Solar Photovoltaic Power Generation Solutions

With the rapid development of the world's industrial technology in recent years, the United Nations Framework Convention on Climate Change (UNFCCC) and the Paris Agreement have made relevant agreements on the current climate change and environmental protection, so the development of new solar photovoltaic energy is becoming more and more important for each convention country. China as the world's industrial power, the development of a wealth of solar photovoltaic products, and we have a variety of solar photovoltaic solutions, the following we will be for a variety of solar photovoltaic use scenarios, respectively, summarized in the following program.

1. Rooftop power generation program

Commercial Rooftop PV

Applicable scenarios: residential, commercial buildings, industrial facilities, etc.

Solar panels are installed on the roof of a building to maximize photovoltaic power generation using roof space. The system usually consists of solar panels, an inverter, a battery storage system, and distribution equipment connected to the grid. Converting the blazing sunlight into a constant stream of electricity can ease the pressure on power for family homes at the right time and significantly reduce energy consumption and carbon emissions in shopping malls and factories. The self-generated clean energy reduces expensive electricity bills, while the surplus electricity can be sold, creating a new source of revenue for businesses.

The shading effect of photovoltaic panels reduces the aging of roofing materials, which is equivalent to adding a layer of protective umbrella for the factory building and prolonging its service life. Rooftop power generation saves space, avoids taking up land, and can provide buildings with self-sufficient power, with surplus power that can be sold through the grid.

Photovoltaic panels on commercial buildings not only generate clean energy, but also become part of the building's appearance, demonstrating the company's commitment to environmental protection and the pursuit of fashion. While reducing electricity expenses, it also earns the enterprise a green social reputation.

2. Data center parallel power solution

Applicable scenarios: data supercomputing center, IDC server integration center

Data centers, as the brain of work and rest processing, and IDC servers, as the data centers of various enterprises, have extremely high demand for electricity. Photovoltaic power generation provides stable and reliable power support to ensure the continuous operation of the data center, and the use of communication power generation reduces the dependence on traditional power, thus significantly reducing the energy cost of the data center. The high energy consumption of data centers is often accompanied by high carbon emissions, and the introduction of photovoltaic power generation makes it a model of green environmental protection.

3. Public Facilities Power Integration Program

Photovoltaic Power Generation for Public Transportation Sites in Jinan

Applicable scenarios: schools, hospitals, stations

The use of photovoltaic power generation in public facilities such as schools, hospitals and stations not only guarantees the stable operation of public services, but also reflects the care for the environment. The application of photovoltaic power in public facilities is a strong proof of green development of the city and improves the overall image of the city. During the peak electricity consumption period of the city, the utilization of solar PV power generation can alleviate the pressure of electricity consumption of important facilities.

4. Ground-based photovoltaic power station

Applicable scenario: large-scale power generation, usually constructed in open areas such as farmland, wasteland and hillside.

A large number of photovoltaic panels are installed on the ground in the open, and photovoltaic power generation is carried out by occupying a large land area. Equipped with inverters and efficient power transmission systems, it can provide power directly to the grid. Moreover, constructing PV power stations on deserted land is turning waste into treasure and producing energy on the ruins.

It can utilize unused land, is not limited by the space of buildings, and has a large power generation capacity, which is suitable for large-scale solar power generation.

5. Solar distributed power generation system

Applicable scenarios: various types of small homes, stores, factories, etc..

This scenario applies to a smaller system size, users can choose the appropriate PV power generation equipment according to their own power needs. Generally do not need to be connected to the grid, or with the grid to form a micro-grid for power exchange. Very suitable for family homes, rural government, shopping malls, factories, a class, this away from the big city power needs.

Users can realize self-generation and self-consumption, saving electricity costs, and excess power can be sold or stored. It is especially suitable for remote areas or places with unstable power grids.

6. Solar building integration (BIPV)

Applicable scenarios: new or renovated buildings.

BIPV is the close integration of a solar PV system into the structure of a building, e.g. by using PV panels as part of the building's facade or roof. The building itself generates electricity, which is used to supply the building's energy needs. This is suitable for having an additional demand for electricity and at the same time renovating the exterior of the building to bring additional electricity demand for the businesses in the building, a one-measure, get-two-effects solution.

The BIPV solution, i.e., space-saving and aesthetically pleasing, also blends well with the design of the building, usually has a long service life and reduces energy consumption.

7. Solar + Energy Storage System

Xinjiang Ground-mounted PV Grid Connection

Applicable scenarios: Gridless or areas requiring high reliability.

Combining solar power generation and energy storage technology (battery packs and other storage solutions are needed here), when solar power generation is excess during the day, electricity is stored for use at night or on cloudy days. This type of system is particularly suited to remote areas such as desert regions, remote factories far from cities, or where users want to maintain power supply in the event of a power outage.

Increased energy autonomy and reduced dependence on the grid, this option is now the mainstream choice for most current electricity needs.

8. Solar agricultural system (Agri-PV)

Agricultural photovoltaics

Applicable scenario: agricultural land.

Installation of photovoltaic panels over large areas of agricultural land, while using the land for agricultural cultivation. This type of system can realize a “win-win” situation, on the one hand, to provide electricity, on the other hand, does not affect the growth of crops, is very suitable for remote areas of agricultural needs.

The ability to utilize existing farmland resources increases income sources while mitigating the impact of the agricultural environment on climate change.

Each solution has different advantages and disadvantages and is applicable to different scenarios. If you are looking for a solar PV solution that suits your needs, or are interested in applying solar PV in a specific area, why not talk to us to find the right solar PV solution for you.