Per ottenere l’incentivo massimo, quindi, è necessario dimostrare di aver sostenuto delle spese maggiori dei valori i

n

tabella:

Tabella complessiva delle soluzioni STS

+

Incentivo Conto Termico

massim

o

Spesa minima dei lavori per

ottenere incentivo massim

o

STS+ 150 2.0

699,03 €

1.075,43

€

STS+ 200 2.0

821,72 €

1.264,19

€

STS+ 200 2.5

944,41 €

1.452,94 €

STS+ 300 2.0

1.477,78 €

2.273,51 €

STS+ 300 2.5

1.631,20 €

2.509,54 €

Collettori solari a circolazione forzata. Due esempi di calcolo

.

Nota: per il riepilogo dei valori di incentivo veri

fica alla pagin

a

https://www.baxi.it/privati/incentivi-

fiscali/conto-termico

1 collettore solare SOL 250-V per produzione AC

S

Page 1/2

Licence Number

078-00030

2

Annex to Solar Keymark Certificate - Summary of EN ISO

9806:2013 Test Result

s

Date issued

2018-03-16

Issued by

AENO

R

Licence holder

BDR THERMEA GROUP B.V.

Countr

y

NETHERLANDS

We

b

Brand (optional)

BAXI

http://www.bdrthermea.com

Street, Number

MARCHANSTRAAT 55

E-mai

l

oleguer.fuertes@baxi.es

Postcode, City

7300 AA, APPELDOORN

Tel

+3

4 902 89 80 00

Collector Type

Flat plate collector, glaze

d

G

r

o

s

s

a

r

e

a

(

A

G

)

Power output per collector

Gb = 850 W/m²; Gd = 150 W/m

²

ϑm - ϑ

a

G

r

o

s

s

l

e

n

g

t

h

G

r

o

s

s

w

i

d

t

h

G

r

o

s

s

h

e

i

g

h

t

0 K

10 K

30 K

50 K

70 K

90 K

Collector name

m²

mm

mm

mm

W

W

W

W

W

W

BAXI SOL250-

V

2,52

2.191

1.151

70

1.920

1.823

1.608

1.364

1.093

793

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 - indoo

r

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

0,91

0

Incidence angle modifier test method

Quasi dynamic - outdoo

r

Bi-directional incidence angle modifiers

No

Incidence angle modifie

r

Angle

10°

20°

30°

40°

50°

60°

70°

80°

90

°

Transversal

KθT,coll

1,00

0,99

0,99

0,97

0,95

0,91

0,83

0,57

0,00

Longitudinal

KθL,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, AG)

dm/dt

kg/(sm²

)

0,02

0

Maximum temperature difference for thermal performance calculations

(ϑm-ϑa)max

K

90

Standard stagnation temperature (G = 1000 W/m²; ϑa = 30 °C)

ϑstg

190

°

C

Effective thermal capacity, incl. fluid (per gross area, AG)

C/m2

4,38

kJ/(Km2

)

Maximum operating temperature

ϑmax_op

n.n.

°

C

Maximum operating pressure

pmax,op

100

0

kPa

Testing laboratory TÜV Rheinland Energy GmbH

http://www.tuv.com/solarenergi

e

Test report(s)

21239603.002Rev3

Dated

15/03/2018

Comments of testing laboratory

Datasheet version: 5.01, 2016-03-01

A

AE

EN

NO

OR

R

I

IN

NT

TE

ER

RN

NA

AC

CI

IO

ON

NA

AL

L,

, S

S.

.A

A.

.U

U.

. - Génova, 6. - 28004 - Madrid, España - Tel. 91 432 60 00– www.aenor.com

Product certification body accredited by ENAC, number 01/C-PR002.07

8

33