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CA

TÁLO

G /

PR

ICE

S

DESIGN, DEVELOPMENT AND MANUFACTURE OF

HYBRID SOLAR PANELS

Mission

View

Abora is a Spanish company formed by a team of professionals with extensive background and experience in the field of solar energy specializing in the design, development and manufacture of hybrid solar panels.

Maximize the profitability of environmental resources with our technological innovation and service, for the benefit of the planet and people.

To be leaders in solar technology at a global level, with recognition for its social responsibility, quality and constant innovation, without forgetting the rentability design and customer needs.

A hybrid solar panel is capable of generating electricity and hot water simultaneously thanks to solar energy. For this, it has photovoltaic cells that produce electricity and a hydraulic system that heats the water, minimizing thermal losses and maximizing photovoltaic production.

Therefore, thanks to the fact that all the energy is captured only from the sun, the amount ofCO

2 that is emitted to the atmosphere is zero, thus protecting the environment.

This has been the evolution of hybrid solar panels since its inception 25 years ago.

What is a hybrid solar panel?

FV PVT-0 PVT-1 PVT-2 aH60

Photovoltaic panel Heat recovery Subsequent insulation Front insulation

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GENERAL CATALOG3

PANEL HIBRIDO

GLOSSARY

�

�

�

�

Electric energy

Thermal energy

Hotels sector

Residences sector

Industrial sector

Sport centers sector

Campsites sector

Farm sector

Multidwelling housing sector

Hospital sector

Car wash sector

Single family housing sector

Aerothermal system

Geothermal system

Biomass

Boiler

Adsorption machine

Heat pump

Deposit

Scheme

Description

Technical features

Normative

CE marking (European conformity)

B

G

A

C

ADS

BdC

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GENERAL CATALOG4

INDEX

SECTORS

Hotels

Residences of the third age

Industry

Sport centers

Campsites

Pig farms

Multidwelling houses

Hospitals

PRODUCTS

aH60 Optimum

aH60 Black

Connection Kits

Structures

TYPOLOGIES OF INSTALLATION

PVT + Aerothermal System

PVT + Geothermal System

PVT + Biomass

PVT + DHW and Swimming pools

PVT + DHW, heating and Swimming pools

PVT + Adsorption (Solar Trigeneration)

PVT + Seasonal Storage

FAQs

TECHNICAL SERVICE

6

8

9

10

11

12

13

14

15

16

16

18

20

21

22

22

23

23

24

24

25

25

26

30

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GENERAL CATALOG5

SECTORSINSTALLATION

Residence

65%4 - 6 years

Campsite

70%5 - 7 years

Farm

50%5 - 6 years

Hospital

45%4 - 6 years

Hotel

65%4 - 6 years

Familyhouse

85%7 - 9 years

Industry

55%5 - 7 years

SportCenter

65%5 - 7 years

Multidwellinghouse

75%5 - 7 years

Industry

55%4 - 6 years

Return of theinvestment

Energysaving

Car wash6 - 8 years

50%

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GENERAL CATALOG6

SECTORSINSTALLATION

Residence

65%4 - 6 years

Campsite

70%5 - 7 years

Farm

50%5 - 6 years

Hospital

45%4 - 6 years

Hotel

65%4 - 6 years

Familyhouse

85%7 - 9 years

Industry

55%5 - 7 years

SportCenter

65%5 - 7 years

Multidwellinghouse

75%5 - 7 years

Industry

55%4 - 6 years

Return of theinvestment

Energysaving

Car wash6 - 8 years

50%

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GENERAL CATALOG7

HOTELS

��RETURN OF THEINVESTMENT

4-6 years

ENERGYSAVING

60-70 %

AVOIDEDEMISSIONS

530 KgCO2 by panel

EXAMPLE: ZONE IV

Number of panels

Solar coverage (%)

Economic saving (€ / year)

Energy saving (kWh / year)

Emissions savings

Estimated investment (€)

Amortization (years)

Accumulated cash flow (€)

46

70%

10.292

129.411

29.759

63.296

5,9

400.076

110

70%

20.721

256.347

58.888

128.305

5,8

814.063

170

70%

31.153

391.703

90.108

183.685

5,4

1.269.537

225

70%

41.309

519.418

119.460

239.585

5,3

1.695.596

280

70%

51.460

647.059

148.797

293.941

5,2

2.122.921

�Users � 100 � 200 � 300 � 400 � 500

• Cost of turnkey installation: total investment to be made fully up and running.

• Economic savings for the 1st year.• VAT not included.• Gas Price: 0,08 €/kWh

• Electricity price: 0,075 €/kWh• Increase in the price of energy: 5%• Emissions factor: Gas: 0,2016 kgCO

2/kWh , Electricity: 0,385 kgCO

2/kWh

• Calculations also applicable to: Hospitals and clinics.

The hotel sector, having a high demand for electricity and DHW (domestic hot water), is the ideal sector to install hybrid solar panels aH60, since its return on investment is only 4-6 years and energy savings are obtained from 60-70%.

PANELS NECESSARY ACCORDING TO AREA AND USERS

100

200

300

400

500

�

28

56

85

112

140

Zone I

35

90

135

180

215

Zone II

36

112

172

228

284

Zone III

46

110

170

225

280

Zone IV

48

96

144

192

240

Zone V�

In each Zone and demand, the requirements of CTE DB-HE4 have been met.

I II III IV V

RADIATION ZONESIN SPAIN

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GENERAL CATALOG8

RESIDENCES

��4-6 years 60-70 % 530 KgCO

2 by panel

EXAMPLE: ZONE IV

Number of panels

Solar coverage (%)



Emissions savings




14

50%

2.779

34.957

7.994

18.900

6,0

112.997

27

50%

5.389

67.797

15.494

32.670

5,4

223.128

51

60%

9.806

123.319

28.311

57.987

5,3

407.373

68

60%

13.061

164.243

37.711

57.987

5,2

543.423

125

70%

23.052

289.777

66.874

143.750

5,2

949.913

�Users � 50 � 100 � 150 � 200 � 300


• Economic savings for the 1st year.• VAT not included.• Gas Price: 0,08 €/kWh

• Electricity price: 0,075 €/kWh• Increase in the price of energy: 5%• Emissions factor: Gas: 0,2016 kgCO


2/kWh

• Calculations also applicable to: Hospitals and clinics.

The residential sector is characterized by having a very high and constant demand throughout the year in both DHW (domestic hot water) and electricity consumption. These conditions are optimal for the installation of hybrid solar panels aH60, since its return of investment is only 4-6 years and energy savings of 60-70% are obtained.


50

100

150

200

300

�

11

22

33

43

62

10

19

40

53

85

11

21

41

54

101

14

27

51

68

125

15

30

54

72

107

�

In each zone and demand has been fulfilled as required by CTE DB-HE4

I II III IV V

OF THE THIRD AGE

RETURN OF THEINVESTMENT

ENERGYSAVING

AVOIDEDEMISSIONS


Zone I Zone II Zone III Zone IV Zone V

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GENERAL CATALOG9

��5-7 years 50-60 % 530 KgCO

2 by panel

EXAMPLE: ZONE IV

Number of panels

Solar coverage (%)



Emissions savings




8

50%

1.474

17.842

4.121

12.579

7,2

60.235

15

50%

2.783

33.741

7.785

22.235

6,9

115.400

22

50%

4.096

49.690

11.459

28.591

6,0

173.634

30

50%

5.567

67.481

15.570

36.300

5,7

238.557

55

60%

9.950

119.876

27.771

62.152

5,5

429.598

�Users � 100 � 200 � 300 � 400 � 500


• Economic savings for the 1st year.• VAT not included.• Gas price: 0,068 €/kWh• Electricity price: 0,158 €/kWh• Increase in the price of energy: 5%

• Emissions factor: Gas: 0,2016 kgCO


2/kWh

• Calculations also applicable to: Campings, gyms, schools with showers, changing rooms and collective showers and sports centers.

• Inclination: 35º (Canarias: 25º)


50

100

150

200

300

�

6

12

17

23

35

Zone I

5

9

14

18

38

Zone II

6

12

17

23

44

Zone III

8

15

22

30

55

Zone IV

8

16

24

32

58

Zone V�

In each Zone and demand it has been fullfilled as required by the CTE DB-HE4.

In the industry sector, there are enterprises with high consumption of hot water, either for him industrial process or for changing rooms for their workers. Besides there is a high consumption of electricity and thanks to the hybrid solar panels aH60, an energy saving of about 50-60% can we obtained, getting a return of the investment in 5 to 7 years.

I II III IV V

INDUSTRY


ENERGYSAVING

AVOIDEDEMISSIONS


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GENERAL CATALOG10

SPORT CENTERS

��5-7 years 50-60 % 530 KgCO

2 by panel

EXAMPLE: ZONE IV

Number of panels

Solar coverage (%)



Emissions savings




8

50%

1.474

17.842

4.121

12.579

7,2

60.235

15

50%

2.783

33.741

7.785

22.235

6,9

115.400

22

50%

4.096

49.690

11.459

28.591

6,0

173.634

30

50%

5.567

67.481

15.570

36.300

5,7

238.557

55

60%

9.950

119.876

27.771

62.152

5,5

429.598

�Users � 100 � 200 � 300 � 400 � 500


• Economic savings for the 1st year• VAT not included.• Gas price: 0,068 €/kWh• Electricity price: 0,158 €/kWh• Increase in the price of energy: 5%



2/kWh

• Calculations also applicable to: Campings, gyms, schools with showers, changing rooms and collective showers and factories and workshops.


The sports centers and sports facilities have a high consumption of hot water demanded by the changing rooms and by the swimming pool if one exists. So therefore, hybrid solar panels aH60 fit perfectly in this type of sports facilities, getting a return on investment of only 5-7 years and obtaining energy savings of 50-60%.


50

100

150

200

300

�

6

12

17

23

35

Zone I

5

9

14

18

38

Zone II

6

12

17

23

44

Zone III

8

15

22

30

55

Zone IV

8

16

24

32

58

Zone V�


I II III IV V

WITH COLLECTIVE SHOWERS


ENERGYSAVING

AVOIDEDEMISSIONS


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GENERAL CATALOG11

��5-7 years 50-60 % 530 KgCO

2 by panel

EXAMPLE: ZONE IV

Number of panels

Solar coverage (%)



Emissions savings




8

50%

1.474

17.842

4.121

12.579

7,2

60.235

15

50%

2.783

33.741

7.785

22.235

6,9

115.400

22

50%

4.096

49.690

11.459

28.591

6,0

173.634

30

50%

5.567

67.481

15.570

36.300

5,7

238.557

55

60%

9.950

119.876

27.771

62.152

5,5

429.598

�Users � 100 � 200 � 300 � 400 � 500


• Economic savings for the first year• VAT not included.• Gas price: 0,068 €/kWh• Electricity price: 0,158 €/kWh

• Increase in the price of energy: 5%• Emissions factor: Gas: 0,2016 kgCO


2/kWh

• Calculations also applicable to: Sports centers, gyms, schools with showers, changing rooms and collective showers and factories and workshops.


Campsites have a high consumption in DHW (domestic hot water), by the needs of its users, in addition to energy consumption electric Thanks to solar panels hybridized to aH60, savings were made energetics of 50-60%, obtaining a return on investment of only 5 to 7 years


50

100

150

200

300

�

6

12

17

23

35

Zone I

5

9

14

18

38

Zone II

6

12

17

23

44

Zone III

8

15

22

30

55

Zone IV

8

16

24

32

58

Zone V�


I II III IV V

CAMPSITES


ENERGYSAVING

AVOIDEDEMISSIONS


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GENERAL CATALOG12

��5-7 years 50 % 530 KgCO

2 by panel

EXAMPLE: ZONE IV

Number of panels

Solar coverage (%)



Emissions savings




35

50%

4.817

81.897

6.366

43.524

7,4

192.679

53

50%

7.304

124.190

9.643

58.174

6,8

299.941

85

50%

11.771

200.272

15.484

88.202

6,5

488.883

175

50%

24.032

408.452

31.810

146.252

5,5

1.032.180

525

50%

72.211

1.227.516

95.468

392.285

5,0

3.148.408

�Number of mother sows 200 300 500 1.000 3.000


• Economic savings for the 1st year• VAT not included.

• Fuel price (Biomass): 0,04 €/kWh• Electricity price: 0,08 €/kWh• Increase in the price of energy: 5%• Emissions factor: Biomass: 0,018 kgCO


2/kWh

In the farms, due to the type of breeding and fattening process, there is a high consumption of electric energy and heating throughout the year, since it is necessary to maintain adequate temperature conditions. So it is the appropriate sector to install aH60 hybrid solar panels, since its return on investment is only 5-7 years and energy savings of 50% are obtained.

PANELS NECESSARY ACCORDING TO AREA AND SOWS

200

300

500

1.000

3.000

�

49

72

124

245

720

Zone I

44

66

108

220

640

Zone II

42

61

96

205

590

Zone III

35

53

85

175

525

Zone IV

30

46

78

158

460

Zone V

• In each zone and demand it has been dimensioned to cover 50% of the heating demand of the farm.• Estimated energy demand ratio: 75 kWh/m2.year

I II III IV V

Nº

mo

ther

so

ws


ENERGYSAVING

AVOIDEDEMISSIONS


PIG FARMS

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GENERAL CATALOG13

��5-7 years 60-70 % 530 KgCO

2 by panel

EXAMPLE: ZONE IV

Number of panels

Solar coverage (%)



Emissions savings




13

50%

2.399

29.149

6.728

13.100

6,9

94.010

29

50%

5.382

65.494

15.104

41.615

6,7

212.368

64

60%

11.532

139.334

32.284

84.441

6,4

459.544

110

70%

19.214

230.369

53.651

128.305

5,9

777.740

148

70%

25.795

309.093

72.012

162.771

5,6

1.053.550

�Nº Houses 20 50 100 150 200


• Economic savings for the 1st year• VAT not included.• Gas price: 0,068 €/kWh• Electricity price: 0,158 €/kWh• Increase in the price of energy: 5%



2/kWh

• Calculations also applicable to: Hostels, pensions, penitentiaries, barracks.

• It taking into consideration half of the houses with two bedrooms and the other half with three bedrooms.

PANELS NECESSARY ACCORDING TO AREA AND HOUSES

20

50

100

150

200

�

10

23

40

56

75

Zone I

8

18

43

79

105

Zone II

10

23

52

90

120

Zone III

13

29

61

110

148

Zone IV

14

32

69

96

128

Zone V


I II III IV V

Nº

ho

use

s

Multidwelling houses have a high consumption in DHW (domestic hot water), for the needs that users have, in addition to the consumption in electrical energy. You can obtain 70% energy savings, thanks to the installation of hybrid solar panels aH60, obtaining a return on investment of only 5 to 7 years.


ENERGYSAVING

AVOIDEDEMISSIONS


MULTIDWELLINGHOUSES

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GENERAL CATALOG14

HOSPITALS

��4-6 years 60-70 % 530 KgCO

2 by panel

EXAMPLE: ZONE IV

Number of panels

Solar coverage (%)



Emissions savings




14

50%

2.779

34.957

7.994

18.900

6,0

112.997

27

50%

5.389

67.797

15.494

32.670

5,4

223.128

51

60%

9.806

123.319

28.311

57.987

5,3

407.373

68

60%

13.061

164.243

37.711

57.987

5,2

543.423

125

70%

23.052

289.777

66.874

143.750

5,2

949.913

�Users � 50 � 100 � 150 � 200 � 300


• Economic savings considered for the 1st year. In the following years the savings increases with the price of energy.

• VAT not included.

• Gas price: 0,08 €/kWh• Electricity price: 0,075 €/kWh• Increase in the price of energy: 5%• Emissions factor: Gas: 0,2016 kgCO


2/kWh

• Calculations also applicable to: Residences of the third age.

The hospital sector, having a high demand for electricity and DHW (domestic hot water), is the ideal sector to install hybrid solar panels aH60, since its return on investment is only 4-6 years and savings are obtained energy of 60-70%.


50

100

150

200

300

�

11

22

33

43

62

Zone I

10

19

40

53

85

Zone II

11

21

41

54

101

Zone III

14

27

51

68

125

Zone IV

15

30

54

72

107

Zone V�


I II III IV V


ENERGYSAVING

AVOIDEDEMISSIONS


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GENERAL CATALOG15

The most efficient hybrid panel on the market

Uniting the best of photovoltaic solar energy and thermal energy we present the aH60 Optimum, the most efficient hybrid solar panel on the market.

Its characteristics make it ideal to install both small and large roofs, reducing the space used, saving costs and amortizing the installation earlier The energy saving is up to 70%.

We have the necessary racoreria to install them, to avoid errors in the assembly and ensure an optimal installation.

Panel aH60 OPTIMUM

aH Technology

Hybrid solar panel with thermal and photovoltaic production

If your installation requires placing the panels horizontally by integration, our technical department will evaluate it

PRODUCTS

Price: 795,00 €/unit*

* Connection kits and structure not included.

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GENERAL CATALOG16

aH60aH60

Electric specifications

Length x width x thickness 1650 x 995 x 82 mm

Total area 1.65m²

Opening area 1.57 m²

Number of cells 60

Weight 45 kg.

Front glass 3.2 mm.tempered

Framework Aluminum

Connection box protection IP65

Number of diodes 3 diodes

Dimensions of the cell 156 x 156

Connection type PV / length cables Solarlok PV4 / 1m

Optical performance 0.59

Coefficient of thermal losses, a1 3.3 W/m².K

Coefficient of thermal losses, a2 0.018 W/m².K²

Internal liquid capacitance 1.5 l

Stagnation temperature 154,90C

Number of hydraulic connections 4 connections

Measure Hydraulic connection quick connect

Maximum permissible pressure 10 bar

Cell type Mono-crystalline

Rated power (W) 260

Maximum power voltage (Vmpp) 31.44 V

Maximum power current (Impp) 8.59A

Open circuit voltage (Voc) 38.65 V

Short circuit current (Isc) 9.07 A

Module efficiency (%) 16.01

Power tolerance (W) 0/+3%

Maximum system voltage DC 1000 V (IEC)

Backsheet Black

Temperature coefficient of Pmpp -0.43%/ºC

Temperature coefficient of Voc -0.34%/ºC

Temperature coefficient of Isc -0.03%/ºC

Maximum reverse current 15A

NOCT Temperature* 45+/-2 ºC

�

Thermal specifications�

General specifications�

Standard test conditions STC: AM 1.5. irradiation 1000 w / m2

Cell temperature 25 ° Célula 25 ºC.

*800 W/m2, AM 1.5, wind speed 1 m/s y Tamb = 20ºC

80%

70%

60%

50%

40%

30%

20%

10%

0%0 0,01 0,02 0,03 0,04 0,05 0,06 0,07

(Tm-Ta)/G

Per

form

ance

Total hybrid performanceThermal performance

Photovoltaic performance

Pressure drop�

Pressure drop: Tª max: 20,13 ºC / Tª min: 19,39 ºC

0,035

0,030

0,025

0,020

0,015

0,010

0,005

0,0000 20 40 60 80 100 120 140

l/h

m.c

.a.

160 180 200

Dimensions�

995

16

50

82

PVproduction

16%

Thermalproduction

60%

ExtraPV production

* All percentages of production are conditioned to the working temperature range of installation.

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GENERAL CATALOG17

Panel aH60 BLACKPRODUCTS

The most exclusive hybrid panel

The aH60 Black is a design panel to integrate in buildings that require a special care of the esthetic. Its design makes it ideal to install in places where the panels are visible. Now aH60 Black realizes this vision.

We have the necessary connection to install them, to avoid errors in the assembly and to ensure an optimal installation.

If your installation requires placing the panels horizontally by integration, our technical department will evaluate it

Price: 895,00 €/unit*

* Connection kits and structure not included.

aH Technology

Hybrid solar panel with thermal and photovoltaic production

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GENERAL CATALOG18

aH60aH60

Electric specifications

Length x width x thickness 1650 x 995 x 82 mm

Total area 1.65m²

Opening area 1.57 m²

Number of cells 60

Weight 42 kg.

Front glass 3.2 mm.tempered

Framework Aluminum

Connection box protection IP65

Number of diodes 3 diodes

Dimensions of the cell 156 x 156

Connection type PV / length cables Solarlok PV4 / 1m

Optical performance 0.56

Coefficient of thermal losses, a1 3.3 W/m².K

Coefficient of thermal losses, a2 0.018 W/m².K²

Internal liquid capacitance 1.5 l

Stagnation temperature 152,10C

Number of hydraulic connections 4 connections

Measure Hydraulic connection quick connect

Maximum permissible pressure 10 bar

Cell type Mono-crystalline

Rated power (W) 260

Maximum power voltage (Vmpp) 31.44 V

Maximum power current (Impp) 8.59A

Open circuit voltage (Voc) 38.65 V

Short circuit current (Isc) 9.07 A

Module efficiency (%) 16.01

Power tolerance (W) 0/+3%

Maximum system voltage DC 1000 V (IEC)

Backsheet Black

Temperature coefficient of Pmpp -0.43%/ºC

Temperature coefficient of Voc -0.34%/ºC

Temperature coefficient of Isc -0.03%/ºC

Maximum reverse current 15A

NOCT Temperature* 45+/-2 ºC

�

Thermal specifications�

General specifications�

Standard test conditions STC: AM 1.5. irradiation 1000 w / m2

Cell temperature 25 ° C

*800 W/m2, AM 1.5, wind speed 1 m/s y Tamb = 20ºC

80%

70%

60%

50%

40%

30%

20%

10%

0%0 0,01 0,02 0,03 0,04 0,05 0,06

(Tm-Ta)/G

Per

form

ance

Pressure drop�

Pressure drop: Tª max: 20,13 ºC / Tª min: 19,39 ºC

0,035

0,030

0,025

0,020

0,015

0,010

0,005

0,0000 20 40 60 80 100 120 140

l/h

m.c

.a.

160 180 200

Dimensions�

995

16

50

82

PVproduction

16%

Thermalproduction

60%

ExtraPV production

* All percentages of production are conditioned to the working temperature range of installation.

Total hybrid performanceThermal performance

Photovoltaic performance

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GENERAL CATALOG19

CONNECTION KITSPRODUCTS

Each connection kit includes:

CONNECTION KITS

Entrance to the bench: Elbow + Cutting key - (Fig.1)Exit of bench: Purgador + Key of cut + Portasonda when it corresponds - (Fig.2)Safety: Safety valve + Drain valve - (Fig.3)Plug- (Fig.4)Stainless steel expansion compensators when the installation consists of more than one panel (2 compensators per connection) - (Fig.5)

•••••

Plug

Exit

Compensator

Entrance

Safety

CONNECTION KITS PRICE�Valid for Price (€)

1 panel

2 panels

3 panels

4 panels

5 panels

6 panels

7 panels

8 panels

9 panels

10 panels

156,00

204,00

252,00

300,00

348,00

396,00

444,00

492,00

540,00

588,00

ref.

KC1

KC2

KC3

KC4

KC5

KC6

KC7

KC8

KC9

KC10

Nº Compensators

0

2

4

6

8

10

12

14

16

18

Entrance to the bench (Fig.1)

Exit of bench (Fig.2)

Seguridad (Fig.3)

Plug (Fig.4)

Compensator (Fig.5)

Price (2 units): 48,00€

www.abora-solar.com

GENERAL CATALOG20

STRUCTURESPRODUCTS

COPLANAR STRUCTURE

Coplanar structure for aH60 panels on inclined roof.Anchors and fasteners are included to hold the panels.Ships or roof anchors are not included.

COPLANAR STRUCTURE PRICE�Valid for Price (€)

1 panel

2 panels

3 panels

4 panels

5 panels

6 panels

7 panels

8 panels

9 panels

10 panels

90,00

147,00

230,00

284,00

349,00

403,00

461,00

533,00

596,00

791,00

ref.

60EC1

60EC2

60EC3

60EC4

60EC5

60EC6

60EC7

60EC8

60EC9

60EC10

FLAT COVER STRUCTURE

Structure for aH60 panels with adjustable inclination at 35º, 40º and 45º. Including anchors and panel screws.

FLAT COVER STRUCTURE PRICE�Valid for Price (€)

1 panel

2 panels

3 panels

4 panels

5 panels

6 panels

7 panels

8 panels

9 panels

10 panels

256,00

328,00

492,00

552,00

697,00

813,00

865,00

1.034,00

1.177,00

1.255,00

ref.

60EI1

60EI2

60EI3

60EI4

60EI5

60EI6

60EI7

60EI8

60EI9

60EI10

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GENERAL CATALOG21

TYPOLOGIESOF FACILITIES


� Technical features

� Description

All solar installations for DHW (Domestic Hot Water) production needs an auxiliary system (boiler, aerothermy, etc.) to heat the water up to its consumption temperature, especially on less sunny days. These auxiliary systems should be as efficient as possible so that they consume the minimum energy from the outside.

� Scheme

Aerothermal systems present a high efficiency ratio, as it only consumes 33% of the energy produced. These systems are perfectly combined with hybrid solar panels since firstly, the heat demanded by the aerothermal system is supplied by the hybrid panel’s heat production, and secondly, 50% of the electricity needed by the aerothermal system is supplied by the photovoltaic production of the hybrid solar panels.

As an example, in a domestic house, to cover the total amount of the DHW, 50% is saved with the hot water produced by the panels and the other 50%, is self-consumed by the photovoltaic generation itself (25%) and the other 25% is consumed from the network. Since the aerothermy usually has a COP of 3, the consumption of the network will be only 8% of the ACS consumed.

Electricity

NETWORK

DHW

25%

8%

25%

50%

PVT

A


PVT + Geothermal System

PVT + Biomass


PVT + DHW, heating and Swimming pools

PVT + Adsorption (Solar Trigeneration)

PVT + Seasonal Storage

Typologies of facilities where you can use the "aH Technology":

A.

For more information on each of these typologies of facilities, consult our technical department:

[email protected]

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GENERAL CATALOG22


PVT + BiomassPVT + Geothermal System


� Description

Geothermal energy is another auxiliary installation tool that presents a high efficiency to heat the Domestic Hot Water. This system finishes heating the water from the temperature achieved by the panels to the consumption temperature. Of all the technologies based on the heat pump, geothermal energy is one of the most efficient. Thanks to this, the electricity consumed by this system is lower and, as a consequence, also its CO

2 emissions are lower.

� Scheme

The high efficiency (high COP) of geothermal energy is due to the fact that the temperature of its cold focus (the soil) is stable and in the winter months it remains warmer than the environment. The colder the climate, the more advantage is obtained from geothermal energy compared to aerothermal systems. The opposite occurs in temperate and warm climates.

Combining geothermal energy with hybrid solar panels drastically reduces the energy consumption of a building. As an example, to cover the demand of DHW, the panels cover with their thermal production around 50%, and the geothermal covers the rest. To contribute the rest, geothermal self-consumes part of the photovoltaic production and the rest comes from the network (around 4% of total demand).


� Description

Currently, one of the auxiliary systems with less environmental impact are biomass systems. In recent years, they have had an important development due to their implantation in buildings. These auxiliary systems should be as efficient as possible or emit the minimum amount of greenhouse gases (GHG) as CO

2.

� Scheme

Biomass is a technology that uses forest residues and the CO2

emissions it generates for water heating is equivalent to its degradation in forests. Therefore, although biomass emits CO

2,

it is considered neutral, because it would do it in the same way in its natural degradation.

Hybrid solar panels combine very well with biomass, since, on the one hand, collectors contribute around 50% of the Domestic Hot Water demand and on the other hand, biomass only consumes fuel. That is, it does not consume electricity, so all the generated photovoltaic energy can be used in the building.

Electricity

NETWORK

DHW

25%

4%

25%

50%

G

PVT

Electricity

FUEL

DHW

50%

50%

B

PVT

B. C.

www.abora-solar.com

GENERAL CATALOG23

PVT + DHW, Heating & Swimming pools


�

�

Technical features

� Description

Normative

Solar hybrid collectors are very suitable to be used in buildings with swimming pool. In summer, when there is more irradiation, and consequently the panels generate more energy (photovoltaic and thermal), besides producing DHW (Domestic Hot Water), also warms the swimming pool.

� Scheme

Using PVT panels with swimming pools, the hydraulic circuit work at lower temperatures getting a higher efficiency both photovoltaic and thermal.

Outdoor swimming pools cannot be warmed by an auxiliary heater (boiler, heat pump, etc) that consume fossil fuels or electricity (not renewable). Indoor swimming pools have to be warmed at least a 50% with renewable energy like solar hybrid panels.

� Description

Most solar thermal installations in buildings usually only generate energy to be used in DHW. The technology is only applied for DHW and not heating because in summer there is no heating demand and also because in winter is when there is lower irradiation.

In those solar installations used to supply energy to the heating system it is necessary to predict the use of the surplus energy in summer. There are several uses like swimming pools.

Using solar Energy in swimming pools allows recovering surplus solar energy in summer, lengthening the bathing session, and making bigger installations which achieve very important savings.

Also, combining PVT panels with swimming pools allows the installation to work at low temperatures increasing the thermal and photovoltaic efficiencies, achieving higher energy and emissions savings.

� Scheme

Electricity

DHW

80%

20%

C

PVT

Swimming Pool

Heating

Electricity

DHW

PVT

Swimming Pool

D. E.


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GENERAL CATALOG24

PVT + Seasonal StoragePVT + Adsorption (Solar Trigeneration)


� Description

Solar cooling consists in using the surplus thermal energy to activate an adsorption machine (or absorption) to cooling. Combining these machines with hybrid technology solar trigeneration is obtained since electricity, heat and cold are produced.

� Scheme

Our buildings demand 40% of the total energy in our countries. From all this energy demand, 20% is consumed by the Sanitary Hot Water (DHW) and the rest (80%) by the heating system. Saving 50% of the DHW demand with solar energy, only 10% of the total thermal energy demand of the building is saved. Consequently, it is necessary to apply solutions which can save more energy. All these installations need to solve the use of the thermal energy surplus in summer.

Solar Trigeneration allows larger installations increasing the thermal savings from 10% (in average in DHW) to 80-90% depending on the building demands. In summer, this type of installation uses the thermal energy to activate an adsorption machine to cool the building. Thus, this technology will be use in all those buildings where high percentage of the energy demand want to be supplied by renewable energy. This innovative technology only will only be used in a select market due to its high cost.


� Description

The main limitation of the solar thermal installations appears as the consequence that the higher generation (summer) occurs when the lower demand exists (DHW). For this reason, the solar energy only contributes around 50% of the DHW demand, which is around 10-20% of the total thermal energy demand of a building.

� Scheme

A reliable solution already used in some countries in north Europe is seasonal thermal storage. This technology stores the surplus energy generated by the panels during the summer to be used in winter. In this technology, on average, only 10% is lost. Consequently, 90% of the total thermal energy generated can be used 6 months after. The seasonal temperature variations in the storage tank is between 20ºC to 50ºC during the year. This thermal energy is used by the heat pump to supply the building energy demand. The higher temperature in the seasonal storage tank, the higher COP (Coefficient of performance) will be obtained. Also, a part of the total electricity consumed by the heat pump is supplied by the hybrid panels reducing the grid energy dependence.

Electricity

DHW

Heating

Self

-co

nsu

mpt

ion

PV

Undergroundstorage

BdC

Electricidad

DHW

PVT

Refrigeration

HeatingADS

F. G.


www.abora-solar.com

GENERAL CATALOG25

FAQs

1.

2.

4.

Does it still produce during cloudy or foggy

days ?

Royal Decree of Self-Consumption

Is it legal?

Electricity and heat

Guarantees

Monitoring

Thermal and photovoltaic power

Materials

Quality

Certificates

Maintenance

Does our panel increase electric production?

Is it recommended to install an air dissipator?

Is it possible to use our panels for heating?

In which installations are our panels suitable?

Does it work well with an Aerothermal system?

What are differences between thermodinamic

panels and hybrid panels?

Is it recommended to use hybrid panels for

swimming pools?

What do we do with hot water we have left

over in summer?

Who installs the panels?

Where do I buy panels with aH technology?

What savings do hybrid panels generate with

aH technology?

What do I do with the electric energy that I

have left over?

Can I replace old thermal solar panels with

hybrid ones with aH Technology?

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

11.

12.

13.

14.

15.

16.

17.

18.

19.

20.

21.

22.

23.

24.

INDEX Does it still produce during cloudy or foggy days ?

Solar installations continue producing energy during cloudy or foggy days, proportionally to the irradiation.

Global irradiation has three components: direct, diffuse and albedo. The direct one projects shadow, the diffuse one is what we see during cloudy days and albedo is the irradiation that is reflected from the surfaces.

During cloudy days we only have diffuse irradiation, this is approximately between 15 and 20% of the global one. Therefore, the production of the solar installation will be proportional to the available irradiation.


With the current regulatory framework, in Spain, the number of photovoltaic installations was substantially increased by self-consumption last year.

Now the Royal Decree of Self-Consumption has three toll types (fixed term, variable term and access rate), and two types of classification, type I (self-consumption without spillage to the grid) and type II (conceived for sale to the grid)

Is it legal?

Absolutely. The legalization procedure is different depending on the size of the installation, contracted power, electrical configuration, Autonomous Community and the electric distributor.


Our panels have the characteristic of producing electricity and warm water simultaneously in a single panel. Depending on the working temperatures of the system, the photovoltaic production of the hybrids panels can increase up to 12%.

Guarantees

We have 3 levels of guarantees.2 years: General sale5 years: • Partner installation approved by ABORA • Monitoring • Start-up by ABORA technician

10 years: • Partner installation approved by ABORA • Monitoring • Start-up by ABORA technician • Annual fee for extended warranty

The lifespan of our panels is 25 years with correct maintenance.

Monitoring

Through our monitoring, our clients have access to the information of the solar installation,Seeing the energy and economic savings in real time.

Monitoring allows us to know all the solar installation parameters to carry out a correct installation follow-up, allowing us to maximize the useful life of our panels and minimize or cancel possible incidents.

We also have the possibility to integrate this system with the end-user website for its clients to seehow much is saved in CO

2 emissions to the planet,

showing its sustainability.


Our aH60 hybrid solar panels have a 1000W thermal power and a photovoltaic power of 260W.

Materials

The materials of our panels have the highest quality standards and are supplied by European Union companies. We minimize the impact of the carbon footprint during our panel development on its integral cycle, fromthe manufacturing process until its delivery.

Quality

ABORA is 100% committed (comprometida) to offer the maximum quality in their products, then our panels are tested and checked before they leave the factory reducing as much as possible any failure or defect that it could have.

Certificates

Our panels have the necessary certificates for its commercialization and correct operation.

Maintenance

The Abora technical department recommends the installation of a hybrid monitoring system (which integrates thermal and photovoltaic production) to be able to perform a correct maintenance.

Thanks to the monitoring system you can perform a both preventive and predictive maintenance of the installation, extending its useful life and ensuring energy and economic savings.

For more information see our maintenance manual.


The photovoltaic production of an hybrid panel is conditioned by the temperature range of the hydraulic circuit. If the operating temperature is lower than a photovoltaic panel with normal conditions, the electrical production of a hybrid panel will be increased and viceversa. Therefore, it is necessary perform a correct dimensioning of the installation getting a range of working temperatures appropriately throughout the year.

It is recommended thermal production does not exceed thermal demand. This will carry that the maximum working temperature of the installation reach 60 C and therefore the temperature of cells are lower in a hybrid panel than a photovoltaic panel


Of course it is recommended, so we protect the panels and the installation of overheating, avoiding to reduce its useful life. Thanks to the air heater, both the panels and the rest of the components of the installation are protected, avoiding that the temperature inside the panels they exceed 85ºC.


Yes, although it is recommended in installations with low temperature emitters. Consult us to study your case, since each one has its peculiarities.


They are suitable in any installation where is wasted domestic heat water (DHW), and it’s also desirable to produce electricity to save costs, without depending on variation of price

Examples of facilities:

Hotels, Residences, Industry, Sport Centers, Campings, Farms, multidwelling houses, Hospitals, car wash and Houses.


Yes, since we preheat the water and then take advantage of the electricity produced by the panels to supply it the aerothermal system.

What are differences between thermodinamic panels and hybrid panels?

The main difference is: thermodinamics panels consume electricity and hybrid panels generate electricity. Achieving an important difference in savings and the amortization of the installation.

Is it recommended to use hybrid panels for swimming pools?

Absolutely, since the panels have very good performance when working at low temperatures, and also with the electricity generated, we feed the electrical equipment of the pool installation.

What do we do with hot water we have left over in summer?

In summer it’s necessary to install dissipation elements, so that the instalation does not reach maximum temperatures. Another option is to send the excess to a swimming pool which dissipates the excess heat.


Certified installers for hydraulic installations and for low voltage electrical installations, with knowledge and experience in solar panel installations.


Abora has distributors in different countries, check our website or consult us to know the options in your country.

[email protected]

What savings do hybrid panels generate with aH technology?

An example, a third-age residence of 150 users in Madrid: with an installation of 50 panels aH60 would cover 60% of the thermal demand and we would have 13.25 kWp of photovoltaic. With this, we would save € 9,800 the first year, amortizing the solar installation in 5,3 years. Achieving a cumulative cash flow of more than € 400.000 throughout the useful life of the installation.

What do I do with the electric energy that I have left over?

Exists different options, and the conditions depends on the country’s regulations.

3.

Pour the surplus to the grid: this is the cheapest option since it doesn't need the installation of any aditional component.

Install a zero injection system: This system will regulate the operation of the inverter to adjust it to electricicity consumption so it will avoid electricity poured to the grid. In the case of hybrid solar panels the energy that is not produced in electricity form is produced in heat form, increasing the performance of the thermal part.

Install accumulation batteries: with this solution, the remaining electrical energy during the day is stored to take advantage in the night. This together with a contract

with time discrimination will allow us to optimice the energy savings to the maximum. The initial invesment will be greater than in the two previous options.

Can I replace old thermal solar panels with hybrid ones with aH Technology?

Yes, indeed is recommended to replace deteriored thermal panels by hybrid technology aH, because they also produce electricity, making the installation rentable much earlier and achieving greater savings.

www.abora-solar.com

GENERAL CATALOG26

FAQs

5.

6.

7.

8.

9.

10.

11.

12.

Does it still produce during cloudy or foggy days ?







Is it legal?




Guarantees




Monitoring








Materials


Quality


Certificates


Maintenance



























[email protected]











www.abora-solar.com

GENERAL CATALOG27

FAQs

13.

16.

17.

18.

20.

21.

22.








Is it legal?




Guarantees




Monitoring








Materials


Quality


Certificates


Maintenance



























[email protected]





14.

15.

19.







23.

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GENERAL CATALOG28








Is it legal?




Guarantees




Monitoring








Materials


Quality


Certificates


Maintenance



























[email protected]





24.

FAQs







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GENERAL CATALOG29

TECHNICAL SERVICE

Customer training

Technical assistance and warranty

The renewable energy sector is constantly evolving, improving our products day by day, from solar energy we listen to our clients and from this synergy, we create the training department, to be trained in the latest technologies of the sector.

The theoretical and practical courses that we do, are oriented to the different profiles that exist in a solar project with our technology.

Customized studies by our specialists in hybrid solar panels, will give you support at all times so you do not have problems with the installation of our products, because joining the planet abora provides many advantages, and this is one of them, knowing that you have the backing of a great company.

Abora Hybrid Calc

Our technicians have specific software, made to measure for solar radiation, which calculates the installations with the parameters that our technicians give us, always fulfilling the client's needs and with the current regulations.

At Abora we believe in a continuous and complete service for our clients. Our philosophy is to offer complete assistance to customers, partners and installation companies.

General sale

Installation by partner of abora

2YEARS

WARRANTY

Monitoring

Start-up by technician of abora

Extended warranty*

�

��

�

�

�

��

�

�

�

��

�

�

5YEARS

WARRANTY

10YEARS

WARRANTYWarrantyrequirements

* Additional Cost

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GENERAL CATALOG30

© 2018 ABORA ENERGY S.L.

c/Buenos Aires 117. Pol. Centrovía50196 La Muela, Zaragoza (Spain)

+34 876 24 70 [email protected]

All rights reserved. All reproduction or disclosure of this document or parts of it by any means without the prior

written authorization is prohibited.

REN

TAB

ILID

AD

ME

DIO

AM

BIE

NT

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INN

OV

AC

IÓN

TEC

NO

LOG

ÍAT. +34 876 24 70 96

E. [email protected]

www.abora-solar.com

c/Buenos Aires 117. Pol. Centrovía50196 La Muela, Zaragoza (Spain)

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