Storage Heaters as Buffers for Wind Power
ID: 981939
orage Heaters as Buffers for Wind Power
As reported in the latest issue of "Pictures of the Future", Siemens and RWE are planning to use storage heaters to make surplus solar and wind power more usable. In the RWE Wind Heating project, the two companies have worked together with tekmar Regelsysteme GmbH to equip the storage heating systems in two neighborhoods with smart control devices. The storage heaters were programmed to charge their heat stores whenever there was too much sunshine or the wind was blowing. The test phase begun in 2011 has shown that the concept is very effective.
State-of-the-art storage heating systems that are appropriately set up for the buildings they heat are energy-efficient, inexpensive, and simple. The units charge the heaters at night using inexpensive power, and release the heat again during the day. However, instead of storing off-peak power at night, the heaters could also act as a temporary store for surplus wind and solar power. According to energy experts, all of the storage heaters in Germany could potentially store 14,000 gigawatt-hours (GWh) of power each year. By contrast, Germany's pumped-storage electrical power stations have a combined storage capacity of around 40 GWh per year.
An important precondition for the use of storage heaters as buffers for green electricity is the availability of a smart control device for the charging process. This is made possible by the Siemens software DEMS (Decentralized Energy Management System), which generates consumption forecasts based on existing user data. The software then uses these forecasts as well as information about the weather, the current electricity prices, and the amount of storage capacity available to decide when a heat store should be charged. The command is transmitted to the control unit via wireless.
The concept has been tested in residential areas containing a variety of storage heating systems: underfloor heating, separate furnaces, and block storage units. What the residents particularly like about the systems is that they heat the apartments evenly. Whereas a wind-powered heating system is continuously recharged during the day, conventional storage heaters are very warm in the mornings and cool off toward evening. The task now is to make the system attractive for all users of storage heaters by finding ways in which they can benefit from inexpensive wind and solar power prices.
Press Picture: http://www.siemens.com/press/en/presspicture/?press=/en/presspicture/2013/energy/wind-power/ewp201308051-01.htm
Siemens
Wittelsbacherplatz 2
80333 München
Deutschland
Telefon: +49 (89) 636 0
Telefax: +49 89 636-52 000
Mail: kontact@siemens.com
URL: http://www.siemens.de
(pressrelations) - s Buffers for Wind Power
As reported in the latest issue of "Pictures of the Future", Siemens and RWE are planning to use storage heaters to make surplus solar and wind power more usable. In the RWE Wind Heating project, the two companies have worked together with tekmar Regelsysteme GmbH to equip the storage heating systems in two neighborhoods with smart control devices. The storage heaters were programmed to charge their heat stores whenever there was too much sunshine or the wind was blowing. The test phase begun in 2011 has shown that the concept is very effective.
State-of-the-art storage heating systems that are appropriately set up for the buildings they heat are energy-efficient, inexpensive, and simple. The units charge the heaters at night using inexpensive power, and release the heat again during the day. However, instead of storing off-peak power at night, the heaters could also act as a temporary store for surplus wind and solar power. According to energy experts, all of the storage heaters in Germany could potentially store 14,000 gigawatt-hours (GWh) of power each year. By contrast, Germany's pumped-storage electrical power stations have a combined storage capacity of around 40 GWh per year.
An important precondition for the use of storage heaters as buffers for green electricity is the availability of a smart control device for the charging process. This is made possible by the Siemens software DEMS (Decentralized Energy Management System), which generates consumption forecasts based on existing user data. The software then uses these forecasts as well as information about the weather, the current electricity prices, and the amount of storage capacity available to decide when a heat store should be charged. The command is transmitted to the control unit via wireless.
The concept has been tested in residential areas containing a variety of storage heating systems: underfloor heating, separate furnaces, and block storage units. What the residents particularly like about the systems is that they heat the apartments evenly. Whereas a wind-powered heating system is continuously recharged during the day, conventional storage heaters are very warm in the mornings and cool off toward evening. The task now is to make the system attractive for all users of storage heaters by finding ways in which they can benefit from inexpensive wind and solar power prices.
Press Picture: http://www.siemens.com/press/en/presspicture/?press=/en/presspicture/2013/energy/wind-power/ewp201308051-01.htm
Siemens
Wittelsbacherplatz 2
80333 München
Deutschland
Telefon: +49 (89) 636 0
Telefax: +49 89 636-52 000
Mail: kontact(at)siemens.com
URL: http://www.siemens.de
Themen in dieser Meldung:
Unternehmensinformation / Kurzprofil:
Siemens
Wittelsbacherplatz 2
80333 München
Deutschland
Telefon: +49 (89) 636 0
Telefax: +49 89 636-52 000
Mail: kontact(at)siemens.com
URL: http://www.siemens.de
Datum: 15.11.2013 - 18:21 Uhr
Sprache: Deutsch
News-ID 981939
Anzahl Zeichen: 0
pressrelations.de – ihr Partner für die Veröffentlichung von Pressemitteilungen und Presseterminen, Medienbeobachtung und Medienresonanzanalysen
Diese HerstellerNews wurde bisher 673 mal aufgerufen.
Die Meldung mit dem Titel:
"Storage Heaters as Buffers for Wind Power
"
steht unter der journalistisch-redaktionellen Verantwortung von
Siemens (Nachricht senden)
Beachten Sie bitte die weiteren Informationen zum Haftungsauschluß (gemäß TMG - TeleMedianGesetz) und dem Datenschutz (gemäß der DSGVO).
Alle Meldungen von Siemens
Hybrid Power Solutions sichert sich Auftrag für saubere Energieanlagen im Wert von 600.000 $
Energiewirtschaftsgesetz§14a: Jetzt bares Geld sparen mit smarter Stromnutzung
First Phosphate reicht NI 43-101-konformen technischen Bericht zur ersten Mineralressourcenschätzung für seine Phosphatlagerstätte Bégin-Lamarche in der Region Saguenay-Lac-Saint-Jean in Quebec ein
Der Termin rückt näher - Die Woche der Wärmepumpe: einfach informieren
Polaris Renewable Energy Declares Quarterly Dividend