential Building(explanation)
Specification of Contents and Procedure on Heating,Ventilating and Air Conditioning Detailed Design for Chemical Plant (explanation)
Regulations on contents of detailed design of and thoroughness of heating, ventilation and air conditioning in chemical industry
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