Sistemi solari

Per ottenere l’incentivo massimo, quindi,

è necessario dimostrare di aver sostenuto delle spese maggiori dei valori in

tabella:

Tabella complessiva delle soluzioni STS+

STS+ 150 2.0

STS+ 150 2.5

STS+ 200 2.0

STS+ 200 2.5

STS+ 300 2.0

STS+ 300 2.5

Incentivo Conto

Termico massimo

Spesa minima dei lavori

per ottenere incentivo

massimo

691,25 €

770,19 €

802,28 €

934,89 €

1.458,33 €

1.635,67 €

1.063,46 €

1.184,91 €

1.234,27 €

1.438,29 €

2.243,59 €

2.516,41 €

Collettori solari a circolazione forzata. Due esempi di calcolo.

Nota: per il riepilogo dei valori di incentivo verifica alla pagina

https://www.baxi.it/privati/incentivi-fiscali/conto-termico

1 collettore solare SOL 250-V per produzione ACS

Page 1/2

Annex to Solar Keymark Certificate - Summary of EN ISO

9806:2013 Test Results

Licence Number

078-000302

Date issued

2018-03-16

Issued by

AENOR

Licence holder

BDR THERMEA GROUP B.V.

Country

NETHERLANDS

Brand (optional)

BAXI

Web

http://www.bdrthermea.com

Street, Number

MARCHANSTRAAT 55

E-mail

oleguer.fuertes@baxi.es

Postcode, City

7300 AA, APPELDOORN

Tel

+34 902 89 80 00

Collector Type

Flat plate collector, glazed

Collector name

Power output per collector

Gb = 850 W/m2; Gd = 150 W/m2

θm-θa

0K

10 K

30 K

50 K

70 K

90 K

m2

2,52

mm

2.191

mm

1.151

mm

70

W

1.920

W

1.823

W

1.608

W

1.364

W

1.093

W

793

BAXI SOL250-V

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

Power output per m2 gross area

762

723

638

541

434

315

Performance parameters test method

Steady state - indoor

Performance parameters (related to AG)

η0,hem

a1

a2

Units

-

W/(m2K)

W/(m2K2)

Test results

0,762

3,711

0,014

0,180

0,000

0,000

0,910

Incidence angle modifier test method

Quasi dynamic - outdoor

Bi-directional incidence angle modifiers

No

Incidence angle modifier

Angle

10°

20°

30°

40°

50°

60°

70°

80°

90°

Transversal

K

θT,coll

1,00

0,99

0,99

0,97

0,95

0,91

0,83

0,57

0,00

Longitudinal

K

θL,coll

1,00

0,99

0,99

0,97

0,95

0,91

0,83

0,57

0,00

Heat transfer medium for testing

Water

Flow rate for testing (per gross area, A

G

)

dm/dt

0,020

kg/(sm2)

Maximum temperature difference for thermal performance calculations

(θ

m

-θ

a

)

max

90

K

Standard stagnation temperature (G = 1000 W/m2; θ

a

= 30 °C)

θ

stg

190

°C

Effective thermal capacity, incl. fluid (per gross area, A

G

)

C/m

2

4,38

kJ/(Km

2

)

Maximum operating temperature

θ

max_op

n.n.

°C

Maximum operating pressure

p

max,op

1000

kPa

Testing laboratory

TÜV Rheinland Energy GmbH

http://www.tuv.com/solarenergie

Test report(s)

21239603.002Rev3

Dated

15/03/2018

Comments of testing laboratory

Datasheet version: 5.01, 2016-03-01

AENOR INTERNACIONAL, S.A.U. - Génova, 6. - 28004 - Madrid, España - Tel. 91 432 60 00– www.aenor.com

Product certification body accredited by ENAC, number 01/C-PR002.078

33

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