5 Different types of Solar Panels for Residential House
Presently many of us thinking of Solar power Energy to decrease Electricity Bills for
residential homes.
Selecting the Best Solar panels for your home is more important to maximize
efficiency and return on Investment.
This article will give you the 5 different types of solar panels available for residential solar system use and
help you to select the best one.
5 different types of solar panels :
1. Monocrystalline Solar Panels
Monocrystalline Solar panels are made with a solitary unadulterated silicon precious
stone. These boards are straightforward with their uniform dull appearance and
adjusted edges.
Productivity
Monocrystalline boards are profoundly proficient and have a life span. They offer an
effectiveness of 15-20%
Benefits:
• High effectiveness
• Durable
• Space Effectively
Inconveniences:
• Significant expenses
• Minimal waste while creating
2. Polycrystalline Solar Panels
Polycrystalline Solar panels are produced using different silicon gems dissolved in
together. They have a particular blue tone and a marginally dotted appearance.
Productivity
These boards are less productive than monocrystalline, with proficiency rates around
13-16%. Nonetheless, they are as yet a famous decision for some property holders.
Benefits:
• Lower cost
• Less silicon squandering is underway
Inconveniences:
• Lower productivity
• Bigger space necessity for a similar power yield
3. Thin-Film Solar Panels
Overview:
Thin-film Solar panels are made by storing at least one layer of photovoltaic material
onto a substrate. They are adaptable and lightweight.
Types of Thin-Film Solar Panels
1 Cadmium Telluride (CdTe)
2 Amorphous Silicon (a-Si)
3 Copper Indium Gallium Selenide (CIGS)
Productivity
Thin-film boards have lower productivity rates, for the most part between 10-12%.
Thin films are better in low light and high temperatures.
Benefits:
• Lightweight and Flexible
• Better execution in Different conditions
• Simple to installation
Inconvenience
• Lower productivity
• Bigger region required for a similar power yield
4. Passivated Emitter and Rear Cell (PERC) Panels
PERC innovation improves the productivity of conventional monocrystalline and
polycrystalline boards by adding a passivation layer to the back of the cell.
Productivity
PERC boards offer higher proficiency rates, frequently between 17-21%. They catch
more daylight and convert it into power all the more successfully.
Benefits:
• Higher proficiency
• Further developed execution in low-light circumstances
Inconveniences
• Greater expense contrasted with conventional boards
5. Bifacial Solar Panels
Bifacial Solar panels can catch daylight on both the front and posteriors, expanding
by and large energy creation.
Productivity
These boards can accomplish up to 30% more energy creation contrasted with
monoracial boards, particularly when introduced on intelligent surfaces.
Benefits
• Expanded energy creation
• Flexibility in establishment choices
Inconveniences
• Higher establishment costs
• Requires cautious situation for most extreme advantage
Conclusion
Each solar panel has its advantages depending upon its budget location and
feasibility and selecting the right type of Solar panel depends on factors such as
space availability, budget, need, and specific project requirements.