Solar Panel Systems for homes, businesses and industries
Request a quote for the different types of Solar Panels installations and our consultants will provide you with the best attention and prices adjusted to your needs.
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Choose the bank of your choice and complete the application form at the time of your choice.
Maintenance for your solar panels?
Protecting your solar panels and electrical system installations is protecting your peace of mind and investment.
Injection to the Power Grid
Generate renewable energy and then feed it into the existing power grid.
Microgrid / Hybrid System
Combines different energy sources to provide energy to a community or facility, with greater flexibility and energy autonomy.
Offgrid / Insulated System
Off-grid power generation for remote and difficult to access locations, allowing independence and autonomy.
Fuel Saving System
It combines solar panels and batteries to power an electric plant, reducing fuel consumption and CO2 emissions.
Financing forSolar Panels
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Caring for the planet is within your reach
Use clean energy and operate more sustainably, check out the solar panel loan options we have for you.
We are a company specialized in the installation of Solar Panels. in Dominican Republic
Solar panels are a great way to save money on your energy bill and contribute to a greener future.
Design and Installation
We design and install solar panel systems that adapt to the specific needs of each client.
Technology
We work with the latest technologies to ensure that your system operates efficiently and safely.
Consulting
With our advice you will be investing in your future and contributing to a more sustainable environment.
Solar Energy for all
Do you want to know the cost of installation for your home, business, agricultural or industrial sector?
Choose the type of photovoltaic installation you want and request a free quote with our best attention and advice.
Injection to Power Grid
A grid-connected photovoltaic system is composed of solar panels that produce direct current (DC), which is converted to alternating current (AC) by a solar inverter.
When the solar energy generated is greater than required, the surplus will be passed to the public electricity grid system (Edes) and will be registered (discounted) by the bidirectional energy meter.
At times when the photovoltaic solar production does not reach the projected energy (rain, sunrise, night, etc.) then the public electricity grid will be used.
System Microgrid / Hybrid
A Microgrid (Hybrid) System is a decentralized electrical grid, composed of several energy sources that work autonomously from the main grid.
The objective of a microgrid is to achieve an efficient, secure and sustainable electricity supply, especially in rural areas. A microgrid combines the use of solar energy with at least 2 of the following sources:
- Batteries
- Public network
- Power plant
- Wind energy
- Micro hydroelectric, etc.
System Offgrid / Insulated
An Off-Grid (Isolated) System is a photovoltaic installation independent of the Public Electricity Grid, since its only source of energy is solar radiation.
Therefore, it is the best solution to supply energy in remote locations in a sustainable way.
Operation and installation are simple and require little maintenance.
We can supply energy to mountainous, rural, agricultural, industrial areas and any population with difficult access to the grid.
System Fuel Saving
The Photovoltaic Fuel saving system consists of using solar energy alternating it with the existing electric plant, representing a great saving in fuel costs, taking advantage of the photovoltaic energy during the day and with the possibility of injecting it to the network in the moments when public energy is available (no blackouts).
What is a Solar Panel?
These are devices that convert sunlight into electrical energy. They are composed of photovoltaic cells, which are semiconductor materials that produce electricity when exposed to light.
Types of Solar Panels
- Monocrystalline solar panels are made of a single crystal of pure silicon and are the most efficient at converting sunlight into electricity. However, they are more expensive than other types of solar panels.
- Polycrystalline solar panels are made of several silicon crystals and are less efficient than monocrystalline panels. But they are cheaper and have greater durability.
- Hybrid solar panels are made of a combination of monocrystalline and polycrystalline cells and offer intermediate efficiency.
- Air solar panels: use a series of ducts and fans to cool the solar cells and improve their efficiency. They are more efficient than other types of solar panels, but they are also more expensive.
Advantages of Solar Photovoltaic Systems
- Energy savings: solar panels reduce dependence on electricity from non-renewable sources, which can result in significant savings on electricity bills.
- Renewable energy source: solar panels use sunlight as an energy source, which means that they do not emit greenhouse gases or generate toxic waste.
- Easy installation: solar panels are relatively easy to install and do not require regular maintenance.
Table Comparison
| Panel Solar | Monocristalinos | Policristalinos | Híbridos | De aire |
|---|---|---|---|---|
| Eficiencia | Alta | Media | Media | Alta |
| Precio | Alto | Bajo | Intermedio | Alto |
| Durabilidad | Alta | Alta | Alta | Alta |
| Mantenimiento | Bajo | Bajo | Bajo | Bajo |
Generation of kW per mt2 (Approximate)
The table shows the approximate number of solar panels needed for different square meters, as well as the number of appliances that can be connected, the expected time of use and the kilowatt-hour (kW) generation.
Note that this may vary depending on the efficiency of the solar panels and the intended use of the electricity generated. It is important to assess the specific energy needs and
seeking advice to determine the
to determine the appropriate number of solar panels and the number of appliances that can be connected for your home or business.
| Metros cuadrados | Número de paneles solares | Electrodomésticos conectados | Tiempo de uso | Generación de kW |
|---|---|---|---|---|
| 50 | 2-3 | 1-2 | 6-8 horas/día | 0.6-0.9 kW |
| 100 | 4-6 | 2-4 | 6-8 horas/día | 1.2-1.8 kW |
| 150 | 6-9 | 3-6 | 6-8 horas/día | 1.8-2.7 kW |
| 200 | 8-12 | 4-8 | 6-8 horas/día | 2.4-3.6 kW |
| 250 | 10-15 | 5-10 | 6-8 horas/día | 3.0-4.5 kW |
| 300 | 12-18 | 6-12 | 6-8 horas/día | 3.6-5.4 kW |
