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[kWhheat/kWhfuel]
0,9
Primärenergiefaktor Erdgas
[kWhheat, fossil/kWhPE]
0,95
Primärenergiefaktor Elektrizität
CO2-Faktor für Wärme aus Erdgas
[kWhelectr/kWhPE]
0,5
[kgCO2/kWhheat,useful]
0,25
CO2-Faktor für Wärme aus Elektrizität
Kosten der Solaranlage (Flachkollektor)
Installationskosten für die Solaranlage
Kosten für Wärme-/Kältespeicher
Kosten für Ab/Adsorptionskältemaschine
Kosten für Referenz Kompressionskältemaschine
Kosten für Kühlturm
Installationskosten für Ab/Adsorptionskältemaschine
Installationskosten für Referenz Kompressionskältemaschine
Brennstoffkosten
Elektrizitätskosten
Kosten Wasser
Planungskosten für das Referenzsystem
Wartungskosten für das Referenzsystem
Planungskosten für das SC+ System
Wartungskosten für das SC+ System
Kalkulatorische Zinssatz "i"
Wirtschaftliche Lebensdauer "n"
Annuitätenfaktor
[kgCO2/kWhheat,useful]
[€/m²]
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[€]
[€]
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[€]
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[€/kWh]
[€/kWh]
[€/m³]
[€]
[€]
[€]
[€]
[%]
[a]
[-]
0,5
650
125
1.150
20.199
6.750
3.268
6.321
1.350
0.06
0.15
1,5
0
100
333
494
2,5
20
0,0642 Kesselwirkungsgrad
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50,000
Q_cold_demand [kWh]
45,000
Q_heat_demand [kWh]
Q_DHW_demand [kWh]
Annual energy demand, kWh/a
40,000
35,000
30,000
25,000
20,000
15,000
10,000
5,000
0
100
60
CC
100
60
FC
Residential - Naples
100
60
100
CC
60
FC
Residential - Toulouse
Naples Strasbourg Toulouse
Office
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Cost of PE Saved, €/kWh
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1
Office
0.8
Naples (res.)
0.6
Toulouse (res.)
0.4
0.2
0
10,000
20,000
30,000
40,000
50,000
60,000
Total Energy Demand (Cooling, Space Heating + DHW), kWh/a
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Cost per Useful kWh, €/(kWh/a)
0.40
Office
0.35
Naples (res.)
Toulouse (res.)
0.30
0.25
Reference system
0.20
0.15
0.10
0.05
0.00
10,000
20,000
30,000
40,000
50,000
60,000
Total Energy Demand (Cooling, Space Heating + DHW), kWh/a
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88.5 m² Coll. area
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75.5 m² Coll. area
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49 m² Coll. area
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0
1
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0
1
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75.5 m² Coll. area
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1.6
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5
6
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0.4
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0.2
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0.1
59 m² Coll. area
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-0.2
0
1
2
3
4
5
6
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Cooling, -
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0.9
0.8
69 m² Coll. area
59 m² Coll. area
0.7
48.5 m² Coll. area
0.6
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0.5
0
1
2
3
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6
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Datenblatt
DatenblattKollektor
Kollektor
UNISOL
27
UNISOL 27
Kollektor
UNISOL 27
(mit ALU - Absorber)
Alle unsere Kollektoren und Komponenten sind qualitätsgeprüft!
Vers. 03 / Mai 2008
Technische Daten
UNISOL 27
Wirkungsgraddiagramm
0,8
2,66 m²
2,49 m²
2,50 m²
Kollektor/Gehäuse
Kollektorart
Länge
Breite
Tiefe
Material
Gewicht
Montageart
Flachkollektor
2136 mm
1246 mm
98 mm
Aluminium blank
47 kg
Aufdach
Wirkungsgrad n
0,7
Bezugsflächen
Bruttofläche
Aperturfläche
Absorberfläche
0,6
0,5
0,4
0,3
0,2
0,1
0
0
0,02
0,04
0,06
0,08
0,1
(Tm-Ta)/G* [(m²K)/W]
Prüfergebnisse Wärmeleistung
Wärmeträgerinhalt
Durchmesser der Anschlüsse
Absorptionsgrad
Emissionsgrad
Max. Betriebsdruck
Stillstandstemperatur
Empfohl. Durchflussmenge
Transparente Abdeckung
Material
Vollflächenabsorber
0,5 mm (Alu)
hochselektiv
vakuumbeschichtet
1,26 Liter
CU 18
95 %
5%
10 bar
208 °C
20 – 40 l/m²h
GLAS ESG
Wärmedämmung
Material
Dicke
Steinwolle
50 mm
Prüfberichtsnummer
06COL482/2OEM06
Keymark-Registriernummer
011-7S359F
Konversionsfaktor Ș0 / Ș0,05
Wärmedurchgangskoeffizient a1
therm. Wärmedurchgangsk. a2
Einfallswinkel-Korrekturfaktor K0(50°)
74,6 % / 55,6 %
3,232 [W/(m²K)]
0,014 [W/(m²K²]
0,92
Druckverlustkurve
bei 40°C und 40% Propylenglykol
160
140
Druckverlust (pressure drop) … [mbar]
Absorber
Art des Absorbers
Dicke
Oberflächenbehandlung
120
100
80
60
40
20
0
100
150
200
250
1 mWS = 100 mbar = 0,1 bar
300
350
400
450
500
550
600
Durchfluss (mass flow) … [kg/h]
Verschaltung
Einsatzgrenzen
UNISOL 27 - max. 6 Stück in Serie
(dann Dehnungsschleife)
Kollektorneigung zwischen 15° und 70°
Zusatzneigung (seitlich gedreht) max. 30°
Horizontaler Abstand zw. 2 Modulen nebeneinander:
50 mm
Schnitt
ISOLIERUNG
34.5
Absorber
98
GLASABDECKUNG
9
Siehe Dokument „Max. Serienverschaltung“,
zum download auf der Homepage
Stockschraubenbefestigung Aufdach
für Eternit- und Biberdächer (SSB)
Mindestsparrenbreite von 80 mm erforderlich.
Bei Eternit-Einfachdeckung nicht einsetzbar.
SSB 0
Stockschraubenbefestigung PARALLEL
Stockschraubenbef. 20° ANGEHOBEN
SSB 20
SSB 45
Stockschraubenbef. 45° ANGEHOBEN
SSB 60
Stockschraubenbef. 60° ANGEHOBEN
Dachbügelbefestigung Aufdach
für Ziegeldächer (DBB)
Maximale Überlappung der Dachziegel 10 cm
Dachbügelbefestigung PARALLEL
DBB 0
DBB 20
Dachbügelbef. 20° ANGEHOBEN
Dachbügelbef. 45° ANGEHOBEN
DBB 45
Falzklemmenbefestigung Aufdach
für verzinkte Blechdächer (FKB)
Falzrichtung entlang der Kollektorenausrichtung (Falzklemmen in
Edelstahl). Spezialklemmen für Blechdächer auf Anfrage.
Blechdachbefestigung PARALLEL
FKB 0
FKB 20
Blechdachbefestigung 20° ANGEHOBEN
Blechdachbefestigung 45° ANGEHOBEN
FKB 45
FKB-QUER
Blechdachbefestigung 45° ANGEHOBEN
Trägerplattenbefestigung Aufdach
für Blechdächer (TPB)
TPB0
TPB20
TPB45
Trägerplattenbefestigung PARALLEL
Trägerplattenbefestigung 20° ANGEHOBEN
Trägerplattenbefestigung 45° ANGEHOBEN
Betonfundament Aufdach
Betonfertigteilelemente zur Kollektorbefestigung auf Flachdächern.
Gewicht je Element 180 kg - Abmessungen: L x B x H = 180 cm x 26 cm x 16 cm
SPEZIALBEFESTIGUNGEN
FK-FIX2000
FKGBS
SPA-PREFA
Solarklemme für Trapezdächer, nur für Parallelmontage
Solarklemme für Gleitbügeldächer, Länge 450 mm, 5x verschraubt
PREFA-Solarhalter, inkl. Schrauben, Bedarf: 2 Bügel/m² Kollektorfläche
Befestigungsabstände
UNISOL 27
x
y
Parallel 20°
45°
2211 2050 1580
800 1550
A-4642 Sattledt, Gewerbestraße 15
Tel: (+43) 07244-20 280 · Fax: (+43) 07244-20 280-18
[email protected] · www.sol-ution.com
Pufferspeicher
HPS 3000
HPS 4000
HPS 5000
Alle SOLution Solarspeicher sind qualitätsgeprüft!
Vers. V01 / Juni 2009
Datenblatt HPR & HPS
Energiespeicher für Solarenergie
Pufferspeicher mit oder ohne Register erhältlich
Deckel aus FCKW- freier Weichschaumisolierung und mit 150 mm Stärke
Technische Daten SOLution Pufferspeicher
SOLution Pufferspeicher sind aus 4 mm starkem Stahlblech DIN 4753 gefertigt, innen schwarz und wahlweise mit
eingeschweißtem Glattrohrregister erhältlich. Alle 6/4‘‘-Anschlüsse sind mit Prallblechen zur Erhaltung der
Speicherschichtung ausgestattet.
Heizungspuffer ohne Register
HPS3000
HPS4000
HPS5000
Inhalt
l
3000
4000
5000
Durchmesser
mm
1250
1400
1600
Gewicht
kg
300
380
450
Zul. Betriebs-druck Heizung
bar
3
3
3
Zul. Betriebs-temp. Heizung
°C
95
95
95
SOLution Pufferspeicher sind aus 4 mm starkem Stahlblech DIN 4753 gefertigt, innen
Höhe
mm
2660
2840
schwarz und wahlweise mit eingeschweißtem
Glattrohrregister
erhältlich.
Alle 6/4‘‘-2935
Belastbar
Anschlüsse sind mit Prallblechenmm
zur Erhaltung der2850
Speicherschichtung
ausgestattet.
Kipmaß
3040
3140
Abmessungen
A
mm
380
505
400
B
mm
1020
1110
1100
C
mm
1680
1860
1810
D
mm
2330
2410
2520
F
mm
2705
2835
2870
G
dm
1250
1400
1600
I
dm
1450
1600
1800
Technische Änderungen vorbehalten.
ØI
ØG
5/4" IG
6/4"IG
1/2"
6/4" IG
Fühlerlasche
6/4"IG
1/2"
5/4"
6/4" IG
40° 150mm
F
D
6/4"IG
1/2"
6/4" IG
60°
C
6/4"
6/4"
1/2" 150mm
100°
Alle Anschlüsse Innengewinde
B
6/4"IG
1/2"
6/4" IG
A
Vers. V01 / Juni 2009
40°
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Axima Refrigeration GmbH
Version 8.01 vom 28. Februar 2005
Auslegungsprogramm für Escher Wyss Kühltürme
Bearbeiter:
Projekt:
Abt.:
Datum:
SOLUTION
Angebots-Nr.
22.01.2010
0000 / 1
Seite von Seiten:
Technische Daten 1
Technisches Datenblatt EWK
1 Vollkunststoff-Kühlturm EWK 036/06
Aufstellung:
auf bauseitigem Stahl-Trägerfundament gemäß unseren Angaben
Ausführung:
mit Wasserauffangschale
Auslegungsdaten:
Gesamte Wärmeübertragungsleistung
Gesamter Wasserdurchsatz
Wärmeübertragungsleistung je Kühlturm
Wasserdurchsatz je Kühlturm
Wasservorlauftemperatur
Wasserrücklauftemperatur
Kühlgrenztemperatur
47,2
6,8
47,2
6,8
36,0
30,0
22,5
kW
m³/h
kW
m³/h
°C
°C
°C
Den Auslegungsdaten liegt die DIN EN 13741 zugrunde.
Bezüglich der Betriebsweise verweisen wir auf unsere Betriebsanleitung.
Betriebsdaten je Kühlturm:
Zusatzwasserbedarf ohne Abschlämmen ca.
Anzahl der Düsen
Düsentyp
Düsenvordruck
0,1 m³/h
1
EW 8
0,48 bar
Motor- und Ventilatordaten je Kühlturm:
Anzahl der Ventilatoren / Motoren
Motorleistung je Ventilator
Motordrehzahl
Ventilatordrehzahl
Betriebsspannung
Frequenz
Schutzart des Motors
Schaltung
1
0,4
1.430
1.430
400
50
IP 54
direkt
kW
min-1
min-1
V
Hz
Datenblatt Pufferspeicher
HPR & HPS
Pufferspeicher
HPR & HPS
Alle SOLution Solarspeicher sind qualitätsgeprüft!
Energiespeicher für Solarenergie
Pufferspeicher mit oder ohne Register erhältlich
Deckel aus FCKW- freier Weichschaumisolierung und mit 150 mm Stärke.
Technische Daten
SOLution Pufferspeicher sind aus 4 mm starkem Stahlblech DIN 4753 gefertigt, innen schwarz und wahlweise
mit eingeschweißtem Glattrohrregister erhältlich. Alle 6/4‘‘-Anschlüsse sind mit Prallblechen zur Erhaltung der
Speicherschichtung ausgestattet.
Heizungspuffer mit Register
Heizungspuffer ohne Register
HHPR800
HPR1000
HPR1500
HPS800
HPS1000
HPS1500
HPS2000
l
800
1000
1500
800
1000
1500
2000
Durchmesser
mm
790
790
1000
790
790
1000
1100
Höhe
mm
1730
2080
2180
1730
2080
2180
2410
Kipmaß
mm
1740
2100
2215
1740
2100
2215
2440
Gewicht
kg
141
156
185
141
156
185
211
Zul. Betriebsdruck Heizung
bar
3
3
3
3
3
3
3
Zul. Betriebstemp. Heizung
°C
95
95
95
95
95
95
95
Max. Betriebsdruck Register
Bar
8
8
8
-
-
-
-
Register
m²
2,4
3
3,6
-
-
-
-
Inhalt
Abmessungen
Heizungspuffer mit Register
Heizungspuffer ohne Register
HHPR800
HPR1000
HPR1500
HPS800
HPS1000
HPS1500
HPS2000
A
B
C
D
E
F
mm
mm
mm
mm
mm
mm
260
630
1030
1430
260
1730
310
745
1250
1710
310
2080
372
817
1342
1752
372
2180
260
630
1030
1430
1730
310
745
1250
1710
2080
372
817
1342
1752
2180
317
900
1490
2020
2410
G
mm
790
790
1000
790
790
1000
1100
I
mm
990
990
1200
990
990
1200
1300
M mm
930
1030
1172
-
-
-
-
A-4642 Sattledt, Gewerbestraße 15 · Gewerbegebiet NORD
Tel: (+43) 07244-20 280 · Fax: (+43) 07244-20 280-18
[email protected] · www.sol-ution.com
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