Mahakaleshwar Solar’s premier position is anchored in our core values: Excellence, Sustainability, Innovation, Customer Satisfaction, Integrity, and Expertise.
From meticulous engineering to flawless execution, we embody uncompromising quality. Our solar success consistently exceeds expectations, delivering excellence in every facet of design and construction.
Our commitment to a greener future drives us to provide innovative solar solutions. By harnessing the power of the sun, we empower environmental sustainability, reducing carbon footprints and promoting renewable energy adoption.
At the forefront of solar technology, we shape tomorrow's energy landscape. Our forward-thinking approach and cutting-edge solutions ensure that solar power remains a pivotal driver of progress and sustainability.
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Our ethical core is the compass guiding our actions. With transparency and honesty, we foster strong solar partnerships built on trust. Upholding the highest standards, we embrace responsible practices for lasting impact.
Our solar mastery is a blend of innovation, precision, and technical excellence. With a rich history of successful projects, our experts provide proven solutions that meet complex challenges head-on, delivering results with unwavering confidence.
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Lisners is India’s best Mental Health and Wellbeing App that connects technology to psychology. Our primary aim is to create Mental Health awareness, normalize mental health issues as common as physical health and encourage people to seek help.
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A solar rooftop system is a setup that harnesses the power of the sun by utilizing various components installed on the rooftop of a building.
The key elements of a solar rooftop system include:
Solar Panels: These panels consist of photovoltaic (PV) cells that convert sunlight into direct current (DC) electricity.
Inverter: The DC electricity generated by the solar panels needs to be converted into alternating current (AC) electricity, which is used to power household appliances. The inverter performs this conversion.
Mounting Structures: These structures securely hold the solar panels in place on the rooftop, ensuring optimal exposure to sunlight.
Cables: AC and DC cables are used to connect the solar panels, inverter, and other system components, enabling the flow of electricity between them.
Combiner Boxes: AC and DC combiner boxes are used to combine the outputs of multiple solar panels or inverters and route the electricity appropriately.
Other Components: Earthing cables and connectors, such as MC4 connectors, are included to ensure proper grounding and reliable connections within the system.
Together, these components work harmoniously to capture sunlight, convert it into usable electricity, and provide clean, renewable energy for various applications within the building.
There are several compelling reasons to consider going solar:
Renewable and Sustainable Energy: Solar power is a clean and renewable energy source. By harnessing energy from the sun, you contribute to reducing dependence on fossil fuels and help mitigate climate change.
Cost Savings: Solar energy can lead to significant cost savings on electricity bills. Once installed, solar panels generate free electricity for decades, offsetting or even eliminating your monthly electricity expenses.
Return on Investment: Investing in solar panels can provide a solid return on investment over time. The savings on electricity bills, potential incentives, and increased property value can contribute to long-term financial benefits.
Environmental Benefits: Solar energy production has a minimal impact on the environment. It reduces greenhouse gas emissions, air pollution, and water usage associated with traditional energy generation methods.
Energy Independence: By generating your own electricity, you become less reliant on the grid and volatile energy prices. This provides greater energy independence and stability, especially during power outages or disruptions.
Government Incentives: Many governments offer incentives and subsidies to promote the adoption of solar energy. These programs can help offset the initial installation costs and make going solar more affordable.
Increased Property Value: Properties equipped with solar panels tend to have higher resale value. Solar energy is increasingly valued by homebuyers as an attractive and eco-friendly feature.
Job Creation: The growth of the solar industry leads to job creation, supporting local economies and contributing to the development of a sustainable workforce.
Community Impact: Installing solar panels at the community or neighborhood level, such as in housing societies, can have a collective impact on reducing carbon emissions and promoting sustainability.
Technological Advancements: Solar technology continues to evolve, becoming more efficient and affordable. Embracing solar power allows you to stay at the forefront of clean energy advancements.
By going solar, you not only contribute to a cleaner and more sustainable future but also enjoy financial benefits and increased energy independence. It’s important to assess your specific circumstances, consult with solar experts, and consider the available incentives and local regulations before making a decision.
A solar rooftop system operates through a series of steps to convert sunlight into usable electricity. Here’s a simplified explanation of how it works:
Sunlight Capture: Solar panels, usually mounted on the rooftop, absorb sunlight using photovoltaic (PV) cells. These cells are made of semiconductor materials that generate an electric current when exposed to sunlight.
Conversion to DC: The absorbed sunlight is converted into direct current (DC) electricity by the PV cells within the solar panels. This DC electricity is in the form of a continuous flow of electrons.
Inverter Conversion: Since most household appliances and the electrical grid operate on alternating current (AC), the DC electricity produced by the solar panels needs to be converted. An inverter, typically installed near the solar panels, converts the DC electricity into AC electricity, matching the required voltage and frequency.
Power Consumption: The converted AC electricity from the inverter is now available for consumption. It can be used to power various electrical appliances and systems within the building, reducing the reliance on grid-supplied electricity.
Grid Interaction (if applicable): If the solar rooftop system is connected to the electrical grid, excess electricity generated by the solar panels can be fed back into the grid. This process, known as net metering or feed-in tariff, allows for credits or compensation for the surplus electricity supplied to the grid.
Monitoring and Control: The solar rooftop system may include monitoring equipment that tracks the performance of the system, such as the electricity generated, energy consumption, and system health. This information can help optimize efficiency and identify any issues that require attention.
It’s important to note that solar rooftop systems operate on a “use it or lose it” principle, meaning that the electricity generated from sunlight is primarily consumed within the building. Any surplus electricity is exported to the grid or stored in batteries, depending on the system setup and energy storage capabilities.
By harnessing the power of sunlight, solar rooftop systems provide clean, renewable energy, reduce reliance on traditional energy sources, and contribute to a more sustainable future.
With the introduction of the Direct Benefit Transfer (DBT), the subsidy application process for rooftop solar has become incredibly simplified. Here’s a step-by-step guide to help you navigate through it effortlessly:
Visit the National Portal for Rooftop Solar website to begin.
Download the Sandes app from the website and install it on your device.
Register as a customer on the Sandes app to create your account.
A discom official will visit your home to assess the technical feasibility of installing solar panels.
Upon receiving the No Objection Certificate (NOC) from the official, select SolarSquare as your solar installation company.
Engage in detailed discussions with us regarding the project requirements and sign an agreement.
Once the payment is received, we will initiate the installation process.
We will provide you with a work completion report and take care of the net meter installation application on your behalf.
Upon successful completion, you will receive a commissioning certificate as confirmation.
To facilitate subsidy disbursement, submit your bank account information and upload a copy of a cancelled cheque through the National Portal for Rooftop Solar.
Within 30 days of submitting your details to the fund handling agency, the subsidy amount will be credited directly to your bank account.
By following these simple steps, you can smoothly navigate the process and reap the benefits of solar energy.
If you are considering installing solar panels for your home or housing society, we have compiled a helpful solar panel price list. Please note that the prices mentioned below are approximate and do not include any subsidies in India:
1 KW rooftop solar system: ₹70,000 to ₹1,10,000
2 KW rooftop solar system: ₹1,40,000 to ₹1,80,000
3 KW rooftop solar system: ₹1,80,000 to ₹2,40,000
4 KW rooftop solar system: ₹2,40,000 to ₹3,20,000
5 KW rooftop solar system: ₹3,00,000 to ₹4,00,000
10 kW rooftop solar system: ₹6,00,000 to ₹8,00,000
These price ranges provide an estimate for the cost of different capacity solar systems for residential use. It’s important to consult with solar installation providers for accurate pricing and customized solutions based on your specific requirements and location. Additionally, keep in mind that subsidies and incentives may be available that can further reduce the overall cost of installing solar panels.
Yes, solar power is considered safe. Here are some reasons why:
Low Risk of Accidents: Solar panels are designed and manufactured to meet strict safety standards. When properly installed and maintained, they pose minimal risk of accidents or harm.
No Emissions or Pollution: Solar power generation does not produce harmful emissions or pollutants, making it environmentally friendly and safe for the air we breathe.
Non-Combustible: Solar panels do not rely on combustible fuels for operation, reducing the risk of fires or explosions associated with traditional energy sources.
Low Voltage: The electricity generated by solar panels is typically low voltage, reducing the risk of electric shock and making it safer to handle during installation or maintenance.
System Monitoring and Safety Measures: Modern solar power systems often come equipped with monitoring tools and safety features to detect and address any potential issues, ensuring safe operation.
Compliance with Standards: Solar panels and associated components undergo rigorous testing to meet safety standards and certifications, ensuring their reliability and safe usage.
It’s important to note that while solar power itself is safe, it’s crucial to engage qualified professionals for the installation, maintenance, and any modifications to your solar system. Following proper guidelines and adhering to local electrical codes will further ensure the safety of your solar power setup.
