VeeSecure

FAQ's

Frequently Asked Questions

What is Vee Secure?

Vee Secure is a solar energy solutions company dedicated to making clean and affordable power accessible to everyone. We provide end-to-end services, from consultation and system design to installation and maintenance, ensuring that homes, businesses, and industries can enjoy reliable solar energy without hassle. Our goal is to help people reduce electricity costs, gain energy independence, and contribute to a greener planet.

A solar rooftop system is a renewable energy setup that involves installing solar panels on the roof of a building to capture sunlight and convert it into electricity. These systems are commonly used in residential, commercial, and industrial settings to provide clean and sustainable power directly to the building where they are installed. Here’s how they work and their components:

Key Components:
  1. Solar Panels (Photovoltaic Modules): Convert sunlight into direct current (DC) electricity.
  2. Inverter: Converts the DC electricity generated by the panels into alternating current (AC) electricity, which is usable for most electrical appliances.
  3. Mounting Structures: Securely attach the solar panels to the rooftop, ensuring proper orientation and tilt for maximum sunlight exposure.
  4. Electrical Wiring: Connects the system components and transmits electricity.
  5. Battery (Optional): Stores excess electricity for use during nighttime or cloudy conditions.
  6. Net Metering System (Optional): Measures the electricity sent back to the grid if the system generates more than needed.

 

Solar rooftop systems are a key component of sustainable development and a practical solution for reducing dependence on fossil fuels.

A solar rooftop system works by harnessing sunlight to generate electricity, which can be used directly or stored for later use. Here’s a step-by-step explanation of the process:

Summary Flow:
  1. Sunlight hits solar panels → Electricity (DC) is generated.
  2. Inverter converts DC to AC → Electricity powers appliances.
  3. Excess electricity → Stored in batteries or sent to the grid.

 

By converting free and abundant sunlight into usable electricity, solar rooftop systems provide a clean, cost-effective, and sustainable energy solution.

Switching to solar energy offers a wide range of benefits for individuals, businesses, and the planet. Here’s why going solar is a smart choice:

1. Cost Savings
  • Lower Electricity Bills: Solar panels generate electricity from sunlight, reducing your dependence on the grid and cutting your monthly energy costs.
  • Protection from Rising Energy Prices: Solar shields you from future increases in electricity rates, offering long-term financial stability.
  • Government Incentives: Many regions offer subsidies, tax credits, or rebates for installing solar systems, further reducing upfront costs.
2. Environmental Benefits
  • Clean Energy Source: Solar power is renewable and emits no greenhouse gases, helping to combat climate change.
  • Reduced Carbon Footprint: By going solar, you reduce reliance on fossil fuels, contributing to cleaner air and a healthier environment.
  • Resource Conservation: Solar uses sunlight, an abundant resource, unlike coal or natural gas, which are finite.
3. Energy Independence
  • Self-Sufficiency: Producing your own electricity reduces reliance on utility companies.
  • Off-Grid Solutions: In areas without reliable grid access, solar systems with battery storage provide a dependable power source.
4. Increased Property Value
  • Higher Market Appeal: Solar-equipped homes and buildings often sell faster and at higher prices due to lower utility costs and eco-friendly features.
  • Long-Term Investment: The durability and low maintenance of solar panels ensure that they remain an asset over time.
5. Low Maintenance and Durability
  • Minimal Upkeep: Solar systems require little maintenance beyond occasional cleaning and inspections.
  • Longevity: Solar panels typically last 25–30 years, with many manufacturers offering long warranties.
6. Job Creation and Economic Growth
  • Support Renewable Industries: Investing in solar promotes growth in the renewable energy sector and creates jobs in installation, maintenance, and manufacturing.
7. Reliability and Scalability
  • Abundant Energy Source: Sunlight is plentiful and available nearly everywhere, making solar a reliable option.
  • Customizable Solutions: Systems can be tailored to fit various energy needs, from small homes to large industries.
8. Mitigating Power Outages
  • Resilience: Solar systems with battery storage provide backup power during outages, ensuring energy availability for critical needs.
9. Government and Policy Support
  • Many governments actively support the transition to renewable energy through policies and incentives, making solar more accessible and affordable.
10. Contribution to a Sustainable Future
  • Global Impact: By adopting solar, you help accelerate the shift toward sustainable energy, benefiting future generations.

Switching to solar is not just an investment in your energy future but also a commitment to a cleaner, greener, and more resilient world. It’s a step toward financial savings, environmental stewardship, and energy independence.

Yes, solar power is very safe, both in terms of its operation and its impact on health and the environment. Here’s why solar energy is considered a safe and reliable energy source:

1. Safe for Humans and Property
  • No Harmful Emissions: Solar panels generate electricity without producing harmful gases, pollutants, or radiation.
  • No Combustion: Unlike fossil fuels, solar systems do not involve combustion, eliminating risks of explosions or toxic leaks.
  • Non-Toxic Materials: Most modern solar panels use non-toxic materials, and even advancements in recycling are reducing the impact of older technologies.
2. Safe Operation
  • Low Maintenance: Once installed, solar systems have few moving parts, minimizing risks of mechanical failure.
  • Professional Installation Standards: Approved vendors and licensed electricians ensure safe installation, adhering to strict electrical and structural guidelines.
  • Inverters and Protections: Inverters are designed with safety features, including automatic shutdown during faults, and systems include grounding to prevent electric shocks.
3. Safe for the Environment
  • No Pollution: Solar energy production does not release greenhouse gases, contributing to cleaner air and a healthier environment.
  • Sustainable Resource: Solar relies on sunlight, an abundant and renewable resource, unlike fossil fuels that deplete finite reserves and harm ecosystems.
  • Silent Operation: Solar panels operate silently, unlike noisy generators or power plants, reducing noise pollution.
4. Safety in Extreme Conditions
  • Weather Resistance: Solar panels are designed to withstand harsh weather, including hail, strong winds, and heavy rains. Manufacturers test and certify panels to meet durability standards.
  • Fire Safety: Modern solar systems are built with fire-resistant materials, and installation practices ensure systems do not pose a fire hazard.
5. Safe During Power Outages
  • Backup Power: Systems with battery storage can provide electricity during outages, offering a safe and reliable power source when the grid is down.
  • Grid Safety Features: On-grid solar systems are equipped with anti-islanding protection, which automatically shuts off the system during grid outages to protect utility workers.

 

Solar power is among the safest energy options available today. When systems are installed and maintained correctly, they pose minimal risks to people, property, or the environment while providing clean, reliable energy for decades.

To qualify for a solar system, all you need is available space on your roof and access to it. Simply fill out the project enquiry form on our website, and our team will reach out to discuss your requirements. Once the project is finalized, we will handle the entire process, including plant design, installation, and maintenance.

There are 3 types of Solar systems depending on whether the plant is linked to the power grid or battery systems for storage.

  • On-grid solar systems use common solar inverters and are connected to the public electricity grid. Any excess solar power that you generate is exported to the electricity grid and one usually get paid a feed-in-tariff or credits for the energy you export. The policy for getting credits for energy exported to the credit is termed as “Net-Metering Policy” and is available currently in most states of India.
  • Off-grid solar systems are not connected to the electricity grid and therefore require battery storage. An off-grid solar system must be designed appropriately so that it will generate enough power throughout the year and have enough battery capacity to meet the home’s requirements, even in the depths of winter when there is less sunlight.
  • Hybrid solar systems combine solar and battery storage in one and are now available in many different forms and configurations. This means being able to store solar energy that is generated during the day and using it at night. When the stored energy is depleted, the grid is there as backup, allowing consumers to have the best of both worlds.

Yes, solar panels generate electricity during monsoon and winter, but their efficiency and output may vary depending on factors like weather conditions, sunlight availability, and temperature.

The electricity production of a solar plant is influenced by several factors, including radiation levels, sunlight exposure, plant design, and the quality of components. On average, a 1 kW solar plant generates about 4 units of electricity per day.

Net Metering is a system that allows solar energy owners to earn credits for the power they contribute to the grid. When solar panels generate excess electricity, it is sent to the grid, and this energy can be “retrieved” when the solar plant is not generating power, such as during the night. When a unit of solar energy is “net metered,” the bi-directional electricity meter runs in reverse. Customers are only billed for their “net” energy usage, which is the difference between the energy consumed and the energy generated.

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