Solar Panel Installation | Madathil Enterprises | 97 45 45 1234

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Solar System Integrators in Kerala: Paving the Way for a Sustainable Future.

Kerala, known for its progressive energy policies and commitment to renewable energy, has made significant strides in solar power adoption. Solar system integrators in Kerala play a pivotal role in this transformation, helping businesses and households harness the abundant sunlight to generate clean, renewable energy. As the demand for solar energy solutions grows, companies like INKEL Limited are at the forefront of this energy revolution, offering expert services in solar system integration to make Kerala’s green energy dream a reality.

Why Solar Energy is the Future

Kerala enjoys a tropical climate with abundant sunshine for most of the year, making it an ideal location for solar energy solutions. Solar power is not only environmentally friendly but also economically viable. The rising costs of electricity, coupled with government incentives for solar energy installation, have prompted a surge in the demand for solar panels and integrated solar systems. Solar system integrators in Kerala help bridge the gap between the technology and its practical application, offering custom solutions to meet the unique energy needs of homes and industries alike.

The Role of Solar System Integrators

Solar system integrators are companies or professionals who design, install, and maintain solar power systems. They ensure that all the components of a solar energy system, including solar panels, inverters, and mounting structures, work together efficiently. The expertise of these integrators is critical for optimizing energy production and ensuring long-term performance. In Kerala, solar system integrators like INKEL provide comprehensive services that include site evaluation, system design, installation, and post-installation maintenance. Their knowledge of local weather patterns and building codes allows them to create tailor-made solutions for maximum energy efficiency.

Benefits of Hiring Solar System Integrators in Kerala

Expert Consultation: Solar system integrators offer valuable insights into the technical aspects of solar energy installation. They assess the energy needs, site conditions, and budget to design a system that meets the client’s requirements.

Cost-Effective Solutions: Integrators help in choosing the right type of solar panels and equipment that maximize energy production while staying within budget. They can also guide clients on how to avail of subsidies, tax benefits, and financing options.

Quality Installation: A professionally installed solar power system ensures optimal performance, longevity, and safety. Skilled integrators use certified equipment and follow best practices to minimize downtime and energy losses.

Maintenance and Monitoring: Post-installation services like regular maintenance and performance monitoring are crucial for ensuring that the system operates at peak efficiency. Solar system integrators in Kerala provide these services, ensuring long-term sustainability and return on investment.

INKEL Limited, a renowned name in Kerala’s infrastructure development sector, is making a significant impact as a solar system integrator. The company’s expertise in project management and energy solutions makes it a trusted partner for both residential and commercial solar installations. By offering end-to-end services, INKEL ensures that clients receive reliable, high-quality solar systems that cater to their energy needs.

INKEL also focuses on providing cost-effective solar power solutions that align with Kerala’s sustainable development goals. The company’s team of engineers and technicians is well-equipped to handle projects of various scales, ensuring timely delivery and efficient energy production.

Solar system integrators in Kerala are playing an essential role in the state’s renewable energy journey. Companies like INKEL are not only helping to meet the growing demand for clean energy but also driving innovation and sustainability. With their expertise and dedication, Kerala is well on its way to becoming a leader in solar energy adoption, contributing to a greener and more sustainable future.

Navigating the Complexities of Oil and Gas: Balancing Energy Demands with Environmental Concerns

In the modern world, oil and gas stand as pillars of our global energy infrastructure, powering economies, industries, and daily life. However, as indispensable as they are, the extraction and consumption of fossil fuels come with a host of challenges and controversies. In this blog, we'll delve into the intricacies of the oil and gas industry, exploring its significance, the environmental impacts, technological advancements, and the path forward towards a more sustainable energy future.

The Significance of Oil and Gas: Oil and gas have been driving forces behind the industrial revolution and subsequent waves of technological advancement. They fuel transportation, manufacturing, electricity generation, and are raw materials for countless products, from plastics to pharmaceuticals. The global demand for these resources continues to rise, driven by population growth, urbanization, and industrialization in developing nations.

Challenges and Controversies: Despite their immense utility, oil and gas extraction and consumption pose significant environmental, social, and geopolitical challenges. The burning of fossil fuels is a primary contributor to climate change, releasing greenhouse gases such as carbon dioxide into the atmosphere. Moreover, oil spills, habitat destruction, and water contamination are among the environmental risks associated with drilling and refining operations. Additionally, the industry's reliance on finite resources and its susceptibility to price volatility and geopolitical tensions underscore the need for diversification and innovation in the energy sector.

Environmental Impacts: The environmental footprint of oil and gas operations extends from exploration and production to transportation and consumption. The extraction process often involves drilling, hydraulic fracturing (fracking), and other methods that can disrupt ecosystems, deplete water resources, and release pollutants into the air and water. Furthermore, the combustion of fossil fuels emits not only carbon dioxide but also pollutants like sulfur dioxide, nitrogen oxides, and particulate matter, contributing to air pollution and public health issues.

Technological Advancements: In response to these challenges, the oil and gas industry has been investing in technological innovations to improve efficiency, reduce environmental impacts, and tap into unconventional resources. Advancements in seismic imaging, drilling techniques, and reservoir management have enabled companies to access previously inaccessible reserves while minimizing surface disturbance. Additionally, research into carbon capture and storage (CCS) technologies offers the potential to mitigate greenhouse gas emissions from fossil fuel combustion.

The Path Forward: Transitioning to a more sustainable energy future requires a multi-faceted approach that balances energy security, economic development, and environmental stewardship. Renewable energy sources such as solar, wind, and hydropower are increasingly cost-competitive and offer cleaner alternatives to fossil fuels. Government policies, subsidies, and incentives can play a crucial role in accelerating this transition by fostering investment in renewable energy infrastructure and incentivizing energy efficiency measures.

Furthermore, collaboration between governments, industry stakeholders, and civil society is essential to address the complex challenges posed by the oil and gas industry. This includes implementing robust regulatory frameworks to ensure responsible resource extraction, promoting transparency and accountability in corporate practices, and supporting affected communities through equitable resource management and revenue-sharing mechanisms.

In Kochi, the bustling port city of Kerala, India, the oil and gas industry holds significant promise and opportunity. With its strategic location and growing energy demands, Kochi serves as a hub for education and training in this vital sector. Oil and gas courses in Kochi cater to aspiring professionals seeking to enter this dynamic field, as well as experienced workers looking to enhance their skills and knowledge.

Navigating the Complexities of Oil and Gas: Balancing Energy Demands with Environmental Concerns

In the modern world, oil and gas stand as pillars of our global energy infrastructure, powering economies, industries, and daily life. However, as indispensable as they are, the extraction and consumption of fossil fuels come with a host of challenges and controversies. In this blog, we'll delve into the intricacies of the oil and gas industry, exploring its significance, the environmental impacts, technological advancements, and the path forward towards a more sustainable energy future.

The Significance of Oil and Gas: Oil and gas have been driving forces behind the industrial revolution and subsequent waves of technological advancement. They fuel transportation, manufacturing, electricity generation, and are raw materials for countless products, from plastics to pharmaceuticals. The global demand for these resources continues to rise, driven by population growth, urbanization, and industrialization in developing nations.

Challenges and Controversies: Despite their immense utility, oil and gas extraction and consumption pose significant environmental, social, and geopolitical challenges. The burning of fossil fuels is a primary contributor to climate change, releasing greenhouse gases such as carbon dioxide into the atmosphere. Moreover, oil spills, habitat destruction, and water contamination are among the environmental risks associated with drilling and refining operations. Additionally, the industry's reliance on finite resources and its susceptibility to price volatility and geopolitical tensions underscore the need for diversification and innovation in the energy sector.

Environmental Impacts: The environmental footprint of oil and gas operations extends from exploration and production to transportation and consumption. The extraction process often involves drilling, hydraulic fracturing (fracking), and other methods that can disrupt ecosystems, deplete water resources, and release pollutants into the air and water. Furthermore, the combustion of fossil fuels emits not only carbon dioxide but also pollutants like sulfur dioxide, nitrogen oxides, and particulate matter, contributing to air pollution and public health issues.

Technological Advancements: In response to these challenges, the oil and gas industry has been investing in technological innovations to improve efficiency, reduce environmental impacts, and tap into unconventional resources. Advancements in seismic imaging, drilling techniques, and reservoir management have enabled companies to access previously inaccessible reserves while minimizing surface disturbance. Additionally, research into carbon capture and storage (CCS) technologies offers the potential to mitigate greenhouse gas emissions from fossil fuel combustion.

The Path Forward: Transitioning to a more sustainable energy future requires a multi-faceted approach that balances energy security, economic development, and environmental stewardship. Renewable energy sources such as solar, wind, and hydropower are increasingly cost-competitive and offer cleaner alternatives to fossil fuels. Government policies, subsidies, and incentives can play a crucial role in accelerating this transition by fostering investment in renewable energy infrastructure and incentivizing energy efficiency measures.

Furthermore, collaboration between governments, industry stakeholders, and civil society is essential to address the complex challenges posed by the oil and gas industry. This includes implementing robust regulatory frameworks to ensure responsible resource extraction, promoting transparency and accountability in corporate practices, and supporting affected communities through equitable resource management and revenue-sharing mechanisms.

In Kochi, the bustling port city of Kerala, India, the oil and gas industry holds significant promise and opportunity. With its strategic location and growing energy demands, Kochi serves as a hub for education and training in this vital sector. Oil and gas courses in Kochi cater to aspiring professionals seeking to enter this dynamic field, as well as experienced workers looking to enhance their skills and knowledge.

Get 40% MNRE Solar Subsidy On Your Residential Roof-top Projects

Unlock significant savings and embrace renewable energy with the best solar company in Kerala, serving Calicut, Malappuram, and beyond. By partnering with us, you can avail of a generous 40% MNRE Solar Subsidy for your residential rooftop projects. Say goodbye to soaring electricity bills and hello to sustainable power solutions that benefit both your pocket and the planet. With our expertise and commitment to quality, we ensure seamless installation and top-notch service, making the switch to solar energy a breeze. Join the green revolution today and let us illuminate your home with clean, affordable energy.

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Solar Panel Dealers in Kannur: Powering a Sustainable Future

In the era of environmental consciousness and renewable energy, the demand for solar panels has witnessed a significant surge. Kannur, a coastal city in Kerala, India, is no exception to this trend. Solar panel dealers in Kannur have become pivotal players in the transition towards a greener future as the need for clean and sustainable energy sources increases.

Understanding Solar Panels and Their Significance

Harnessing the Power of the Sun

Solar panels, also known as photovoltaic panels, are devices designed to convert sunlight into electricity. These panels consist of multiple solar cells made from semiconductor materials, such as silicon. When sunlight strikes these cells, it initiates a flow of electrons, generating direct current (DC) electricity.

The Environmental Impact

The use of solar Kannur contributes to a reduction in greenhouse gas emissions, making them an environmentally friendly energy source. By producing clean energy without releasing harmful pollutants, solar panels play a crucial role in combating climate change and minimizing air pollution.

The Solar Energy Landscape in Kannur

Rising Demand for Solar Panels

The growing awareness of environmental issues and the increasing cost of traditional energy sources have driven the demand for solar panel dealers in Kannur. Residential, commercial, and industrial sectors are all embracing solar energy solutions to cut down on electricity bills and contribute to a sustainable future.

Government Initiatives and Incentives

To promote the adoption of solar energy, both the state and central governments of India offer various incentives, subsidies, and tax benefits. These initiatives have played a significant role in encouraging individuals and businesses in Kannur to invest in solar panel installations.

Choosing the Right Solar Panel Dealer

Research and Reputation

When selecting a solar panel dealer, thorough research is crucial. Check the dealer's reputation, customer reviews, and track record in delivering quality products and services.

Product Range and Quality

A reliable solar panel dealer should offer a diverse range of solar panels from reputable manufacturers. Focus on the quality, efficiency, and durability of the panels they provide.

Customized Solutions

Every customer's energy needs are unique. A reputable dealer should be able to offer customized solar solutions tailored to the specific requirements of residential, commercial, and industrial clients.

Advantages of Going Solar in Kannur

Reduced Electricity Bills

By generating your electricity from solar panels, you can significantly reduce your monthly electricity bills, offering long-term financial benefits.

Energy Independence

Solar panels grant you a degree of energy independence by producing power on-site. This can be particularly advantageous during power outages or energy supply disruptions.

Low Maintenance

Solar panels are known for their low maintenance requirements. Regular cleaning and inspections are generally enough to keep them running smoothly.

Overcoming Challenges in Solar Adoption

Initial Costs

While the long-term benefits are substantial, the initial investment in solar panel installation can be relatively high. However, this cost can often be offset by government incentives and savings on electricity bills.

Conclusion

As the world turns towards sustainable energy solutions, solar panels have emerged as a game-changer in the pursuit of a greener planet. In Kannur, the growth of solar panel dealers signifies a collective commitment to embracing renewable energy sources. By choosing solar, individuals and businesses not only contribute to environmental conservation but also make a positive impact on their finances in the long run.

Why Solar Systems are the Future of Energy in Kerala

Kerala, a southern state in India, is known for its lush green landscapes and abundant rainfall. However, the state has been grappling with a severe energy crisis, with frequent power cuts and high electricity bills. In recent years, the state government has taken steps toward promoting renewable energy, particularly solar power. In this blog, we will discuss why solar systems are the future of energy in Kerala and the role of solar system integrators and renewable energy experts in the state.

Solar power is a clean and renewable source of energy that can help reduce the state's dependence on fossil fuels and reduce carbon emissions. Kerala has a high potential for solar power generation, with an average of 300 sunny days in a year. The state government has set a target of generating 1,000 MW of solar power by 2022, and several initiatives have been taken to promote solar power in the state.

One of the key players in the promotion of solar power in Kerala is solar system integrators. These are companies that specialize in designing, installing, and maintaining solar power systems for homes, businesses, and institutions. Solar system integrators in Kerala have the expertise and experience to design customized solar power solutions that meet the specific needs of their clients. They use high-quality solar panels and other components to ensure maximum energy efficiency and durability.

Renewable energy experts in Kerala also play a crucial role in the promotion of solar power. These are professionals who have in-depth knowledge of various renewable energy technologies, including solar power. They provide consultancy services to individuals and organizations who want to switch to renewable energy sources. Renewable energy experts can advise clients on the best solar power system for their needs, provide information on available subsidies and incentives, and guide them through the installation and maintenance process.

Solar power has several advantages over conventional sources of energy in Kerala. First, it is cost-effective in the long run. Although the initial investment in solar power systems may be high, the cost of solar power generation is significantly lower than that of conventional power sources. With the rising cost of electricity in Kerala, solar power is becoming an attractive alternative for many households and businesses.

Second, solar power is reliable and consistent. Unlike conventional power sources, solar power does not depend on fossil fuels and is not subject to price fluctuations. Solar power systems can also be designed to store excess energy, ensuring a continuous power supply even during power outages.

Third, solar power is environmentally friendly. Solar power systems do not emit greenhouse gases and other pollutants, which can have a significant impact on the environment and public health. With increasing concerns about climate change and air pollution in Kerala, solar power is a viable solution to reduce carbon emissions and promote sustainable development.

In conclusion, solar systems are the future of energy in Kerala. With its abundant sunshine and the rising cost of electricity, solar power is becoming an attractive alternative for households, businesses, and institutions in the state. Solar system integrators and renewable energy experts in Kerala have an essential role to play in promoting solar power and guiding clients through the installation and maintenance process. By embracing solar power, Kerala can reduce its dependence on fossil fuels and take a significant step towards a sustainable future.

Solar Panel Installation Kerala | Madathil Enterprises | 97 45 45 1234

Madathil Enterprises now offers rooftop solar installations with a government subsidy of up to 78,000. They collaborate with leading brands such as V-Guard, Waaree, Vikram Solar, and Adani to ensure top-quality installations and services across Kerala. This is an ideal time to switch to solar energy, benefiting from their expertise in both domestic and commercial sectors.

As a leading solar solution provider in Kerala, Madathil Enterprises is committed to delivering reliable and efficient solar energy solutions. Their extensive experience and partnership with renowned brands make them a trusted choice for solar installations, helping customers save on energy costs while contributing to a sustainable future. Our services are available across Kerala.

Solar Panel Installation Kerala, Solar Power Plants, Rooftop Solar, Solar Subsidy, Kerala, Kollam, Thiruvananthapuram, Pathanamthitta, Alappuzha, Kottayam, Kochi

Power Crisis in India- Would be Switching to Solar Solve Your Issue

Power Crisis in India

India recently experienced a power crisis, with the daily peak power shortage reaching 10,778 MW and the national energy deficit reaching 5%, with some states experiencing steep deficits of up to 15%. As a result, distribution companies resorted to load-shedding, resulting in long periods of outage for many households and rationed supply for economic activities.

This crisis has resulted from the depletion of coal supplies at thermal power plants. This, however, is not a new phenomenon. The shortage occurs almost every year, and despite various measures, the government has not been able to solve the problem.

An Unpredictable Resource

Despite being the world's second largest coal producer, the country experienced a coal supply shortage. However, this time, a lack of availability was not a cause for concern. Instead, problems with coal evacuation and stockpiling at thermal power plants caused a supply shortage. This, combined with an increase in the price of imported coal due to the world's unsettled political climate, resulted in a severe shortage.

The country urgently needs to diversify its electricity generation. Why? Because, even if India avoids the immediate crisis this year, it may not be able to do so in the future.

The demand for electricity continues to rise. Following the Covid-19 pandemic, Indian industries are attempting to resume operations and make up for lost time. A steady supply of electricity is critical in a rapidly growing economy and population. This crisis has provided an opportunity for the country to reduce its reliance on finite fossil fuels. The country requires a paradigm shift. From conventional and limited energy sources to locally available and sustainable renewable energy.

The Renewable Solution

According to a study conducted by Climate Risk Horizons, a policy research organisation, there would have been no crisis if India had met its renewable energy target of 175 GW. Renewable energy sources would have supplemented the generation from thermal power plants. This, in turn, would have preserved the dwindling reserves.

India currently has a renewable energy capacity of 160.92 GW, with a goal of reaching 175 GW by the end of 2022. This figure includes wind power, solar energy, bio-power, and small and large hydroelectrical power. Solar energy is the most accessible power source for homes, businesses, and industries.

The Bright Potential of Solar

As a tropical country, many states in India receive plenty of sunlight. The country can convert this locally available resource into a power source with a well-established solar infrastructure.

According to the National Institute of Solar Energy, the country has a vast solar potential of approximately 748 GW, assuming that solar modules cover 3% of the waste land area. India's goal for harnessing this resource is to build 280 GW of solar power capacity by 2030. Furthermore, to achieve this goal, the Indian government is constructing large-scale solar power plants. Through policy changes and subsidy programmes, they are also encouraging rooftop solar installations.

And there are many takers.

Businesses and industries across many industries are turning to solar to reduce their electricity costs and gain energy production independence. Furthermore, as residential solar installation policies evolve, homeowners are investing in rooftop solar systems.

Many state-owned buildings use this renewable resource to meet their energy requirements. Cochin International Airport Ltd (CIAL) in Kerala was the world's first airport to run entirely on solar energy. Similarly, other state airports such as Kolkata, Hyderabad, and Delhi have chosen to use green energy.

Solar energy is the most popular renewable energy source in India because it provides numerous benefits:

Benefits of Solar Energy

1. Reduces strain on coal

During the day, solar energy production is at its peak. This is also the peak period for power demand. The pressure on coal systems can be reduced if we supplement coal-based power with this renewable resource. In this manner, coal reserves can be saved for the night.

2. Improves grid security

Energy generation centres are expanding as small and large-scale solar power plants are built across states. As a result, utility grids are being infused with solar power, which improves grid security. A strong grid also reduces the likelihood of frequent blackouts.

3. Reduces Electricity Bill  

Electricity prices are rising as the supply of power sources becomes more uncertain. Solar can significantly reduce energy costs in this scenario. The initial investment in solar systems can be recovered in as little as 2-3 years.

4. Wider Reach

Many remote areas of India lack access to electricity but receive plenty of sunlight. Solar energy systems with battery backup are a viable solution in such cases.

5. Feasible

Solar systems have become more efficient, dependable, and cost-effective as newer technology has entered the market. As a result, installing solar has become more affordable for consumers across all industries.

Government Policies & Challenges

Many new policies to promote solar energy development have recently emerged in India. Policies such as the Approved List of Models and Manufacturers (ALMM) and Basic Custom Duty aim to develop domestic manufacturing capacity for solar modules by restricting solar module and solar cell imports. Others, such as the Green Energy Open Access Policy, make it simple for commercial and industrial customers to buy renewable energy from sources other than their local power distribution company.A national portal was also established to facilitate the submission of applications and the tracking of subsidy transfers.

However, there are still some major hurdles in reaching the solar target-

• Despite the encouragement, domestic manufacturing capacity for solar components remains limited, and imports have become prohibitively expensive. This has an impact on the cost of solar energy systems.

• There is a need to develop transmission and distribution infrastructure for solar power project power evacuation.

• The availability of clear land for ground-mounted solar systems continues to be an issue. The high cost of land is a major impediment to the establishment of power plants.

• Covid-19 imposed financial constraints on commercial and industrial businesses, limiting their ability to invest in new solar projects.

• Distribution companies' opposition has also been a major impediment. Many states restrict net metering and force their customers to use gross metering, limiting their ability to save money on electricity.

A 'favourable policy environment' is required to boost solar development in India. Furthermore, the Indian government should take steps to create dedicated financing options for solar projects in order to make it easier for businesses to shift their focus to solar energy.

Aside from that, improved implementation of existing renewable policies and solar infrastructure development are required to increase India's solar capacity.

SOLAR PANEL SUBSIDY IN INDIA

When discussing solar energy, we think about the pricing of the solar system and the subsidy scheme for solar panels. The Government of India has launched a power saving scheme called Solar Roof Top Power Plant to save wealth for future generations. We all know the obvious reason for not using solar energy in the residential / commercial sector and its value. Therefore, realizing this problem, the Central Government launched the MNRE Solar Subsidy Scheme.

MNRE solar subsidy scheme

40 % up to 3 KW

Plus 20% for Remaining above 3 KW up to 10 kW for the Domestic sector.

More the 10KW – No any subsidy

Besides, 70% subsidy in hill stations states like Himachal Pradesh, Uttarakhand, and Jammu & Kashmir, and 90% subsidy available for farmers on water pumping systems..

What are the documents required to apply for Solar Subsidy?

Soft copy of Identity Proof to be uploaded Online on DISCOM/ Bureau of Energy Efficiency Website.

Photo

Aadhaar Card

PAN Card

Electricity Bill

Solar panel subsidy scheme in India 2021-2022

As the number of solar panel installations in India is increasing, here are some essential points and some details about the subsidy scheme in different states.

1. Solar Panel Subsidy in Uttar Pradesh, 2021

Uttar Pradesh is one of the leading states in installing solar panels to protect our non-renewable resources. The state government has announced a subsidy of Rs 15,000 per kilowatt per for residential installations. Here are some details about the subsidy in the state.

State subsidy amount- Rs. 15,000-20,000 Up to 10kW

Rooftop solar system size- Up to 10 kW

2. Solar Panel Subsidy in Kerala, 2021

Kerala Government & KSEB runs solar subsidy in the name SAURA Project. Kerala aims to turn homes into power stations by installing solar panels in every possible home. So, before installation, here are some details provided by the state government.

State subsidy amount- 40% for first 3 KWp & 20% for Remaining above 3 KW up to 10 kW

Rooftop solar system size- Up to 10 kW

3. Solar Panel Subsidy in Maharashtra, 2021

In Maharashtra, the solar subsidy is done by MEDA, which helps people to easily install solar panels by financially assisting above the subsidy. Here is some information related to the installation.

State subsidy amount - 30% of the standard cost

Rooftop solar system size - Up to 10 kW

You can apply by visiting the online site of MEDA for solar panel installation.

4. Solar Panel Subsidy in Haryana, 2021

Through numerous solar panel installations, Haryana is making a significant contribution to making the earth a better place for our future generations. Below is the required information related to this.

State Subsidy amount- 30% of the standard cost

Rooftop solar system size- Up to 10 kW

You can apply by visiting the online site of HAREDA and submit the application for the solar panel installation.

5. Solar Panel Subsidy in Bihar, 2021

The Government of Bihar is joining this green initiative and providing the necessary subsidy for the installation of solar panels in the state. Here are some things you need to know before installing a solar panel.

State Subsidy amount- 25% subsidy over the installation cost

Rooftop solar system size- minimum 1kW

BREDA manages the solar panel subsidy in Bihar. You can apply online for prompt installation by visiting their site.

How We Get Water From Borewells

India is a country dependent on agriculture for its economic sustenance to a significant extent. However, the sector is facing quite a lot of problems in this regard. First of all, the population is always going up, the land holdings are diminishing in both size and number, and urbanization has become an issue as well. To that you have to add the issue of deeper borewells being dug into grounds so that groundwater can be extracted. The thing with borewells is that they are significantly similar to the tube wells. Both happen to be vertically drilled wells that are bored into the surface of the earth so that water can be taken out for different purposes.

However, a borewell pipe differs from a tubewell in the casing that is used for the work, the depth of the same, and the kind of soil where the drilling is being done. The casing is done so that the external surfaces of the borehole can be supported. This makes sure that it does not collapse. This is necessary for some depths, and usually professionals use pipes that are made from materials such as PVC (polyvinyl chloride) for the casing pipe for borewell. In these cases, electrical pumps are used so that the water can be pumped out of the borewell. These days, the government is also offering subsidies for solar pumps.

 A lot of experts however feel that such convenient pumps might one day drain the underwater reserves in the country at a greater pace. 

The exploitation of groundwater resources 

The number of borewells being dug around the country has increased to such a dangerous level that it is being termed as excessive by experts. The rate of water being pumped out is much higher than the rate at which it is being replenished. This has meant that groundwater levels have been seriously depleted in India.

This is the reason why a lot of states such as Kerala and Karnataka have enacted laws and regulations to make sure that they can keep a tab on these things. Similar steps have been taken in West Bengal as well. 

Conclusion 

If you want to get borewell pipes it is always better that you get the same from the leading service providers in the industry such as Ashirvad Pipes. This way you can be sure that you would be getting the best products out there for sure – one that would offer you the full value for the money that you have invested in them.  

Interview: Mahua Acharya, MD & CEO, Convergence Energy Services Ltd.

In an exclusive interview with Climate Samurai , Mahua Acharya, MD & CEO, Convergence Energy Services Ltd. shared about the company , carbon credits, business models around the second life of batteries and more. Here is the excerpt - You started heading CESL at a time when most of the companies were facing COVID 19 heat and economic turbulence that wrecked the spine of many firms, how has been the journey for CESL during this timeframe and how did you manage to float through? The disruptions around Covid 19 were both good and bad, from a business point of view. CESL was formed in November 2020 and the year-end slowdown, plus slowdowns from Covid 19 gave me the time to learn about the parent company EESL and the two projects that CESL inherited from the parent. It also gave me time to build a business plan, speak with people, plan the organization and its structure, develop a strategy and its business offerings. We hit the ground running, finding little cracks in the travel openings and meeting slots to pitch CESL offerings to Government clients. Things picked up speed very quickly in the new year, and we managed to crack businesses in two wheelers, move ahead on a 110MW project in Goa, build out a business in e-mobility for the Governments of Goa and Kerala, and also earn mandates for places like Leh/Ladakh. Wherever and whenever possible, CESL continued to work on the ground to enable quality and timely delivery of commitments. We made sure that our team's physical and mental health continued to stay strong. We used whatever time we had to reach out to people, understand their needs, help organize for vaccines, and encourage people to take time out if they needed to take care of their families, many of whom were affected by Covid 19. I have been fortunate to have a team that is dedicated and hardworking. - How CESL is bringing together India’s green sectors and initiatives to deliver on its goals? Can you please elaborate how the carbon credits being used by a government company? And, what is the current scenario, the development, plan, engagement in the carbon market and supply of this carbon credits? The energy sector and the electricity sector, in particular, are transitioning in an unprecedented way. It is estimated that energy demand in 2040 in India will rise by 250%, largely due to population growth and urbanisation. More than 40% of the energy supplied will be from renewable sources, as solar and wind reach grid parity, the cost of storage becomes affordable, and countries pursue decarbonisation pathways. Concerns around climate change are likely to make coal, a less preferred option for baseload power and issues related to proliferation and safety may not allow nuclear power to fill the baseload gap. In a further unprecedented way, overlaps with electric mobility have started to take place through multiple uses of batteries for charging cars and selling power to the grid. Against this backdrop, the convergence of three traditional “sectors” namely- power, energy storage, and transportation is set to take place. As the world (and India) moves towards electric mobility, battery storage solutions at charging stations will get widely adopted and will be commercially viable. Climate finance, utilised and designed properly, will play an important role in enhancing the commercial viability of solutions as many are currently sub-commercial. On carbon credits, CESL is developing a base of carbon credits for all of its programs. Take the case of Gram Ujala – a lighting replacement program where LEDs are sold at Rs 10 only to consumers in rural India. The efficiency gains are significant as these LEDs replace old filament lamps, and the ten rupee price makes it affordable to rural homes. This program is based entirely on revenue from carbon credits. Carbon finance has been integrated into all our models and based on the economics, it plays either a catalytic role or a binary role – i.e., make or break an investment because carbon revenues are the only source of income. In decentralised solar, carbon finance will be used to offset the cost of replacing old pumpsets. Carbon finance is a crucial source of revenue to enable the shift to E-Mobility. - Renewable Energy, Electric Vehicles and storage are pushed by the governments across the globe for larger scale adoption. However, afterlife of all these have serious and adverse impact on the environment and climate both. These together set to create urgency for immense recycling and afterlife management services. Does CESL have any plan to dive into this recycling segment, how does it plan to solve the upcoming massive environment crunch and how geared up is the organization? CESL is actively investing in energy storage solutions by associating with technical partners to redesign solutions. CESL is also at the forefront of policy development and recommendations to enable energy storage solutions for the Indian markets. With regards to electric mobility, our goal is to provide an impetus for Indian car/bike manufacturers, charging infrastructure companies, fleet operators, service providers, etc., to gain efficiencies of scale and drive down costs, create local manufacturing facilities, grow technical competencies for the long-term growth of electric mobility in India. There is considerable overlap between e-mobility and battery storage, through multiple uses of batteries for charging cars and selling power to the grid. Secondly, the used batteries from EVs can be repurposed for a second life, with potential off-grid and residential applications. With the decentralised solar programme, we provide affordable clean energy to households in remote areas where proper power supply has been a problem. While DISCOMs benefit from cheaper power and better serviceability, governments save on subsidy costs. Farmers and consumers benefit from access to renewable energy and save up on electricity bills. We are exploring business models around the second life of batteries. We want to promote a circular economy – make sure the material is still usable after their transportation life is completed. There is no market in India – and in most places across the world – for second-life batteries. This is still very new – only a few companies are investing in pilot solutions, and we want to be one of them – because we would like to build an environmentally responsible business. In our businesses, we urge and sometimes require companies to have a take-back or buyback scheme, require and monitor the safe destruction of old material and so on. And we remain open to new ideas. - Since 2005 the emissions trading for climate change has been going on and today, according to World Bank over 64 carbon pricing initiatives has been implemented. The total value of global carbon markets jumped 20% last year to a record 229 billion euros ($277 billion). Can you share with our readers how crucial is the design of trading programmes for their success and what are the design principles that needs to be considered? The current carbon market is valued at USD 277 Bn and the average price of allowances in the European Union is Euro 35/ton. The design of trading programme is critical to their success, as they determine the transaction costs as well as the uncertainty and risk inherent in the trading system. There are plenty of learnings to use—from regulators, scheme operators, participants, auditors, and financiers. There are five design principles that are worth considering: - Design for maximum reach: Deciding whether a scheme is an allowance trading or a credit trading scheme, or both. Credit trading allows emissions reductions above and beyond business-as-usual to be certified as tradable. Allowance trading works by defining an aggregate emissions cap and authorizes tradable quantities of emissions under the cap. Generally speaking, schemes that have allowed both have been the most successful, though care ought to be taken to reduce the regulatory barriers to credit trading. Allowing opt-ins would be a good idea. This is a provision that allows otherwise uncovered sources to enter the program once their uncertainties have been resolved with the regulator. When the time is right, allow for international linkages. Permitting linkages with other international schemes will allow for the discovery of the lowest transaction costs, increase liquidity and options for participation. All this will eventually maximize the scope of scheme coverage, and provide other benefits—such as international markets, access to other forms of capital, and so on. All these mechanisms will ultimately result in maximizing the total quantity of greenhouse gas emissions capped and reduced. - Design for flexibility:  Since the carbon price can vary, costs to participants can be unknown. Allowing mechanisms such as banking of emissions reductions, or the use of offsets gives participants the flexibility to decide which option to use. Banking of credits over a (regulated) period of time allows industries the flexibility to decide things like the price of acquisitions, timing of major investments, or their (degree of) competitiveness in the marketplace. Depending on the scheme, fungibility with other environmental commodities, such as energy efficiency certificates, can be used to meet compliance needs, at least to the extent it is not detrimental to environmental performance, i.e., it does not dilute the cap. - Keep it dynamic and in sync with the economy: Carbon credit prices in the EU emissions trading scheme fell from Euro 30 each to an all-time low of Euro 3 in 2013. Chief amongst the reasons that led to this drop was the economic recession that preceded it, and the subsequent drop in emissions—and hence a (reduced) need for allowances. It was not until 2015 that the EU introduced a corrective measure, and not until 2018 where appropriate revisions were made that allowed prices to come back up again. (This was done by adjusting the supply of allowances to be auctioned). Prices have since been on the rise—deliveries on March 29, 2021, closed at 42 euros. - Think long, think stable: One of the shortcomings of the Kyoto regime is that the commitment period was not long enough. By the time companies started to integrate the notion of a carbon price into their decision-making and discussions reached boardrooms, there were only a few years of the market left. For clean energy projects where gestation periods were long, the lack of a long enough runway triggered discussions around market continuity barely a few years after the scheme started. In contrast, the EU emissions trading scheme had/has compliance periods that progressively increased—giving companies enough certainty to plan, integrate and make investment decisions knowing regulators treated the carbon price seriously and the market was there to stay. Businesses need long time horizons to plan, make investments and decide corporate strategy. Institutions and policymakers need to design accordingly; the climate problem is a long-term issue, anyway. - Keep it simple and transparent: The transaction costs associated with implementing and managing an emissions trading scheme rise with the number of rules, exceptions to rules, and constraints. As transaction costs rise, the number of trades falls—and as the number of trades falls, the cost savings achieved by the program also decline. Deviations from simplicity should only be allowed when such deviations further climate goals. - Gram Ujala is a new scheme launched by CESL that will be supported by carbon finance, can you please share more about the scheme, the progress and it’s reach in terms of area covered. Will the LED Bulbs be available throughout the year in the villages and what will be the savings in terms of electricity units? How and when do you plan to cover all the villages in the country with this scheme? Under the Gram UJALA scheme, CESL is offering rural households to exchange their incandescent bulbs with energy-efficient LED bulbs at an affordable cost of INR 10 per bulb. Consumers can exchange their 60 watt incandescent bulb with a 7 watt LED bulb and 100 watt incandescent bulb with a 12 watt LED bulb for INR 10 per bulb. The bulbs being offered under the Gram Ujala initiative are energy efficient LED bulbs that consume 88% percent less electricity as compared to incandescent bulbs. Switching to LED bulbs will lead to energy savings, monetary savings, and a marked reduction in carbon emissions. We have recently resumed distribution after the second wave of the pandemic in Arah and Buxar districts of Bihar; and Varanasi, Prayagraj, Kaushambi, Pratapgarh, Newadhiya, Pura Raghunathpur, and Bhadohi districts in UP. As on date, we have distributed more than 14 lakh LED bulbs. As much as INR 69.12  crore have been saved because of this programme. Additionally, the scheme has helped in avoiding peak demand of 55.84 MW. The number of bulbs distributed, savings made, etc. can be tracked on the dashboard: http://gramujala.ceslindia.co.in/   After Bihar and Uttar Pradesh, Gram Ujala will be taken to Andhra Pradesh, Maharashtra, Telangana and West Bengal. The total potential across the county is an additional 300 million bulbs, and is implementable, provided a sufficient level of carbon finance is achieved. - What will be the major highlights of growth for your company in 2021-22? - Electric Mobility (1st in the country offering all kinds of vehicles to different sets of clients – Individuals, institutional bodies, ULBs, DISCOMs, STUs etc.) - Launch of major tender for Electric bus procurement basis Grand Challenge document and directions from NITI/DHI. - Launch of Battery Energy Storage system program  offering a host of multofold benefits to the DISCOMs - Company will increase its solar capacity – as a milstone of minimum assets of 500 MW on ground in decentralised solar space (which no one else in the country has) - Completion of Solar project in Ladakh (Solar Power plant and a very innovative Solar powered carport)– achieving a milestone to the road of “Carbon Neutral Ladakh” set by Hon’ble PM of India We are attempting to bring together independent sectors such as renewable energy and energy storage to ramp up areas like domestic lighting, energy efficient cooking, and e-mobility. Business models focus on optimising assets, monetising, stacking multiple values, and using innovative financial structures to deliver at scale. As of now, we have partnered with governments in the states of Maharashtra, Kerala, Goa, Andhra Pradesh, the northeastern state of Meghalaya, and even Ladakh in the extreme north. We look forward to intensifying these partnerships both qualitatively and quantitatively. We look forward to achieving greater milestones by enhancing our research and implementing Internet of Things (IoT) to make our offerings more energy-efficient, cost-efficient, and definitely, futuristic. A lot of this can be achieved by shifting our thinking from a damage-reducing perspective to regenerating and enhancing one. - The global economic turbulence and pandemic has almost paralyzed the auto and renewable energy industry globally, what do you think is the need of the hour to help the industry get back to the track and help meet the Government’s renewable energy and electric vehicle targets? India is still at a very nascent stage of EV transition and the path to implementation is ridden with challenges. While the government is prioritizing the shift towards clean mobility with a series of reforms under the FAME II scheme, there is still scope for improvement to establish a seamless EV ecosystem in India. The industry requires a standalone and focused approach towards EVs, including funds for research and the setting up of a manufacturing base. Additionally, there is a tremendous need for incentives to kick-start the production of lithium-ion cells in India. The Government should emphasize on materials like lithium, manganese, nickel, cobalt, and graphite to help reduce costs, and help in the indigenisation of battery packs. As India embarks on its journey to become a manufacturing hub by 2026, e-mobility presents a massive opportunity for growth. Indigenous manufacturing is the only solution to resolve and reduce the cost parity existing in the current regime. The next few years will be crucial in driving the EV narrative in India. Hence, the OEMs and government need to ensure on-ground implementation of the new and existing schemes to facilitate ease of sourcing, manufacturing, and financing in the EV value chain, further encouraging the buyers to purchase EVs. - How will you make batteries affordable? Is the battery swapping – the key to sustainable environment? While battery storage is technologically the most superior solution to energy savings, its costs are too high for applications in formative stages. The union government has undertaken concerted steps and has set up the National Mission on Transformative Mobility and Battery Storage, which seeks to establish large-scale, export-competitive integrated batteries and cell-manufacturing giga-plants in India through a Phased Manufacturing Programme (PMP). This will enable a decrease in the prices of energy storage in the country and also boost indigenous manufacturing. Issuance of Preferential Market Access (PMA) guidelines for battery procurements is another potential measure that can bring down the cost. This would also encourage the domestic manufacturing of batteries in India. Through partnerships with key technical partners, we are making way for opportunities to redesign solutions with battery storage capacity. CESL is at the forefront of policy development and recommendations to enable energy storage solutions for the Indian markets. Battery swapping has the potential to considerably reduce the wait time of charging by mimicking the experience of fuel pumps. It can also optimise Total Cost of Ownership (TCO), reduce resource intensiveness, act as demand responsive units for DISCOMs, and in the future, become an enabler for smart grid, among others. However, we are currently still in the nascent phase of exploring its utility and will be able to gauge its full potential with increased adoption. - CESL has been playing significant role in implementation of EVs, however the motive to implement these green vehicles are not complete until there is green charging infra in the country. Can you please share with our readers about and if the company is working towards developing green charging infrastructure, how many has been developed and the roadmap. CESL has recently entered into agreements and MoUs with state governments of Goa, Kerala and AP to procure over 30,000 two- and three-wheelers. This is the first entry into the 2W and 3W segments in the country, with solutions uniquely designed to deliver affordable financial solutions to buyers. In addition, we have signed an agreement with Andhra Pradesh to provide 25 thousand electric 2 wheelers in the state. These electric vehicles will be provided to state government employees of Andhra Pradesh. Electric 2-wheelers will boost energy and financial savings and hopefully, more and more people will also make a shift to EVs. Read the full article

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Solar System(KW) =5KW

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Tata Power Bags Rs 400 Cr Contract from KSEB to Develop 84MW Rooftop Solar Project

Utility giant Tata Power has recently won a contract worth Rs 400 crore from the Kerala State Electricity Board Ltd (KSEB) to develop an 84 MW solar rooftop project for domestic consumers across all districts in the state of Kerala.Under this contract, the Mumbai-based power utility will implement projects through KSEB of 64 MW for individual households with solar capacity ranging from 3kW - 10kW and 20 MW for residential and housing society projects with solar capacity ranging from 11kW - 100kW.The company has won this capacity in a bid announced by KSEBL in February this year under the ‘Soura Subsidy Scheme in Domestic Sector’, Kerala, in line with the Phase II Subsidy Programme of the Ministry of New & Renewable Energy (MNRE).As per the terms of the agreement, the company has to commission the project within three months of the receipt of an order from individual residential customers.Post completion of this 84 MW solar rooftop project, it is expected to generate 120 MUs of energy per year and will annually offset approximately 100 Million Kg of CO2.Commenting on the project win, Dr. Praveer Sinha, CEO & MD of Tata Power, said “we are delighted to secure the 84 MW rooftop project from KSEBL and are proud to have this opportunity to support domestic consumers migrate to green energy. This project is testament of KSEBL’s trust in our commitment to drive India’s transition towards clean power through rooftop solar-based generation.”Earlier in January 2021, Tata Power had received a Letter of Award (LoA) from KSEBL to develop a 110 MW rooftop solar project which is expected to generate about 274 MUs of energy per year.

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Kerala is in the top gainers list in terms of natural energy generating states in the country. Though there are multiple companies that are provide the solar solutions, Gadgeon stands top of it with its modern, smart and latest technology.

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