In the face of local weather change challenges, the world is experiencing a pivotal shift in the direction of renewable energies, with solar energy main the cost, as a result of steady enchancment in module effectivity and the speedy decrement in photo voltaic methods costs. 

Due to the good scale flexibility of photo voltaic vitality system, they’ve been put in in a variety of set up eventualities, similar to rooftops, parking heaps, floating, floor mounted, and many others… Which elevate the query of the suitability of various PV applied sciences at totally different set up eventualities, and getting the utmost worth that may be attained from the PV station put in. When it involves inverters, the challenge’s dimension and software performs a vital function in figuring out the suitable inverter kind. Whether it’s a utility-scale inverter or one other variant, the identical precept may be employed in PV panels to maximise the general worth of the photovoltaic station.

As various markets emerge to satisfy totally different wants, a important query arises: are all photo voltaic panels universally appropriate for numerous buyer necessities and set up eventualities? Typically categorized into utility-scale tasks and distributed era (DG) tasks, the essential elements that influence the choice of photo voltaic panels in a challenge revolves round lowering the Levelized Cost of Electricity (LCOE) whereas making certain reliability in particular set up eventualities and assembly the regulatory wants. Let’s delve into the various factors that information the selection of photo voltaic panels, specializing in key elements in DG installations.

Energy Yield: Tailoring Solution for Different Installation Scenarios

As apparent getting the utmost vitality that may be attained from a PV panel is the primary objective of our set up, in utility scale tasks the set up in many of the circumstances is floor mounted, with mounted or tracker used to maximise the yield. In this case situation, the most suitable choice to maximise the vitality yield goes with excessive effectivity panels with excessive bi-faciality issue, to make sure most energy era from each side. 

Most of the distributed era set up situation is totally different, the DG stations are put in near the shopper premises, for instance on the rooftops, whether or not for houses or giant industrial and industrial websites. In this case, the entrance facet of the PV panel can solely be used to generate vitality, as a result of small hole between the rooftop and the PV panel. Therefore, on this case the most suitable choice is to go along with excessive effectivity mono facial PV module. To maximize the facility generated from the entrance facet, Back Contact (BC) know-how is the best way to go. The fundamental advantageous of this know-how is the complete utilization of the entrance facet in energy era, with the elimination of the losses attributable to lifeless zones and shading that’s attributable to the busbars and p-n junctions within the entrance facet, which exceeds 2% in a number of the circumstances. 

In eventualities with low clearance between the roof and the panel, using bifacial photo voltaic panels might have opposed results, doubtlessly resulting in decreased general yield. This is attributed to the uneven distribution or absence of sunshine on the bottom of the panels. Panels positioned on the sides might obtain extra daylight publicity, producing extra vitality than these within the center. Consequently, this imbalance in vitality manufacturing can contribute to elevated mismatch losses inside the string.

Local Regulation and Aesthetics: Aligning with Unique Spaces

Local rules and aesthetics take centre stage in DG tasks. While utility-scale tasks take pleasure in extra flexibility in adhering to regulatory necessities, DG installations, typically in city or industrial areas, should align with particular rules, similar to anti-glare & glint necessities within the airports, highways, or city areas inside town, to keep away from incapacity or discomfort attributable to the glare from the PV panels. Aesthetics as properly, play a pivotal function within the alternative of photo voltaic panels, making certain seamless integration into the setting. The adoption of BC know-how can deal with anti-glaring necessities, and that’s as a result of absence of metallization within the entrance facet, which prevents the reflection of sunshine attributable to the metallization. With the added layers of anti-reflective coating, it considerably contributes to glint and glare administration. 

LONGi has persistently prioritized the enhancement of buyer worth by the availability of cost-effective merchandise, rooted in its core values. From spearheading the transition to monocrystalline silicon PV panels to diversifying its product choices throughout numerous buyer segments. In the present panorama of the PV market, LONGi stands out as the only PV producer that has tailor-made distinct merchandise for various buyer bases, underscoring the basic precept that LONGi’s focus is on optimizing the worth delivered to its purchasers. Catering to distributed era (DG) purchasers, LONGi has launched HiMO X6, leveraging again contact know-how to make sure the PV station yields most worth. Meanwhile, for utility tasks, the HiMO7, predominantly bifacial in nature, emerges as the popular answer for attaining optimum worth.

As the photo voltaic vitality panorama evolves, understanding the distinct calls for of utility-scale and DG tasks turns into crucial. Efficiency, native rules, aesthetics, and reliability are pivotal elements influencing the selection of photo voltaic panels. Recognizing the nuanced necessities of various markets ensures getting the utmost worth that may be attained from the funding within the PV methods.  

This image reveals HiMO X6 and standard module with entrance busbar in DG set up situation.