Difference between revisions of "Saisonal Thermal Energy Storage (STES)"

(Created page with "{{Saisonal Thermal Energy Storage (STES) |Description=(empty) |Advantages=(empty) |Disadvantages=(empty) |Application barriers=(empty) |Information sources=(empty) |Image=(emp...")
 
 
Line 8: Line 8:
 
|Trade=(empty)
 
|Trade=(empty)
 
|Type of STES=(empty)
 
|Type of STES=(empty)
 +
|Solar Fraction=(empty)
 
|Storage Volume=(empty)
 
|Storage Volume=(empty)
 
|Dimensions=(empty)
 
|Dimensions=(empty)
Line 13: Line 14:
 
|Return Temperature=(empty)
 
|Return Temperature=(empty)
 
|Recharging Cycle=(empty)
 
|Recharging Cycle=(empty)
|Solar Fraction=(empty)
 
 
|Investment Cost=(empty)
 
|Investment Cost=(empty)
 
|Operational Cost=(empty)
 
|Operational Cost=(empty)
Line 20: Line 20:
 
}}
 
}}
  
 
+
Properties:
 
+
 
[[Category:Thermal Energy Storage Technologies]]
 
[[Category:Thermal Energy Storage Technologies]]
[[relevence::3]]
 
 
[[class::Thermal Energy Storage Technologies]]
 
[[class::Thermal Energy Storage Technologies]]
[[importance::1]]
+
[[relevance::2]]
 +
[[importance::2]]
 +
[[efficiency::2]]

Latest revision as of 13:56, 22 November 2016




[edit]
Description

(empty)

Advantages

(empty)

Disadvantages

(empty)

Application barriers

(empty)

Information sources

(empty)

Image

(empty)

Trade: (empty)


Parameter Value Unit
Type of STES

(empty)

Solar Fraction

(empty)

%

Storage Volume

(empty)

Dimensions

(empty)

m

Supply Temperature

(empty)

°C

Return Temperature

(empty)

°C

Recharging Cycle

(empty)

Investment Cost

(empty)

Operational Cost

(empty)

€/year

Replacement Cost

(empty)

€/year

Life Expectancy

(empty)

years

The Design4Energy project aims to address evolutionary life-cycle evolutionary design methodology able to create energy-efficient buildings flexibly connected with the neighbourhood energy system. BrokenWall.JPG
BL(Ti)=0.788
Equation.JPG


pCghffhfhart


Properties:Thermal Energy Storage Technologies 2 2 2