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ASHRAE - DA-07-063 - NEW PROCEDURE FOR ESTIMATING SEASONAL ENERGY EFFICIENCY RATIO OF CHILLERS Organization: ASHRAE
Date: 2007-01-01
ASHRAE - LV-11-C017 - VERIFICATION OF THE ENERGY EFFICIENCY ADVANCEMENT IN DISTRICT HEATING AND COOLING PLANT BY RENOVATION Organization: ASHRAE
Date: 2011-01-01
Description: This comparison resulted in modifications of certain parameters related to the chiller operational control and chiller efficiency. The simulation model quantified the total annual energy efficiency improvement and the contribution of each piece of equipment replaced.
ASHRAE STD 198 - METHOD OF TEST FOR RATING DX-DEDICATED OUTDOOR AIR SYSTEMS FOR MOISTURE REMOVAL CAPACITY AND MOISTURE REMOVAL EFFICIENCY Organization: ASHRAE
Date: 2013-01-26
Description: Units containing water coils requiring a supply of water supplied by a liquid chiller located outside of the unit are not covered by this standard.
DSF/FPREN 15316-4-4 - ENERGY PERFORMANCE OF BUILDINGS – METHOD FOR CALCULATION OF SYSTEM ENERGY REQUIREMENTS AND SYSTEM EFFICIENCIES – PART 4-4: HEAT GENERATION SYSTEMS, BUILDING-INTEGRATED COGENERATION SYSTEMS, MODULE M8-3-4, M8-8-4, M8-11-4 Organization: DS
Description: It could operate as the only heating/cooling appliance of the building or in combination with other heat generators, such as boilers or electrical chillers. Unlike district heating systems, where heat and electricity are generated at central plants and transmitted through networks to a number of remote buildings, a building-integrated cogeneration unit produces useful heat for uses within the building.
DSF/FPREN 15316-1 - ENERGY PERFORMANCE OF BUILDINGS – METHOD FOR CALCULATION OF SYSTEM ENERGY REQUIREMENTS AND SYSTEM EFFICIENCIES – PART 1: GENERAL AND ENERGY PERFORMANCE EXPRESSION, MODULE M3-1, M3-4, M3-9, M8-1, M8-4 Organization: DS
Description: This standards is only dealing with the heat, provided by water based systems, needed for heating, domestic hot water and cooling (e.g. absorption chiller). It specifies how to perform the calculation of the entire installation using the calculation modules (see Table 2) corresponding to the methods defined in the respective standards.
BRE IP11/04 - PERIMETER CHILLED BEAMS - D BUTLER AND M SWAINSON Organization: BRE
Date: 2004-09-23
Description: This form of cooling is also potentially more energy efficient than traditional low temperature, chilled water based air conditioning because it uses relatively warm chilled water. This is conducive to high chiller efficiency and also opens up opportunities for designers to specify 'free' or environmental cooling.
ASHRAE - LV-11-027 - OPTIMIZATION OF THE COOLING TOWER CONDENSER WATER LEAVING TEMPERATURE USING A COMPONENT-BASED MODEL Organization: ASHRAE
Date: 2011-01-01
Description: This model consists of a chiller, a condenser-water pump, and two cooling towers. The chiller is modeled with a Gordon-Ng model for vapor-compression chillers with variable-condenser flow.
ASHRAE - LV-11-C054 - A PARAMETRIC STUDY FOR INTEGRATED DESIGN OPTIMIZATION OF LOW-ENERGY BUILDINGS Organization: ASHRAE
Date: 2011-01-01
Description: This paper provides a new analytical algorithm, which optimizes the CHP, absorption chiller, heat pump, alternative energy and power systems like wind and solar, TES, PES, and HVAC terminal unit combinations and capacities for a given building.
ASHRAE - LV-11-026 - OPTIMAL OPERATION OF A CHILLED-WATER STORAGE SYSTEM WITH A REAL-TIME PRICING RATE STRUCTURE Organization: ASHRAE
Date: 2011-01-01
Description: The chiller plant performance is simulated with a forward model based on wire-to-water efficiency to reflect the performance change with different chiller part-load ratios.
ASHRAE - LO-09-015 - WATERSIDE ECONOMIZING IN DATA CENTERS: DESIGN AND CONTROL CONSIDERATIONS Organization: ASHRAE
Date: 2009-01-01
Description: This paper briefly compares airside and waterside economizers, then briefly compares the two types of waterside economizers (CRAC and chiller plant) and then focuses on design and control considerations for chiller plant waterside economizers serving data centers.
ASHRAE - OR-10-016 - ENERGY EFFICIENT TES DESIGNS FOR COMMERCIAL DX SYSTEMS Organization: ASHRAE
Date: 2010-01-01
Description: INTRODUCTION Background Historically, thermal energy storage (TES) has been applied to large chiller-based systems in the form of either chilled water or ice storage.
ASHRAE STD 150 - METHOD OF TESTING THE PERFORMANCE OF COOL STORAGE SYSTEMS Organization: ASHRAE
Date: 2000-06-28
Description: This standard covers cool storage systems composed of chillers, storage medium, storage device or vessel, heat sink equipment or heat sink systems, and other auxiliary equipment required to provide a complete and working system.
ASHRAE - LO-09-026 - HUMIDIFICATION OF LARGE-SCALE CLEANROOMS BY ADIABATIC HUMIDIFICATION METHOD IN SUBTROPICAL AREAS: AN INDUSTRIAL CASE STUDY Organization: ASHRAE
Date: 2009-01-01
Description: Whether using electro-heating or a boiler, it is a large burden in operation and maintenance costs. Even with a heat recovery chiller, it negatively affects the efficiency of the main cooling system. In addition, it consumes much of the capital cost of the heating system.
DS/EN 12309-5 - GAS-FIRED SORPTION APPLIANCES FOR HEATING AND/OR COOLING WITH A NET HEAT INPUT NOT EXCEEDING 70 KW - PART 5: REQUIREMENTS Organization: DS
Date: 2015-03-24
Description: 1.1 Scope of EN 12309 Appliances covered by this standard include one or a combination of the following: - gas-fired sorption chiller; - gas-fired sorption chiller/heater; - gas-fired sorption heat pump.
NBN - EN 12309-5 - APPAREILS À SORPTION FONCTIONNANT AU GAZ POUR LE CHAUFFAGE ET/OU LE REFROIDISSEMENT DE DÉBIT CALORIFIQUE SUR PCI INFÉRIEUR OU ÉGAL À 70 KW - PARTIE 5: EXIGENCES Organization: NBN
Date: 2015-02-02
Description: 1.1 Scope of EN 12309Appliances covered by this standard include one or a combination of the following:- gas-fired sorption chiller;- gas-fired sorption chiller/heater;- gas-fired sorption heat pump.
NBN - EN 12309-5 - GAS-FIRED SORPTION APPLIANCES FOR HEATING AND/OR COOLING WITH A NET HEAT INPUT NOT EXCEEDING 70 KW - PART 5: REQUIREMENTS Organization: NBN
Date: 2015-02-02
Description: 1.1 Scope of EN 12309Appliances covered by this standard include one or a combination of the following:- gas-fired sorption chiller;- gas-fired sorption chiller/heater;- gas-fired sorption heat pump.
NBN - EN 12309-5 - GAS-FIRED SORPTION APPLIANCES FOR HEATING AND/OR COOLING WITH A NET HEAT INPUT NOT EXCEEDING 70 KW - PART 5: REQUIREMENTS Organization: NBN
Date: 2015-02-02
Description: 1.1 Scope of EN 12309Appliances covered by this standard include one or a combination of the following:- gas-fired sorption chiller;- gas-fired sorption chiller/heater;- gas-fired sorption heat pump.
SAE J2894/2 - POWER QUALITY TEST PROCEDURES FOR PLUG-IN ELECTRIC VEHICLE CHARGERS Organization: SAE
Date: 2015-03-01
Description: Note that no distinction is made about the battery or the auxiliary loads, which may include fans, chillers, or other thermal management devices. Note that some systems may require multiple measurement points to capture all auxiliary loads.
ASHRAE OR-16-C084 - APPROPRIATE SOLAR SPECTRUM USAGE: THE NOVEL DESIGN OF A PHOTOVOLTAIC THERMAL SYSTEM Organization: ASHRAE
Date: 2016-01-01
Description: The most important energy consumption in most buildings is HVAC (accounting for approximately 40% of a building`s energy consumption) which can be addressed with the use of a solar power absorption chiller. This article introduces the design of a novel solar concentrated photovoltaic thermal (CPVT) system that produces electricity and thermal energy simultaneously from the same surface area.
CEN - EN 12309-5 - GAS-FIRED SORPTION APPLIANCES FOR HEATING AND/OR COOLING WITH A NET HEAT INPUT NOT EXCEEDING 70 KW - PART 5: REQUIREMENTS Organization: CEN
Date: 2014-12-01
Description: Scope of EN 12309 Appliances covered by this standard include one or a combination of the following: — gas-fired sorption chiller; — gas-fired sorption chiller/heater; — gas-fired sorption heat pump.

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