Specifications Panels

Logo aHTech®

aH72 M2

Thermical capabilities

70% Thermal Production
1,316 W/year
Inner liquid volume: 1.78L
Stagnation temperature: 126ºC
Maximum permissible pressure: 10 bar
Caudal nominal: 60L/h

Electrical capabilities

17.8% Electrical production
1800 W/year
Maximum power voltage Vmpp: 39,18V
Maximum power current Impp: 8,98A
PV connection type: Solarlok PV4
Cable length: 1m

Finishing

Black box
Aluminum frame
Insulating transparent cover
3.2 mm tempered front glass

Size and weight

Dimension of the hybrid solar panel

1.970 x 995 x (85+22)mm
1.96 m2 of total area
1.88m2 of opening area
50kg

Connectors

Scheme hybrid solar panel

Cells

photovoltaic cell M2

M2 aHTech® Cell
72 cellulas
156 x156
Mono-crystalline'”

Compatible Electrical Systems

Inverters connected to the network
Inverters for isolated connection

Types of installations

Coplanar installation
Inclined installation

Use

Sanitary Hot Water
Electricity
Swimming pools
Underfloor heating

Monitoring

Logo aHMonitor

Languages:
Spanish, English, German, Polish

Compatibility with ancillary systems

Gas boiler
Diesel boiler
Heat pump
Electric thermos

Flammability

Not flammable

Logo Abora

Hybrid solar panel and environment

The Hybrid Solar Panel has been designed with the following features to reduce its environmental impact.

ISO
  • ISO 9001, an international standard that sets requirements for a quality management system (QMS) in an organization.
  • ISO 14001, a reference standard for the implementation of an Environmental Management System (EMS).
  • ISO 45001, an international standard that specifies requirements for an occupational health and safety management system (OHS).
Energy efficiency
  • Solergy certification
  • Our hybrid solar panel returns the energy needed for manufacturing in just 1 to 3 years. Its lifetime exceeds 25 years.
Sustainable packaging
  • Our packaging is 100% cardboard.
Smart chemistry
  • Display glass without arsenic
  • Without mercury, BFR, PVC or beryllium
Ethic production
  • Made in Spain is Abora Solar’s firm commitment to a truly environmentally friendly hybrid solar panel.
  • Our goal is to manufacture products using only materials from European suppliers, because they ensure compliance with European quality and conformity standards as well as respect for CSR.
Abora and the environment

At Abora, our commitment to the environment is at the heart of our mission. We develop innovative energy solutions that combine performance and sustainability to reduce our clients’ carbon footprint while optimizing their energy consumption. Thanks to our high-tech hybrid solar panels, we contribute to the transition towards clean and renewable energy.

Our goal is to offer products that not only maximize energy production but also actively contribute to the preservation of natural resources. By investing in the research and development of eco-friendly solutions, we work towards a more sustainable future, where energy efficiency goes hand in hand with respect for the environment.

Abora is committed to minimizing environmental impact at all stages of production and promoting responsible practices, thereby contributing to a greener world for future generations.

My Hybrid Project

Use our simulator to see your hybrid solar installation and learn about all its advantages.

Monitor

Discover our monitoring system, aHMonitor and everything it offers.

Which panel to choose?

panel solar fotovoltaico

Photovoltaic solar panel

23%

efficiency

2112 × 1052 × 35 mm

24,5 Kg

Electricity production

Compatible with auxiliary systems

Flammable

panel solar híbrido

Solar hybrid panel

89%

efficiency

1.970 × 995 × (85 +22) mm

50 Kg

Célula fotovoltaica M2

aHTech® Technology

Electricity production

Thermique production

Insulated

Compatible with auxiliary systems

Not flammable

panel solar termico

Thermal solar panel

75%

efficiency

2380 × 1056 × 73 mm

39 Kg

Thermique production

Compatible with auxiliary systems

Not flammable

FAQs

How does the temperature delta of the hybrid solar panel vary depending on the outdoor conditions?
The thermal jump in the panel depends on both the exterior and interior conditions. Thermal losses are greater if the entry temperature into the panel is high.
Are hybrid ah72 panels electrically compatible with standard photovoltaic panels?
Yes. Provided that the intensity and operating voltage of each of them are taken into account when dimensioning.
What are the 3 performance curves of a hybrid solar panel?
A hybrid panel has three yield curves: photovoltaic, thermal and total. The total yield is the sum of both yields. The following figure shows each of the three. The 3 performance curves of a hybrid panel are represented according to the regulation 9806:2017 in which the vertical axis is defined as the performance and the horizontal axis ((tm-ta)/g). Where tm is the average panel temperature, ta is the ambient temperature and g is the incident irradiation. To be able to fairly compare the performance curves of 2 panels, it is necessary to make sure that this axis is represented according to the regulations and not the simplification in which only the panel tm is shown. Such simplification can lead to errors in the optical performance of the panel. For a more intuitive reading of this graph, if you consider a defined ta and g (for example, standard conditions*) it is observed that the horizontal axis is only dependent on the panel tm and therefore it can be concluded that the higher the panel working temperature, less will be its performance. This effect is similar in all solar technologies (photovoltaic and thermal) not only in hybrid panels.
Do hybrid solar panels have worse loss coefficients than a thermal solar panel?
The thermal yield curve is characterized by three coefficients: optical yield and two thermal loss parameters (a1 and a2, also called k1 and k2). To characterize the behavior of a panel, the entire temperature range must be taken into account, which implies that both coefficients are important. Therefore, not only does the coefficient a1 have to be compared, but a2 is also important. The following figure compares the performance curves of a photovoltaic (blue) panel, a thermal collector (red) and the total and thermal performance curves of a hybrid panel. The photovoltaic yield curve of a photovoltaic panel and a hybrid are similar. Performance curves panels on the graph are observed as the red curve corresponding to a thermal collector has some curvature, and that of a hybrid is a straight line. This effect is because the coefficient a2 of a hybrid panel is zero, and is not for a thermal collector. However, typical values of a1 of a heat collector are lower than those of a hybrid. This means that the differences and effects of both coefficients depend on the region where the panel will work. Therefore, comparing two panels only by their coefficient a1 is insufficient to have a reliable conclusion.
What is the maximum mechanical load that Abora panels can withstand?
The panels have passed the durability tests required by the current regulations according to the tests of iso 9806:2013, which includes impact tests (ice balls up to 25 mm in diameter) and mechanical loads above 2000 pa.

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