How Solar Energy is Revolutionizing Cold Storage in India: A Game Changer for Farmers

In a country like India, where agriculture is the primary livelihood for millions, the lack of adequate storage facilities is a persistent challenge. Farmers often struggle with post-harvest losses, particularly for perishable items like fruits, vegetables, and dairy. One of the most promising solutions to this challenge is solar-powered cold storages. By integrating solar energy with cold storages systems, India’s agriculture sector is seeing a revolution that not only reduces post-harvest losses but also boosts farmers’ income.

The Problem: Post-Harvest Losses and Cold Storage Gap

India is one of the largest producers of fruits and vegetables, but it also suffers from enormous post-harvest losses, estimated to be around 30-40%. The main reason behind this is the lack of cold storage facilities, especially in rural and remote areas where most of the farmers are located. Traditional cold storage units require continuous electricity, which is often unreliable or too expensive for small and medium-sized farmers. This gap in infrastructure creates a vicious cycle of wastage and low incomes for farmers.

The Game Changer: Solar-Powered Cold Storage

Solar-powered cold storages offers a sustainable and reliable solution to this pressing issue. These units harness the sun’s energy to operate, significantly cutting down the reliance on conventional electricity or diesel generators. The following are some key benefits of solar-powered cold storage:

  1. Affordable and Cost-Effective: Solar-powered cold storage drastically reduces operational costs for farmers. After the initial investment in solar panels, the energy required to run the storage unit is essentially free. This is a huge relief for farmers who can’t afford high electricity bills.
  2. Reliable Power Supply: Rural areas in India often experience power cuts, which can spoil perishable produce. Solar energy provides a consistent power supply, ensuring that the cold storage operates without interruption. With battery backup systems, farmers can also store energy for use at night or during cloudy days.
  3. Sustainable Solution: Solar cold storage is environmentally friendly, reducing the dependence on fossil fuels and cutting down carbon emissions. By opting for solar, farmers are contributing to a greener future while saving on operational costs.
  4. Prevention of Post-Harvest Losses: With access to reliable cold storage, farmers can store their produce for longer periods, preventing spoilage and allowing them to sell at better prices rather than resorting to distress sales immediately after harvest.

SolarUrjaa’s Role in Solar-Powered Cold Storage

At SolarUrjaa, we are committed to transforming India’s agricultural landscape through our advanced solar-powered cold storage solutions. Our systems are designed to cater specifically to the needs of small and medium-sized farmers, providing them with an affordable and sustainable way to store their perishable produce.

SolarUrjaa is helping farmers across India maximize the shelf life of their produce, reduce waste, and increase their profitability.

Case Study: Solar Cold Storages in Madhya Pradesh

In Madhya Pradesh, SolarUrjaa has installed solar-powered cold storages units in several villages where grid electricity is unreliable. The results have been transformative. Farmers in these areas have seen a 30-40% reduction in post-harvest losses, along with improved market access due to the ability to store produce longer and sell it when prices are more favorable.

Government Support for Solar Cold Storage

The Indian government has been actively promoting the adoption of solar energy in agriculture. Through initiatives like the PM-KUSUM scheme, farmers can avail subsidies for the installation of solar panels, including those used for cold storage. Additionally, state governments are introducing various grants and incentives to encourage solar cold storage adoption in rural areas.

For farmers interested in leveraging government support for solar installations, SolarUrjaa offers guidance on how to apply for these schemes, making the transition to solar even more accessible.

The Future of Solar-Powered Cold Storage in India

Solar-powered cold storages is poised to become a cornerstone of sustainable agriculture in India. With more farmers adopting this technology, we can expect significant reductions in post-harvest losses and a more stable agricultural economy. As solar technology becomes more affordable and efficient, solar cold storages will play a critical role in ensuring that India’s agricultural produce reaches consumers without waste, ultimately benefiting farmers and consumers alike.

Conclusion

Solar energy is revolutionizing cold storages in India, providing farmers with a reliable, affordable, and eco-friendly solution to one of their biggest challenges. By reducing post-harvest losses and ensuring uninterrupted cold storage, solar power is empowering farmers to increase their income and improve food security. At SolarUrjaa, we are proud to be at the forefront of this transformation, helping farmers across India harness the power of the sun for a more sustainable and profitable future.

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How Solar Energy In Indore is Powering the Growth of Indore’s Smart City Initiatives

Indore, a city known for its cleanliness and innovative urban planning, is rapidly progressing toward becoming a Smart City. Central to these Smart City initiatives is the integration of renewable energy, with solar power playing a pivotal role. The city’s commitment to sustainability is evident in its widespread adoption of solar energy solutions, which are driving both environmental and economic benefits. Here’s how solar energy in indore is fueling the growth of Indore’s Smart City ambitions.

The Rise of Solar Power in Indore

Indore has seen an exponential rise in the installation of solar energy systems across residential, commercial, and government sectors. With abundant sunshine year-round, the city offers ideal conditions for harnessing solar energy. The Indore Municipal Corporation (IMC) has taken proactive steps to promote solar energy adoption, including subsidies for solar installations and policy support for rooftop solar.

Key Achievements in Solar Energy Integration:

  1. Rooftop Solar Projects: Indore has implemented several large-scale rooftop solar projects. This includes the installation of solar panels on government buildings, schools, and hospitals, significantly reducing the city’s carbon footprint.
  2. Solar-Powered Streetlights: To enhance energy efficiency, the city has installed solar-powered streetlights. These not only help save electricity costs but also ensure continuous lighting in public areas, contributing to safety and better infrastructure.

Smart City Benefits from Solar Energy

  1. Reduction in Energy Costs: Solar energy is playing a critical role in reducing the city’s energy costs. With public infrastructure like streetlights, water pumps, and transportation systems powered by solar energy, the Smart City initiative is saving a significant amount of money on energy bills.
  2. Reduction of Carbon Footprint: One of the primary goals of the Smart City initiative is sustainability. By reducing its reliance on fossil fuels and embracing clean energy solutions like solar power, Indore is decreasing its carbon emissions. This aligns with the city’s target to become more environmentally friendly.
  3. Grid Independence and Stability: The shift to solar energy reduces the pressure on the conventional grid. With increasing demand for electricity, solar power helps ensure a stable supply of energy. This also provides resilience in case of outages, allowing critical city functions to continue seamlessly.

Solar Urjaa’s Role in Indore’s Smart City Mission

At SolarUrjaa, we are committed to contributing to the growth of Indore’s Smart City initiative through our innovative solar solutions. We provide high-quality, affordable solar systems that cater to residential, commercial, and industrial needs. With a focus on sustainability and performance, our solutions are designed to reduce energy costs and carbon emissions, aligning perfectly with the Smart City vision.

Explore our solar solutions and find out how SolarUrjaa can help you contribute to Indore’s green future.

How to Join Indore’s Solar Movement

If you’re a resident or business owner in Indore, now is the perfect time to switch to solar power. The Indore Municipal Corporation offers subsidies and financial incentives that make it more affordable than ever to install solar panels.

Key Benefits of Switching to Solar:

  • Save up to 50% on electricity bills.
  • Contribute to reducing carbon emissions.
  • Increase the value of your property.
  • Enjoy government subsidies and incentives.

Learn more about solar installation subsidies in Indore.

Future of Solar Energy in Indore

With its ambitious Smart City plans, Indore is poised to become a leader in renewable energy adoption in India. The ongoing investment in solar infrastructure and the increased awareness among residents about the benefits of solar energy are setting a solid foundation for a sustainable future. As more businesses and homes adopt solar power, Indore’s Smart City initiative will continue to thrive, serving as a model for other cities across the country.

At SolarUrjaa, we believe that solar energy is the key to unlocking a smarter, greener, and more sustainable future for Indore. By working together, we can create a city powered by clean, renewable energy, ensuring a better quality of life for everyone.

Contact SolarUrjaa today to learn how you can make the switch to solar and support Indore’s Smart City mission.

Conclusion

Indore’s Smart City initiatives are being powered by solar energy in a big way. From reducing energy costs and carbon emissions to creating jobs and fostering economic growth, solar power is at the heart of the city’s transformation. By making the switch to solar energy, you too can be part of this journey towards a greener and smarter Indore.

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Reasons Why Monsoon is the Right Time to Install Solar

It might sound surprising, but there are many reasons why installing solar during monsoon season can be a smart move. Let us discuss Why Monsoon is the Right Time to Install Solar systems.

Monsoons Slow Down Power Generation, But Don’t Stop

Some people believe in the myth that solar panels do not work during rain. While it’s true that heavy rain can reduce power generation, it doesn’t stop it completely. Being able to absorb light instead of heat explains why it still generates electricity, even on cloudy or rainy days.

In addition, they will generate enough electricity in the summer to compensate for any lost time during the rainy season. In other words, that is an all-weather investment in solar energy.

Solar Panels Are Built to Handle rain

You may be afraid of rain effects on your panels. The good news is that they come with their built-in water resistance feature. To say that this makes them watertight is true and should make you worry less about these panels themselves.

However, you must monitor its mounting structure, which is made of rust-proof materials such as zinc-coated and galvanized steel and may be aluminum. These materials withstand elements, keeping your panels intact and free from rusting.

Test the durability of your system

Monsoon winds can be strong, and you may consider postponing until the wet season is over. But if you install your solar rooftop system now, you can see its strength and durability.

Strong mounting structures will resist high winds, thus keeping your system intact.

Rainfall Based Natural Cleaning

One thing about installing your solar panels during the rainy season could be clearer: rain naturally cleans these surfaces. Dust and dirt can clog up your solar panels, making them less effective, but this will be washed away by rainwater.

In other words, maintenance requires minimal effort for a more efficient panel. As such, it becomes possible to keep cleaning their panels without much ado since they always remain clean enough without too much infestation by fungal or algae spores thanks to reliable firms that offer after-sales services like ours for solar panel installations and repairs where you can ensure your panels are always in top condition.

The Installation Timeline

It may take around 15 to 20 days of work for local DISCOM confirmation. You could purchase everything you need for the installation, such as solar panels and inverters, during this time. It is also possible to plan your installation during gaps in the rain.

Once installed, your system will be ready to generate power, rain & shine. The entire process of technical approval, installation and meter change takes about the same time, regardless of the season.

Conclusion

As the world moves towards sustainable energy sources, solar power usage is increasing. Monsoons are an excellent time to make the switch to solar energy.

The rains help keep your solar panels clean, ensuring optimal performance without the need for manual cleaning. Additionally, installing solar panels during the monsoon season allows you to take advantage of current prices, which are likely to increase over time.

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Read More-Differences Between On-Grid and Off-Grid Solar System

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Difference Between On-Grid and Off-Grid Solar Systems: Which is Right for You?

The increasing awareness of renewable energy, particularly solar power, has led to the rise of various types of solar power systems. Among these, on-grid and off-grid solar system are the two primary categories. Choosing the right one depends on your energy needs, location, and long-term goals. In this blog, we’ll break down the key differences between on-grid and off-grid solar systems, so you can make an informed decision.

What is an On-Grid Solar System?

An on-grid solar system, also known as a grid-tied system, is directly connected to the local electricity grid. It generates solar power through solar panels, which is then used to power your home or business. Any excess energy produced is fed back into the grid, and you can receive credits through a system called net metering.

Key Features of On-Grid Solar Systems:

  1. Grid Dependency: Since it is connected to the grid, you rely on the power grid for electricity when solar energy is insufficient, such as during the night or cloudy days.
  2. Cost-Effective: On-grid systems are typically more affordable as you don’t need batteries for energy storage. This reduces the initial installation costs.
  3. Net Metering: Excess electricity generated by your system is sent to the grid, and you get credited for it. This lowers your electricity bills significantly.
  4. No Backup During Power Outages: One downside of an on-grid system is that it doesn’t work during power outages.

Explore more about on-grid solar systems and their benefits on the MNRE website.

What is an Off-Grid Solar System?

An off-grid solar system is independent of the local power grid. This system is designed to produce and store enough solar energy to meet your electricity needs, typically through batteries. It’s ideal for remote areas where grid connection is unavailable or unreliable.

Key Features of Off-Grid Solar Systems:

  1. Complete Independence: Off-grid systems operate independently from the local power grid, meaning you rely entirely on solar energy for your electricity needs.
  2. Battery Storage: To ensure continuous electricity, even during cloudy days or nighttime, solar batteries are essential in an off-grid system. They store excess energy generated during the day for use later.
  3. Higher Initial Investment: The inclusion of batteries increases the initial cost of installation. However, it makes you energy independent and free from utility bills.
  4. Reliable Power in Remote Locations: Off-grid systems are perfect for rural or remote areas where grid connectivity is either unavailable or unreliable.

Key Differences Between On-Grid and Off-Grid Solar Systems

Feature On-Grid Solar System Off-Grid Solar System
Connection Connected to local grid Independent of the grid
Battery Requirement No batteries required Requires batteries
Initial Cost Lower installation cost Higher due to batteries
Power During Outages No backup during outages Provides power during outages
Best Suited For Urban areas with reliable grid Remote areas without grid connectivity

Which Solar System is Right for You?

  • If you live in an area with reliable grid access and want to reduce your electricity bills, an on-grid solar system is the best choice. It’s affordable, efficient, and integrates seamlessly with the local grid.
  • If you live in a remote location or simply want to be independent from the grid, an off-grid system is a better option. Although the initial cost is higher due to battery storage, it provides a self-sufficient energy source that works even in power outages.

Conclusion

Choosing between an on-grid and off-grid solar system depends largely on your location, energy requirements, and budget. For urban dwellers, an on-grid system provides cost savings through net metering and lowers reliance on utility power. For those in rural or remote areas, or who want complete energy independence, an off-grid system ensures uninterrupted power.

At SolarUrjaa, we specialize in both on-grid and off-grid solar solutions tailored to meet your needs. Get in touch with us today to find the best solar solution for your home or business!

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CAN SOLAR PANELS WITHSTAND HURRICANES & EXTREME WEATHER?

Solar panels from Solarurjaa Solar are durable enough to withstand hurricane-force winds, large hail and heavy rain.

Solar panel manufacturers make their systems as tough as possible because they’re constantly exposed to the elements. Solar panels are durable enough to withstand a hurricane, among other rough conditions.

The good news is that you generally don’t have to worry about hurricane winds, rain or hail ruining or damaging your solar panels because they’re built to be resilient. But you’ll need to take some precautions before any tropical storms hit.

How Durable Are Solar Panels?

Solar panels might seem fragile because some are made of glass, but high-quality, thick tempered glass is actually quite strong.

However, solar panels made of monocrystalline silicon are much more common and more durable overall. Monocrystalline silicon is made by melting pure silicon and forming it into bars, then cutting it into wafers. The purer the silicon is, the more efficient your solar panels are.

Manufacturers also rigorously test their products and pursue third-party verification to ensure their solar panels can withstand a hurricane and its worst conditions, including high-force winds, large hail and heavy rain.

Effects of Hurricane Weather on Solar Panels

Effects of Rain on Solar Panels

Rain has no real negative effect on solar panel systems. Solar panels and their connectors are durable and waterproof. You won’t have to worry about them falling apart when the rain starts pouring down.

In fact, the residual rain droplets on your panels can have a positive effect on energy generation. Water is reflective, so those droplets attract light and boost energy generation when the sun reemerges after a rainstorm.

Rain is also helpful in washing away dirt and debris from solar panels. This keeps them clean for absorbing ample sunlight.

Effects of Wind on Solar Panels

Most solar panels can handle wind speeds of up to 2,400 pascals, which equals 140 miles per hour (mph). The best manufacturers engineer solar panel systems with local wind patterns in mind.

The average sustained wind speed for Category 3 hurricanes is between 111 and 129 mph. Nevertheless, your solar panel system should have no trouble combating these strong winds and can withstand a hurricane.

Effects of Hail on Solar Panels

Contrary to what most people might think, solar panels are resistant to some of the hardest, biggest hailstones. The National Renewable Energy Laboratory studied 50,000 solar panel installations between 2009 and 2013 and found that only .1% of all systems reported module damage or underperformance each year.

Do Solar Panels and Batteries Work During Hurricanes?

Solar panels can still generate energy despite the intense rain and clouds that hurricanes bring. Your home solar installation can absorb sunlight and produce electricity as long as sunlight hits them directly or indirectly.

However, hurricanes often damage grid lines, which results in power outages. Certain states (such as Florida) require solar panel owners to connect to the grid. If an outage occurs, all solar systems must halt power generation for the safety of electricians working to restore the grid.

How to Prepare Your Solar Panels for a Hurricane

You’ll probably hear from your local weather station if a hurricane is on the way.

It’s unnecessary to (and doesn’t make sense to) remove solar panels from the ground, a wall or your roof, especially because they help protect your roof from potential storm damage.

Make sure to document the condition of your solar panel system before a hurricane strikes in case you have any damage. Solar panels are just as much of a financial investment as other assets. Having proof will help your case when seeking insurance coverage.

Having both hard and digital photocopies is wise if you need to give your provider documents. Most solar warranty plans cover your system’s equipment, labor and repair or maintenance due to damage, loss or theft over a 25-year period.

How to Inspect Your Solar Panels After a Hurricane

You should always inspect your solar panel system for damage once a hurricane has passed. However, roof solar panels aren’t as easy to assess as wall or ground-mounted solar panels. Make sure to contact a solar panel service and maintenance department for a solar repair request.

Photograph any damage, whether you’re doing the inspection yourself or asking a solar specialist to help you. Make sure to avoid any exposed or displaced wires. The system could be energized with current and potentially harm you.

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Read More-How To Heat a Greenhouse With Solar Panels?

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How To Heat a Greenhouse With Solar Panels

If you have or want to build a greenhouse and are considering heating it to grow food all year round, solar panels, also called photovoltaics or PVs, are the way to go. Solar energy is perfect for greenhouses since you’ll already have your greenhouse in an area with optimum sunlight. 

Solar energy is clean and green, so you can enjoy a wide variety of fresh fruits and vegetables even in winter without having to have them trucked in from tropical climates at significant environmental cost.

Let’s take a look at how to heat a greenhouse with photovoltaics.

How Do Solar Panels Work for a Greenhouse?

On or Off-Grid?

First, you must decide if your greenhouse is on the grid (connected to a utility company’s electricity) or off-grid. If your system is off-grid, it means you’ll need a solar generator system complete with battery storage so that you can store the excess energy your photovoltaics produce during the day when the sun is shining.

Then, it can be used at night or during bad weather when your panels are not generating enough power on their own. Staying on-grid means you don’t need to spend the extra money on batteries; you can just buy the photovoltaics.

The drawback of a grid-tied system without battery backup is that you’ll be at the whims of the grid if the power goes out, which could cost you dearly in the winter. No matter your choice, your energy will still be mostly or completely powered by the sun, helping combat climate change while also saving money on your electricity bill.

How Many Solar Panels Do I Need for a Greenhouse?

How many photovoltaics you need depends entirely on your energy usage. You can calculate your energy usage by adding up the watts from each piece of equipment you’ll be using. If you already have a heater, check the wattage.

If you haven’t yet set up your system, how much heating you need will depend on the square footage of your greenhouse and how well it holds heat. A small greenhouse may only need a single 400W solar panel to heat it, while larger greenhouses will need several.

Also, remember to include things like lighting and pumps for your automatic irrigation systems. The watts needed for these will need to be added to your total to determine how many panels you need.

The number of panels you need will also depend on the rated power of your photovoltaics, their efficiency rating, your exposure, trees that may shade them, and other local environmental factors like the number of peak sun hours.

How to Heat a Greenhouse With Solar Panels

1. Plan Panel Placement and System Components

To choose the best photovoltaic system for your greenhouse, consider what you need and where your components will be installed.

For instance, how much space do you have on your greenhouse roof, and will that roof support the weight? You also need to consider where the sun shines since you want to put your PVs facing the sun to get the most out of them.

For those living in very hot climates, ensure you have a gap beneath your panels to allow for airflow to help dissipate the temperature; you may even want to face them east or west instead of south since very high temperatures will reduce your efficiency and overall lifespan of your panels.

2. Gather the Required Tools and Components

Order your photovoltaics, battery storage if you’re going off-grid, and any additional tools you’ll need, including wires, screwdrivers, and mounting system components, which will vary with the type of set-up you use.

3. Install and Connect the Panels

Install your brackets or mounting system first, then attach your panels. Next, you need to connect all of your panels together in series.

4. Install the Solar Battery and Inverter

Use a solar battery like that in Solar Generators. They’ll already have a built-in inverter that converts the DC electricity produced by your solar panels and stores it in your battery into the AC electricity that appliances like heaters use. All you need to do is connect your panels to your battery system.

5. Install and Connect Your Heater And Other Devices

Depending on your system, you can plug your heater into your solar battery or into the greenhouse’s electrical system. You can even tie it all into a thermostat for easy automatic temperature control. Also, don’t forget to connect any lights, pumps, or other components to your system.

Benefits of Using Solar Panels to Heat a Greenhouse

Grow Warm Season Food in Cold Climates 

Using solar panels to heat your greenhouse, you can grow more warm-season crops like tomatoes and peppers in cold climates without contributing to climate change.

Save Money on Electricity

Even though installing photovoltaics requires an upfront investment, once installed and you reach the solar payback period, your energy is completely free when you achieve a return on your investment.

Energy Independence – No More Irrigation Power Outages

When you build your system with a battery, you’ll never have to worry about power outages again. This could be critical if the grid goes down in winter and your plants freeze without power. The same problem could happen in summer if you depend on air conditioners to keep the temperature tolerable for your plants.

Easy Installation and Low Maintenance

Photovoltaics are relatively easy to install, and the best part is that once they’re installed, they require virtually no maintenance. Depending on your climate and other local conditions, you may need to rinse the panels off once or twice a year to remove dust and debris.

Quiet Operation

The days of noisy, smelly fossil-fuel generators are a thing of the past. When you use solar generators instead, you can enjoy super-quiet operation. The loudest thing will be your heater, which will be inside your greenhouse, so there’s no need to worry about noise anymore.

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Top 5 Benefits Of Solar Power For Businesses In India

With the growing demand for energy and the increasing cost of non-renewable sources of energy, businesses in India are looking for ways to reduce their energy bills and become more energy-efficient. One of the most viable options for businesses is solar energy power. In this blog, we will discuss the benefits of solar power for businesses.

1. Lower energy costs:

One of the most significant benefits of solar power for businesses in India is its potential to lower energy costs. India has a growing demand for energy, and the cost of non-renewable sources of energy is increasing. By investing in solar energy, businesses can generate their electricity, which can significantly reduce their energy bills. Solar power is a one-time investment that offers long-term returns by reducing energy costs.

2. Reduced dependence on non-renewable sources of energy:

India has a limited reserve of non-renewable sources of energy, and the country is heavily dependent on imports to meet its energy needs. Solar power can reduce India’s dependence on non-renewable sources of energy, which can help reduce the country’s energy import bill. By generating their electricity, businesses can contribute to the country’s energy independence and reduce their carbon footprint.

3. Improved energy security:

Investing in solar power can also help businesses improve their energy security. Solar power is a reliable source of energy that can provide electricity even during power outages. In India, power outages are common, especially in rural areas. By investing in solar power, businesses can ensure an uninterrupted power supply, which can help them operate smoothly and efficiently.

 

4. Reduces the operating costs of your organization

Solar power is a good investment for your business, as it reduces operating costs by saving you money on energy expenses. If you are looking to reduce electricity costs and make efficient use of resources, then solar power could be the answer.

A large percentage of your monthly expenses goes towards paying for electricity bills, so if you can lower those costs by installing solar panels at your workplace or home office then this will go towards reducing other expenses like staff wages or rent payments as well as insurance premiums (if applicable).

5. Government incentives/tax benefits:

The Indian government has been promoting solar power through various policies and incentives. The government offers tax benefits for commercial and industrial solar power systems. Additionally, businesses can claim accelerated depreciation on solar power systems, which can significantly reduce their tax liability. The government also offers net metering policies, which allow businesses to sell excess electricity generated from their solar power systems back to the grid.

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Solar Rooftop Subsidy Scheme – A 360° View

Pradhan Mantri Suryoday Yojana was announced by PM Modi to extend solar energy access to households nationwide. On February 13th, Prime Minister Narendra Modi announced the renaming of the government’s updated rooftop solar scheme to ‘PM Surya Ghar: Muft Bijli Yojana‘.

Aimed at providing up to 300 units of free electricity every month to 1 crore households, this initiative with an investment of over ₹75,000 crores, aims to promote the widespread adoption of solar power. Through subsidies provided for eligible solar projects, more individuals will have the opportunity to install solar rooftop systems on their own homes, subsequently decreasing their electricity expenses.

Solar Rooftop Subsidy Benefits to Homeowners

A solar subsidy is a financial incentive the government provides to individuals or organisations to encourage the adoption of solar energy by making it more affordable and accessible to a wider range of people, businesses, and communities. By offsetting some of the initial investment required for installing solar panels, subsidies help more people to switch from traditional coal-based to renewable energy.

Central Financial Assistance (CFA) Under PM Surya Ghar Muft Bijli Yojna

Under the ‘PM Surya Ghar: Muft Bijli Yojana’, the government is offering substantial subsidies to incentivize the adoption of solar energy. For systems up to 2 kW, a generous subsidy of Rs. 30,000 per kilowatt (kW) is provided, while additional capacity up to 3 kW is eligible for a subsidy of Rs. 18,000 per kW.

Even for larger systems exceeding 3 kW, the total subsidy is capped at a considerable Rs. 78,000. These increased subsidy rates make it more accessible for homeowners to invest in renewable energy solutions, paving the way for a cleaner and more sustainable future.

The following table illustrates the subsidy amounts for various KW solar installations:

Average Monthly Electricity Consumption (units) Suitable Rooftop Solar Plant Capacity  Subsidy Support 
0-150 1 – 2 kW Rs 30,000 to Rs 60,000/
150-300 2 – 3 kW Rs 60,000 to Rs 78,000/
>300 Above 3 kW Rs 78,000/-

Where To Apply for Solar Rooftop Subsidy?

Anyone living in any part of India can use the National Portal https://pmsuryaghar.gov.in ) to apply for a Rooftop Solar System installation under PM Surya Ghar Muft Bijli Yojna and receive financial support directly in their bank account. The portal also gives information about subsidy programs, rewards, and other advantages available under this scheme. This makes it more convenient for households to apply for and get the subsidy they are eligible for.

Eligibility Criteria For Availing Solar Subsidy 

To qualify for participation in the PM – Surya Ghar: Muft Bijli Yojana in 2024, individuals must satisfy the following conditions:

  • Hold permanent citizenship of India.
  • Attain the age of 18 or above.
  • Own a residential property.
  • A valid electricity connection is mandatory for the household.
  • Householders must possess the required documentation.
  • Aadhaar linked to bank accounts is highly mandatory.
  • The household must not have previously received any other subsidies for solar panels.

Documents Required to Apply For Solar Subsidy On National Portal

The essential documentation needed for eligible residents of the country to complete the online registration for the Solar Rooftop Scheme includes:

  • Aadhar card
  • Proof of address
  • Identification card
  • Household ration card (if applicable)
  • Income certificate
  • Bank passbook
  • Mobile number
  • Passport-sized photograph
  • Utility bill for energy consumption

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Factors Influencing Home Solar Panel System Installation Costs:

  1. Solar Panel Efficiency and Type: The efficiency of solar panels directly influences the overall cost. High-efficiency panels are more expensive but can generate more electricity in a limited space. Monocrystalline panels, with their higher efficiency, tend to be costlier than polycrystalline or thin-film options.
  2. System Capacity: The size of the solar power system needed is determined by the energy consumption of the household. Larger systems with higher capacities will naturally come with a higher upfront cost. Conducting a detailed energy audit can help pinpoint the optimal system size for a specific home.
  3. Inverter Type: The choice of inverters contributes to the overall cost. While string inverters are more cost-effective, microinverters offer advantages in terms of performance, especially in scenarios where shading is a concern.
  4. Mounting Structures and Installation Complexity: The type of mounting structure and the complexity of installation are significant cost drivers. Ground-mounted systems, which require additional materials and labor, tend to be more expensive than Solar rooftop installations. Likewise, installations on complex roof designs may incur higher costs.
  5. Quality of Components: The quality of solar panels, inverters, batteries, and other system components affects both performance and longevity. Investing in high-quality equipment may increase the initial cost but can result in better efficiency and durability over the system’s lifespan.
  6. Government Subsidies and Incentives: In India, various government schemes at both the state and central levels offer subsidies and incentives to promote solar adoption. These can substantially reduce the overall cost of installation, making solar power more accessible to a broader demographic.
  7. Installation Charges: The installation charges cover labor, equipment, and associated costs. Opting for a reputable and experienced installer ensures a smooth installation process, minimizing the risk of issues that could lead to additional expenses.

Cost Breakdown:

As of 2024, the average cost of installing a home solar panel system in India can vary widely, ranging from INR 1.5 lakh to INR 5 lakh or more. Let’s break down these costs to understand the distribution of expenses.

  1. Solar Panels:
    • Solar Panel cost is a significant portion of the overall expenditure. High-efficiency monocrystalline panels can cost more per watt compared to polycrystalline or thin-film options.
    • On average, the cost of 1 kw solar panels can range from INR 37,500 to INR 42,000, depending on the wattage and type.
  2. Inverters:
    • Inverters contribute to the cost, with micro inverters being more expensive than string inverters.
    • The cost of inverters can range from INR 20,000 to INR 80,000 or more, depending on the type and capacity.
  3. Mounting Structures:
    • Ground-mounted systems are generally more expensive than rooftop installations.
    • The cost of mounting structures can range from INR 10,000 to INR 50,000, depending on the complexity and type.
  4. Batteries (Optional):
    • Batteries, if opted for, add an extra layer of cost to the installation.
    • The cost of batteries can vary widely, ranging from INR 20,000 to INR 1 lakh or more, depending on capacity and brand.
  5. Quality of Components:
    • Investing in high-quality components may increase the upfront cost but can result in better performance and longevity.
    • The cost difference for high-quality components can vary, with a potential increase of 10% to 30% compared to standard components.
  6. Government Subsidies and Incentives:
    • Government subsidies and incentives can significantly offset the installation cost, like solar rooftop subsidy scheme by govt. of India.
    • Subsidies can cover 20% to 70% of the total cost, depending on the region and the specific scheme.
  7. Installation Charges:
    • Installation charges cover labor, equipment, and miscellaneous expenses.
    • On average, installation charges can range from INR 20,000 to INR 1 lakh, depending on the complexity of the installation.

 

Solar Energy System

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Types of Solar Panels: A Comprehensive Guide for Solar Buyers

As the demand for clean energy solutions grows, more homeowners and businesses are turning to solar panels to reduce energy costs and minimize their carbon footprint. But before making the switch to solar energy, it’s essential to understand the different types of solar panels available in the market. This guide will walk you through the three main types of solar panels—monocrystalline, polycrystalline, and thin-film—so you can make an informed decision.

1. Monocrystalline Solar Panels

Monocrystalline solar panels are made from a single crystal structure, giving them a sleek, black appearance. These panels are highly efficient, making them ideal for installations where space is limited. Their high efficiency means you’ll get more power from a smaller array, which is why they are often the go-to option for homeowners.

Benefits of Monocrystalline Panels:

  • High Efficiency: Typically offer efficiency rates of 15-22%, allowing you to generate more electricity per square foot.
  • Longevity: Monocrystalline panels have a long lifespan, often exceeding 25 years.
  • Performance in Low Light: They perform well in low-light conditions, making them ideal for areas with less sunlight.

However, these panels can be more expensive than other types due to their higher efficiency and durability. But for long-term savings and performance, they are often worth the investment.

Learn more about monocrystalline panels from EnergySage.

2. Polycrystalline Solar Panels

Polycrystalline solar panels are made from multiple silicon crystals melted together, which gives them a bluish hue. These panels are generally more affordable than monocrystalline options but have slightly lower efficiency.

Benefits of Polycrystalline Panels:

  • Cost-Effective: Typically cheaper than monocrystalline panels, making them a popular choice for budget-conscious buyers.
  • Reliable Performance: While their efficiency rates range between 13-17%, they still offer reliable performance for residential and commercial use.

However, polycrystalline panels require more space to produce the same amount of energy as monocrystalline panels. If space is not an issue, these panels are an excellent option for reducing upfront costs.

Read more about polycrystalline panels on Solar.com.

3. Thin-Film Solar Panels

Thin-film solar panels are made from a variety of materials, including cadmium telluride (CdTe) and amorphous silicon (a-Si). These panels are extremely lightweight and flexible, making them a versatile choice for a wide range of applications.

Benefits of Thin-Film Panels:

  • Flexibility: Their lightweight and flexible design makes them ideal for unconventional installations, such as on vehicles or curved surfaces.
  • Cost-Effective: Thin-film panels are generally the most affordable option on the market.
  • Temperature Tolerance: These panels are less affected by high temperatures, maintaining performance in hot climates.

However, the efficiency of thin-film solar panels is lower, typically ranging from 10-12%, which means they require more space to generate the same amount of energy. This makes them less suitable for rooftop installations where space is limited.

Discover more about thin-film solar panels from SolarReviews.

Choosing the Right Solar Panel for Your Needs

When deciding which type of solar panel to install, consider the following factors:

  • Budget: If upfront costs are a concern, polycrystalline or thin-film panels may be your best option.
  • Space: For smaller rooftops, monocrystalline panels will maximize energy production in a limited area.
  • Climate: If you live in a hot climate, thin-film panels may offer better performance over time.

Each type of panel has its advantages and trade-offs, but all will provide significant savings on energy bills in the long run.

Ready to Go Solar?

At SolarUrjaa, we offer a variety of solar panels to meet the needs of homeowners and businesses alike. Our team of experts can help you determine which type of solar panel is best for your specific situation. Contact us today to start your solar journey!

Learn more about solar panel installation and explore your options with SolarUrjaa.

Conclusion

The decision to go solar is a step toward a greener, more sustainable future. Whether you opt for the high efficiency of monocrystalline panels, the affordability of polycrystalline panels, or the flexibility of thin-film panels, you’ll be making a positive impact on both your energy bills and the environment.

For more insights and tips on solar technology, keep exploring our blog and find out how solar can benefit you!

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