Energy Storage - Industry Links | Energy Storage Resources Skip navigation Useful Links From national labs to state energy commissions, much good work is being done to further the science and wide-scale adoption of energy storage. We think you will find the following links helpful. Advanced Research Projects Agency - Energy (ARPA-E) American Council for an Energy-Efficient Economy California Energy Commission California Energy Storage Alliance (CESA) Canadian Energy Storage Working Group Coalition to Advance Renewable Energy through Bulk Storage Demand Response & Smart Grid Coalition Department of Energy (Energy.gov) Electric Power Research Institute (EPRI) Electricity Storage Association (ESA) Federal Energy Regulatory Commission (FERC) Institute for Building Energy Efficiency National Association of Regulatory Utility Commissioners (NARUC) New York Battery and Energy Storage Technology Consortium (NY-BEST) North American Reliability Cooperative (NERC) NREL Energy Storage Project Ontario Sustainable Energy Association PennWell Energy Storage Trends blog U.S. U.S.
Chilled beam The chilled beam is distinguishable from the chilled ceiling.[4][8] The chilled ceiling uses water flowing through pipes like a chilled beam does; however, the pipes in a chilled ceiling lie behind metal ceiling plates, and the heated and cooled plates are the cause of convection and not the pipe unit itself.[4] Chilled beams are about 85 percent more effective at convection than chilled ceilings.[4] Physics[edit] Water can carry significantly more energy than air. Although 1 cubic foot (0.028 m3) of air has a capacity to hold heat of 37 joules per kelvin (JK−1), water has a heat capacity of 20,050 JK−1.[9] A metal pipe of water just 1 inch (2.5 cm) in diameter can carry as much energy as an 18-by-18-inch (46 by 46 cm) metal duct of air.[9] This means that chilled beam HVAC systems require much less energy to provide the same heating and cooling effect as a traditional air HVAC system. Chilled beam cooling systems require water to be treated by heating and cooling systems. [edit]
Simergy: Simergy Homepage Chilled Beams | TROX TROX chilled beams have been used effectively for more than a decade in North America and can be used in a variety of commercial building applications, including offices, K-12 schools, universities, laboratories and hospitals. Active chilled beam systems provide comfortable air conditioning of rooms with a high cooling load. By combining the aerodynamic properties of ceiling diffusers with the energy-saving benefits of heat transfer using water, active chilled beams provide a comfortable environment for space occupants and reduce energy consumption. TROX USA offers a wide variety of chilled beam types, including active, passive and multi-service. Contact TROX USA at 770.569.1433 or sales@troxusa.com for more information. Active Chilled Beams for Armstrong TechZone Ceiling System Product details Multi-Service Chilled Beams Fields of application UC Davis Health & Wellness Center To the reference Contact TROX USA, Inc.
Электрические сети, оборудование электроустановок. Swegon Институт Энергетических Систем Optimize Your Air Handlers Some people make things happen, some watch what happens, and some wonder what happened. If you want to create efficiencies in your air handling units (AHUs), keep on reading. A proactive approach to your air handlers can pay off with significant savings. My facility, a 121,000-square-foot university building in Texas, was opened in 2005. It is equipped with dual-duct AHUs (see diagram). The dampers in the outside air duct and return air duct are controlled by the CO2 setpoint. The dual-duct air handlers take 180 degree F. and 42 degree F. water and supply 100 degree F. hot air and 55 degree F. cool air through duct work to a terminal box. The most sophisticated part of this facility’s system monitors the terminal box dampers, the room setpoint, and the room temperature. Only four water valves, two dampers, and the fan speed can be controlled on the AHUs, but much can be done with them.
Field Collection System (FCS) FCS is Itron’s next generation walk-by and drive-by meter data collection system designed specifically for large electric, gas and water utilities. FCS is a state-of-the-art Microsoft Windows-based software solution that uses web services, client/server architecture to provide superior flexibility and ease-of-use. FCS is compatible with Itron collection devices currently on the market, including optical and water probes, and integrates easily with third-party software applications for billing, meter data management and data analysis. FCS combines the speed and performance in handheld and mobile route processing that you came to expect with yesterday’s mainframes with the ease of maintenance and upgradeability of today’s Windows-based world.
Индукционные котлы, электрические котлы, индукционные котлы отопления, отопительное оборудование, котлы отопления, отопление дома - Миратрон (Miratron) SPYCE Range SPYCE delivers both data for the last day as well as forecasts for the next 72 hours for any location in Europe up to 17.5° east and 56° north. Webservice for PV system registration The PV systems/sites that are to be monitored must be registered on the SPYCE server via a webservice which allows adding, reading, editing and deleting sites. Geographical coordinates of the site orientation of the inclined surface Webservice for current data For registered sites, the irradiation and other parameters are stored daily in a database on the SPYCE server. global radiation [W/m2] standard deviation of global radiation [W/m2] irradiation on the inclined surface [W/m2] standard deviation of the irradiation on the inclined surface [W/m2] reference yield (calculated based on an assumed standard module and inverter) [kWh] standard deviation of the reference yield [kWh] temperature [°C] snow detection (Tageswert)
wien.at - Infos und Services aus der Wiener Stadtverwaltung Cylon - Smart energy Control Котельная для отопления загородного дома. Схема обвязки котла Viessmann с блоком управления Vitotronic 200 тип KW2. Котельная предназначена для отопления загородного дома. В данном загородном доме имеются следующие тепловые потребители: В качестве источника тепла для отопления загородного дома смонтирован газовый атмосферный котел Viessmann Vitogas 050 мощностью 42 кВт с погодозависимым блоком управления Vitotronic 200 тип KW2. Котельная автоматика Vitotronic 200, помимо управления котлом Vitogas 050, обеспечивает управление и регулирование: одним контуром с трехходовым смесителем (клапаном, вентилем)одним контуром без смесителяконтуром нагрева бойлера ГВСконтуром циркуляции ГВС В данной котельной контур с трехходовым смесителем Viessmann используется для теплоснабжения радиаторного отопления загородного дома. Вся обвязка котельного оборудования Viessmann выполнена неотожженной медной трубой KME с медными фитингами Sanha. В качестве запорной арматуры в котельной отопления загородного дома использованы шаровые краны Bugatti. Циркуляция теплоносителя осуществляется насосами UPS 100 производства Grundfos.