Tata Power and Dairy Board Join Forces to Boost Green Energy in Milk Production

NDDB and TP Renewable Microgrid Sign MoU to Revolutionize Dairy Sector with Sustainable Solutions In a groundbreaking move, the National Dairy Development Board and Tata Power’s subsidiary have united to integrate renewable energy across India’s dairy industry, aiming to enhance sustainability and efficiency in milk production. JAMSHEDPUR – The dairy sector in India is set for a green revolution…

Scientists have developed a new solar-powered system to convert saltwater into fresh drinking water which they say could help reduce dangerous the risk of waterborne diseases like cholera.

Via tests in rural communities, they showed that the process is more than 20% cheaper than traditional methods and can be deployed in rural locations around the globe.

Building on existing processes that convert saline groundwater to freshwater, the researchers from King’s College London, in collaboration with MIT and the Helmholtz Institute for Renewable Energy Systems, created a new system that produced consistent levels of water using solar power, and reported it in a paper published recently in Nature Water.

It works through a process called electrodialysis which separates the salt using a set of specialized membranes that channel salt ions into a stream of brine, leaving the water fresh and drinkable. By flexibly adjusting the voltage and the rate at which salt water flowed through the system, the researchers developed a system that adjusts to variable sunshine while not compromising on the amount of fresh drinking water produced.

Using data first gathered in the village of Chelleru near Hyderabad in India, and then recreating these conditions of the village in New Mexico, the team successfully converted up to 10 cubic meters, or several bathtubs worth of fresh drinking water. This was enough for 3,000 people a day with the process continuing to run regardless of variable solar power caused by cloud coverage and rain.

[Note: Not sure what metric they're using to calculate daily water needs here. Presumably this is drinking water only.]

Dr. Wei He from the Department of Engineering at King’s College London believes the new technology could bring massive benefits to rural communities, not only increasing the supply of drinking water but also bringing health benefits.

“By offering a cheap, eco-friendly alternative that can be operated off the grid, our technology enables communities to tap into alternative water sources (such as deep aquifers or saline water) to address water scarcity and contamination in traditional water supplies,” said He.

“This technology can expand water sources available to communities beyond traditional ones and by providing water from uncontaminated saline sources, may help combat water scarcity or unexpected emergencies when conventional water supplies are disrupted, for example like the recent cholera outbreaks in Zambia.”

In the global rural population, 1.6 billion people face water scarcity, many of whom are reliant on stressed reserves of groundwater lying beneath the Earth’s surface.

However, worldwide 56% of groundwater is saline and unsuitable for consumption. This issue is particularly prevalent in India, where 60% of the land harbors undrinkable saline water. Consequently, there is a pressing need for efficient desalination methods to create fresh drinking water cheaply, and at scale.

Traditional desalination technology has relied either on costly batteries in off-grid systems or a grid system to supply the energy necessary to remove salt from the water. In developing countries’ rural areas, however, grid infrastructure can be unreliable and is largely reliant on fossil fuels...

“By removing the need for a grid system entirely and cutting reliance on battery tech by 92%, our system can provide reliable access to safe drinking water, entirely emission-free, onsite, and at a discount of roughly 22% to the people who need it compared to traditional methods,” He said.

The system also has the potential to be used outside of developing areas, particularly in agriculture where climate change is leading to unstable reserves of fresh water for irrigation.

The team plans to scale up the availability of the technology across India through collaboration with local partners. Beyond this, a team from MIT also plans to create a start-up to commercialize and fund the technology.

“While the US and UK have more stable, diversified grids than most countries, they still rely on fossil fuels. By removing fossil fuels from the equation for energy-hungry sectors like agriculture, we can help accelerate the transition to Net Zero,” He said.

-via Good News Network, April 2, 2024

Farmers are among the most vulnerable to the climate crisis, suffering from low crop yield, post-harvest losses, and depleting water reserves. At the same time, agriculture is the second-largest contributor to India’s greenhouse gas emissions, contributing 13.4% to the country’s total emissions, according to a Ministry of Environment report.

Most farmers heavily rely on fossil fuels such as diesel to run tractors, sowing and harvesting machines, electric water pumps, milking machines etc. Vimal Panjwani and his mother Shobha Chanchlani wanted to change that.

In June 2020, they launched AgriVijay in an effort to reduce farmers’ dependency on fossil fuels while increasing their incomes.

The Pune-based startup offers a marketplace for farmers to buy all renewable energy agri equipment including solar water pumps, bio-digesters and street lights—totalling 200+ products.

“AgriVijay is “empowering farmers for tomorrow” with renewable energy products in solar, biogas, and electricity,” says Panjwani, Founder & CEO.

Panjwani explains that the platform curates renewable and green energy products in a single marketplace, eliminating the need to source different functionalities from different vendors and install them externally.

April 8th, 2024 New Moon Total Solar Eclipse Manifestations:

This celestial event is in the sign of Aries, the zodiac’s symbol of release & rebirth, taking action, endings & new beginnings, resistance & revolution. This eclipse is a prime time for humanity to do the work to abolish oppression and manifest universal peace, love, compassion, joy, healing, and liberation for all.

Under the power of this eclipse, We are focusing our thoughts and actions to manifest an end to the oppressive old world during this 21st century to bring in a new world and reality of universal peace, love, compassion, joy, healing, and liberation. We are all awakening to the divinity that lives within each and every one of us, inspiring us to take action to recycle the old oppressive world and transmute its negativity into the new universally liberated world that we all long for.

During this 21st century, We will put an end to the ongoing Palestinian genocide and colonization of Palestine, as well as the Zionist regime, Christian nationalism, Christian supremacy, Christofascism, and more. All individuals, organizations, corporations, and entities that enable Palestinian (and all other) oppression will have their influence, resources, capital, and power banished from them; these enablers will also receive sufficient divine punishment for their numerous crimes.

The Collective will continue to awaken, being enlightened with divine light, wisdom, and spiritual clarity. We are all open to channeling and transmitting the loving, peaceful, and liberating energy of the divine for the highest good of all! We will no longer support any individual, organization, corporation, or entity that enables and supports any form of oppression. The Collective is screaming for Palestine, Hawai’i, Turtle Island, Aotearoa, Congo, Sudan, Somalia, Yemen, Lebanon, Turkey, India, Iran, Iraq, Australia—DURING THIS 21ST CENTURY, EVERYONE WILL BE FREE TO EXPERIENCE THE UNIVERSAL LIBERATION WE HAVE ALL WORKED FOR!

With the renewing power of this eclipse, We the Collective will abolish all forms of oppression that run rampant throughout our universe, including the colonization of Turtle Island, Aotearoa, Palestine, Australia, and other lands; slavery, violence, land theft, war, crusades, genocide, cultural erasure, ecocide, racism, sexism, queerphobia, xenophobia, capitalism, classism, ableism, poverty, mass hunger, homelessness, and more. All these forms of oppression will cease to exist in the new reality of universal liberation thanks to the perseverant efforts of the Collective.

Humanity and all other organisms that We share the earth with (with the help of our ancestors, spirit guides, deities, what have you-) will collectively do the work to manifest us all a reality of universal love, peace, compassion, joy, healing, & liberation; this reality includes ecological restoration, land back, and decolonization; liberation of all indigenous peoples, cultures, lands, and languages; abolishing all forms of religious and spiritual oppression including sexism, queerphobia, xenophobia, racism, colonization, “mission work,” compulsory spiritual conversion, genocide, and more; abolishing capitalism and all other oppressive economic systems; promoting food sovereignty, climate change mitigation, and poverty reduction through local sustainable farming and foraging, native agroecology, agroforestry, and regenerative/indigenous farming; making sure everyone has a healthy home; taking care of ourselves *and* others; ensuring the survival of rural communities; ensuring the survival of all life on our planet.

In the 21st century of this Age of Aquarius, the Collective will ultimately manifest the abolishment of all oppression and the creation of universal peace, love, compassion, joy, healing, and liberation.

And it is so.

Scientists have developed a new solar-powered system to convert saltwater into fresh drinking water which they say could help reduce dangerous the risk of waterborne diseases like cholera.

Via tests in rural communities, they showed that the process is more than 20% cheaper than traditional methods and can be deployed in rural locations around the globe.

Building on existing processes that convert saline groundwater to freshwater, the researchers from King’s College London, in collaboration with MIT and the Helmholtz Institute for Renewable Energy Systems, created a new system that produced consistent levels of water using solar power, and reported it in a paper published recently in Nature Water

It works through a process called electrodialysis which separates the salt using a set of specialized membranes that channel salt ions into a stream of brine, leaving the water fresh and drinkable. By flexibly adjusting the voltage and the rate at which salt water flowed through the system, the researchers developed a system that adjusts to variable sunshine while not compromising on the amount of fresh drinking water produced.

Using data first gathered in the village of Chelleru near Hyderabad in India, and then recreating these conditions of the village in New Mexico, the team successfully converted up to 10 cubic meters, or several bathtubs worth of fresh drinking water. This was enough for 3,000 people a day with the process continuing to run regardless of variable solar power caused by cloud coverage and rain.

Dr. Wei He from the Department of Engineering at King’s College London believes the new technology could bring massive benefits to rural communities, not only increasing the supply of drinking water but also bringing health benefits.

“By offering a cheap, eco-friendly alternative that can be operated off the grid, our technology enables communities to tap into alternative water sources (such as deep aquifers or saline water) to address water scarcity and contamination in traditional water supplies,” said He.

“This technology can expand water sources available to communities beyond traditional ones and by providing water from uncontaminated saline sources, may help combat water scarcity or unexpected emergencies when conventional water supplies are disrupted, for example like the recent cholera outbreaks in Zambia.”

In the global rural population, 1.6 billion people face water scarcity, many of whom are reliant on stressed reserves of groundwater lying beneath the Earth’s surface.

However, worldwide 56% of groundwater is saline and unsuitable for consumption. This issue is particularly prevalent in India, where 60% of the land harbors undrinkable saline water. Consequently, there is a pressing need for efficient desalination methods to create fresh drinking water cheaply, and at scale.

Traditional desalination technology has relied either on costly batteries in off-grid systems or a grid system to supply the energy necessary to remove salt from the water. In developing countries’ rural areas, however, grid infrastructure can be unreliable and is largely reliant on fossil fuels.

Creating a low-cost ‘battery-like’ desalination technology removes the reliance on battery technology for using intermittent solar energy in off-grid applications, enabling affordability to rural communities in developing countries like India.

“By removing the need for a grid system entirely and cutting reliance on battery tech by 92%, our system can provide reliable access to safe drinking water, entirely emission-free, onsite, and at a discount of roughly 22% to the people who need it compared to traditional methods,” He said.

The system also has the potential to be used outside of developing areas, particularly in agriculture where climate change is leading to unstable reserves of fresh water for irrigation.

The team plans to scale up the availability of the technology across India through collaboration with local partners. Beyond this, a team from MIT also plans to create a start-up to commercialize and fund the technology.

“While the US and UK have more stable, diversified grids than most countries, they still rely on fossil fuels. By removing fossil fuels from the equation for energy-hungry sectors like agriculture, we can help accelerate the transition to Net Zero,” He said.

“The next step for us is to apply this low-cost technology to other sectors, including wastewater treatment, and producing alkaline to make the ocean more alkaline to help it absorb more CO2 from the atmosphere. By taking this approach not only can we decarbonize agriculture, but wider environmental and climate benefits as well.”

The Effect of Global Warming in Arunachal Pradesh: A Silent Crisis

Global warming, a phenomenon characterized by rising global temperatures due to increased greenhouse gas emissions, is a pressing concern worldwide. Its impact is evident across various regions, and Arunachal Pradesh, the northeastern jewel of India, is no exception. Nestled in the lap of the Himalayas, Arunachal Pradesh is particularly vulnerable to the adverse effects of climate change, threatening its biodiversity, agriculture, and communities.

Melting Glaciers and Water Resources

Arunachal Pradesh is home to numerous glaciers that serve as vital sources of rivers like the Siang, Dibang, and Lohit. These rivers are lifelines for the state and its neighboring regions. However, global warming has accelerated the melting of glaciers, leading to erratic water flows. Increased glacial melt initially causes flooding, while the long-term effects include reduced water availability, posing risks to agriculture, hydropower projects, and drinking water supplies.

Impact on Agriculture

Agriculture is the backbone of Arunachal Pradesh's economy, with rice, maize, and millet being key crops. Rising temperatures and changing rainfall patterns have disrupted traditional farming cycles, leading to decreased crop yields. Shifting monsoon timings and extreme weather events, such as droughts and floods, make farming more challenging for the local population, many of whom rely on subsistence agriculture.

Loss of Biodiversit

Arunachal Pradesh is a biodiversity hotspot, home to rich flora and fauna, including many endemic and endangered species. Rising temperatures and habitat loss threaten ecosystems, pushing species like the red panda and snow leopard closer to extinction. Furthermore, changing climates are forcing species to migrate to higher altitudes, disrupting ecological balances and threatening traditional medicinal plants and herbs that are integral to local culture.

Increased Natural Disasters

The state is witnessing a rise in natural disasters, including landslides, flash floods, and soil erosion, exacerbated by global warming. These disasters not only endanger lives but also damage infrastructure, disrupt livelihoods, and displace communities. For instance, the frequent floods in the Siang River basin have become a growing concern for both rural and urban areas.

Cultural and Social Impacts

The indigenous tribes of Arunachal Pradesh have a deep connection with nature. Global warming threatens their traditional ways of life, which are intricately linked to the environment. Erratic weather patterns disrupt agricultural festivals and rituals, while loss of natural resources impacts their livelihoods and cultural identity.

What Can Be Done?

Addressing the effects of global warming in Arunachal Pradesh requires urgent and concerted efforts:

Sustainable Practices: Promoting eco-friendly farming techniques and afforestation projects.

Disaster Management: Enhancing early warning systems and preparedness for natural disasters.

Renewable Energy: Transitioning to renewable energy sources like solar and wind to reduce reliance on fossil fuels.

Community Involvement: Empowering local communities to participate in climate action and conservation efforts.

Research and Policy: Investing in research to study climate patterns and developing policies to mitigate risks effectively.

Global warming is not just an environmental issue; it is a human challenge that affects the livelihoods, culture, and survival of communities. For Arunachal Pradesh, the stakes are even higher due to its unique geographical and cultural heritage. By recognizing the threats posed by global warming and taking proactive measures, we can work towards preserving the natural beauty and resilience of this Himalayan state for generations to come.

Arunachal Pradesh stands as a reminder that the fight against global warming is a collective responsibility. Every action counts in safeguarding this pristine land and its people.

Top Tower Company in India: Sustainable Solutions for Telecom Needs

In the rapidly evolving world of telecommunications, infrastructure plays a pivotal role. As the demand for high-speed internet and communication services continues to grow, the need for reliable and sustainable telecom towers has never been more critical. India, a nation with a booming telecom industry, is home to some of the best telecom tower companies in India offering innovative, eco-friendly solutions to meet the industry's growing demands.

Why Choose the Best Tower Companies in India?

When selecting a telecom tower provider, it's essential to choose a company that offers more than just standard infrastructure. Top tower companies in India prioritize sustainability, ensuring that their telecom towers are energy-efficient, eco-friendly, and built with the latest technological advancements. By incorporating renewable energy sources and efficient design practices, these companies not only contribute to a greener environment but also reduce operational costs in the long run.

Sustainable Solutions for Telecom Towers

Sustainability in telecom towers is achieved through several key strategies:

Energy-Efficient Designs: Leading tower companies in India use energy-efficient designs, minimizing power consumption while maintaining optimal performance.

Renewable Energy Integration: Many top tower companies in India incorporate solar power and wind energy solutions into their towers, reducing reliance on traditional energy sources and lowering the carbon footprint.

Recyclable Materials: By using eco-friendly, recyclable materials in tower construction, these companies help reduce waste and contribute to a circular economy.

Smart Infrastructure: Leveraging cutting-edge technologies like IoT (Internet of Things), the towers become smarter, optimizing energy consumption and ensuring consistent connectivity.

Types of Towers in Telecom

Telecom tower companies offer various types of towers tailored to specific needs. The most common types of towers in telecom include:

Monopole Towers: These towers are ideal for areas with space constraints, offering a more compact design.

High Mast Towers: These towers provide high elevation, ensuring improved coverage over a large area, and are perfect for urban and rural installations.

Each type serves a unique purpose in ensuring that telecom services are accessible and reliable, no matter the geographical location.

Conclusion: The Future of Telecom Towers in India

India’s telecom sector is on the rise, and sustainability is becoming a key focus. As demand for telecom services grows, the best telecom tower companies in India are setting the standard for eco-conscious and efficient telecom infrastructure. Investing in sustainable tower solutions today ensures a greener tomorrow while meeting the telecom needs of an expanding population.

Automotive EV Charging Infrastructure Market: Trends, Growth, and Future Prospects

The automotive electric vehicle (EV) charging infrastructure market is rapidly transforming the global transportation landscape, driven by the increasing adoption of EVs and supportive government initiatives. This article explores the current trends, market growth factors, key challenges, and the future outlook of the EV charging infrastructure industry.

Market Overview

The global automotive EV charging infrastructure market has witnessed exponential growth, with more governments promoting green energy and reduced carbon footprints. The transition from internal combustion engines (ICEs) to EVs has necessitated robust charging networks to support the growing fleet of electric vehicles. The market includes public charging stations, private charging networks, and innovative solutions such as wireless charging.

Key Trends in the EV Charging Infrastructure Market

Rise of Fast Charging Stations Consumers demand quick and efficient solutions, leading to increased investments in DC fast charging stations that can charge vehicles in minutes instead of hours. Companies like Tesla, ChargePoint, and Ionity are driving innovation in this space.

Integration of Renewable Energy The market is witnessing a shift towards solar-powered charging stations and the integration of renewable energy to reduce dependency on traditional power grids.

Smart Charging and IoT Solutions Smart charging infrastructure equipped with IoT capabilities allows users to monitor, manage, and optimize charging remotely. These systems also enable load balancing, reducing stress on electricity grids.

Wireless and Bidirectional Charging The development of wireless charging pads and vehicle-to-grid (V2G) technology is gaining traction, offering convenience and additional functionalities for EV owners.

Factors Driving Market Growth

Government Support and Policies Subsidies, tax incentives, and investments in EV infrastructure are boosting market growth. Countries like the U.S., China, and Germany have set ambitious EV adoption targets, accelerating the development of charging networks.

Expansion of EV Fleet The increasing adoption of EVs among consumers and fleet operators is driving the demand for accessible and widespread charging infrastructure.

Urbanization and Smart City Projects Growing urban populations and the rise of smart cities are pushing governments to establish advanced EV charging networks as part of sustainable urban mobility plans.

Corporate Collaborations and Investments Major automotive manufacturers and tech companies are collaborating to create seamless charging experiences. For example, Volkswagen's Electrify America initiative is expanding public charging networks across the U.S.

Challenges in the EV Charging Infrastructure Market

High Initial Investment: Setting up charging stations, particularly fast chargers, requires significant capital expenditure.

Grid Stability Issues: Increasing EV adoption may strain existing power grids without upgrades and smart energy management systems.

Consumer Convenience: Limited charging availability in rural areas and interoperability issues between different charging networks remain barriers.

Future Outlook

The global EV charging infrastructure market is projected to grow at a compound annual growth rate (CAGR) of over 20% in the coming years, driven by technological advancements, government mandates, and increasing consumer acceptance of EVs. The Asia-Pacific region is expected to lead the market, with significant contributions from China, India, and Japan. Meanwhile, Europe and North America continue to invest heavily in building robust networks to support their ambitious electrification goals.

Buy the Full Report for More Insights into the Automotive EV Charging Infrastructure Market Forecast, Download a Free Report Sample

Challenges and Growth Opportunities in India's Solar Energy Technology Market

As the world’s third-largest energy consumer, India plays a pivotal role in the global energy transition towards sustainability. With the increasing urgency to combat climate change and address resource shortages, India must accelerate its shift away from fossil fuels to cleaner energy solutions.

Solar energy technology, one of the most promising renewable resources, is central to India’s efforts to reduce carbon emissions and close the energy supply gap, particularly in remote and underserved regions.

In this article, we explore the main challenges hindering the widespread adoption of solar energy technology, the significant opportunities that lie ahead—including innovations like floating solar panels power plants—and how India can lead the global sustainable energy revolution.

Challenges in Solar Energy Technology

While solar energy presents enormous potential for a sustainable future, several obstacles limit its widespread deployment. These challenges include:

Research and Development (R&D) and Manufacturing ChallengesThe growth of solar technology is constrained by limited R&D, outdated development facilities, and insufficient manufacturing infrastructure. As a result, India continues to rely heavily on solar imports from countries like China and Germany, driving up costs and slowing the scale-up of domestic production.

High Initial Investment and Long Payback PeriodsSolar systems typically require significant upfront investment, with long payback periods, which can deter individuals and organizations from making the transition. This financial burden often diverts resources away from other essential energy sectors, making solar adoption seem less attractive to many.

Lack of Public AwarenessA major barrier to the adoption of solar technology is the general public’s lack of understanding, particularly in rural areas. To overcome this, there is an urgent need for educational campaigns to raise awareness about the benefits, accessibility, and potential of solar energy.

Administrative and Regulatory BarriersSetting up solar power plants often faces delays due to administrative issues, including land acquisition, regulatory approvals, and material supply constraints. Establishing dedicated bodies or agencies to streamline the approval and implementation process could help overcome these hurdles.

Limited Support and Warranty ConcernsMany consumers are concerned about limited post-installation support and warranties offered by solar companies. Providing comprehensive support and longer warranty periods would build trust and encourage more widespread adoption of solar solutions.

Opportunities in Solar Energy Technology

Despite the challenges, India’s energy landscape offers significant opportunities to harness solar power. With about 300 sunny days annually, India is uniquely positioned to take full advantage of its solar potential. In fact, the solar energy incidence on India’s land area is estimated to be five quadrillion kilowatt-hours per year—far more than the country's total fossil fuel reserves.

The following opportunities are key to accelerating solar energy adoption:

Policy Support for Domestic ManufacturingGovernment initiatives, such as the Production Linked Incentive (PLI) scheme, are designed to boost domestic solar panel manufacturing, helping reduce reliance on imports and supporting local industry growth.

Cost Reduction and Market CompetitivenessThe cost of solar equipment has significantly decreased over the past few years, and policies that promote competitive bidding and market-driven tariffs are making solar energy more affordable. This reduction in costs will continue to drive the widespread adoption of solar technologies across various sectors.

Off-Grid and Rooftop Solar SolutionsPolicies that support off-grid and rooftop solar installations can help decentralize energy generation, making it easier to address energy access challenges in rural and remote areas where grid connections are limited or non-existent.

Technological InnovationContinued investment in research and development will lead to more innovative solar technologies. Innovations like floating solar power plants, which use water bodies to install solar panels, are paving the way for higher efficiency and cost-effectiveness, creating new opportunities for solar energy generation.

The Way Forward

India faces many challenges, including increasing energy demand, limited resources, and distribution issues in rural areas. However, the shift toward solar energy is well underway. As the fifth-largest country in the world for solar power deployment, India has tremendous potential to scale up solar energy technologies and meet its growing energy needs.

Emerging opportunities, such as floating solar power plant and rooftop solar installations, offer solutions to some of the country's most pressing energy issues. These technologies, along with supportive policies, can help India meet its renewable energy targets and supply the nation’s energy requirements sustainably.

At Huse Live, we are committed to advancing the use of floating solar technology, offering cost-effective, sustainable solutions that help reduce the environmental impact of fossil fuels. As one of India’s leading floating solar companies in India, we are dedicated to driving the clean energy transition and supporting India’s journey towards a greener future.

Reduce your carbon footprint today by adopting floating solar power plant technology. Contact us to learn more about how we can help you make the transition to renewable energy.

Title:

The Feasibility of Advanced Drainage Filter, With Waste Segregation Machine, Automated Sorting System

I.Introduction

In recent years, urbanization and industrial development in Iloilo City have led to a significant rise in waste generation, and waste water particularly in drainage systems, causing blockages, wasted energy resource, environmental pollution, and public health hazards. Drainage are elements in inlets or catch basins, drainage pipes, back flow prevented valves. However systems pollute water bodies by transporting untreated runoff with chemicals and debris, reduce groundwater recharge, cause erosion, and overflow during heavy rains, leading to floods. They frequently clog with waste, are costly to maintain, and disrupt natural habitats.To address this, an innovative solution is proposed: an advanced drainage filter integrated with an automated waste segregation machine.

II.Statement of the Problem

This study aims to determine if the advanced drainage filter with waste segregation machine, automated sorting system as a drainage cleaner, to test by observing the filters and the segregation machine, to determine the qualities of the advanced drainage filter with waste segregation machine, automated sorting system.

III.Literature Review

According to Parvez Hayat (2023), urban solid waste is a significant issue in developing countries, with rural areas generating less waste. There are four types of waste in urban areas: household waste, biomedical/hospital waste, e-waste, and construction & demolition waste. Developing countries have not prepared an inventory of urban solid waste, and technology can help identify hotspots and track waste movement. The government should develop a standardized policy for disposing of household, e-waste, and medical waste, and establish a central ministry on solid waste management. This will help address the challenges of urban solid waste management in India.

A similar study conducted by Janusz Niemczynowicz (1994), A very basic problem of open material flows resulting in accumulation of pollution is not adequately addressed in present societies. Develope countries with expensive water-related infranstructure still contribute to local and global pollution. Developing countries to a great extent lack water treatment facilities and environmentally sound water management. Large scale end-of-pipe waste water treatment is one of the spectacular examples of technologies that must change in order to provide a sustainable solution.

According to Rowe, R.K and Van Gulck, J.F (2004) This paper discusses the long-term performance of filter and drainage materials in leachate collection systems and agriculutural drains. It reveals that clogging rate is influenced by factors like leachate strength, grain size, and granular drainage material. It also discusses estimating clog development and service life. However, it concludes that no predictive method exists for assessing clog formation or drain service life.

Additional study done by Sukkharak Saechia, Chalor Watronnachai, Taweesin treeyos 2023, 8th International STEM Education Conference (iSTEM-Ed), 11-4 2023, The research focuses on developing and evaluating an automatic solid waste collection prototype using solar energy to reduce river debris. The prototype filters solid waste from drainage pipes and transfers it to containers. Two types of control systems, automatic and manual, are proposed, each designed to use renewable energy stored in batteries. The experimental results show both systems function effectively, with manula controls operating anytime and automatic control maintaining heat while using line application for 100% accuracy.

Lastly, According to Serhii Klimov, Oleg Pinchuk, Serhii Kunytskiy, Anastasiia Klimova Journal of Water and Land Development, 90-95, 2019, it is crucial to limit alterations in areas adjacent to human economic activities. One effective method for achieving this is through the use of drainage-screened modules, which act as anti-filtration screens to redistribute the influence of nearby drainage systems. This approach helps to regulate the impact of drainage on human activities (like tailing dumps and populated areas) while minimizing the lowering of groundwater levels in surrounding territories. Implementing these modules in tailing farms enhances the stability of dikes and ensures the efficient removal of intercepted groundwater. The design allows water filtered through the dike structure to be collected by a drain, while excess filtration flow is blocked by the anti-filtration screen, thereby improving the overall filtration stability.

IV.Materials and Methods

The study will be conducted at Lopez St, Jaro, Iloilo City specifically at the Colegio de San Jose. And we will conduct our research study after the approval of the research proposal.

Materials Quantity Uses

Gauze screen 1pc Used to strain liquids and filter out small particles in drainages.

Stainless steel 3pc Use to supports the nets.

Mesh filter screen 2pc Filter dusts and small rocks.

Hepa screen 1pc iFlter out microscopic particles, such as dust, allergens, and pollutants, from the air.

Solar panels 5pcs Convert sunlight into electricity

Carbon Activated Filter

1pc Use to make water clear from contaminated water.

Grate inlet (garbage collector)

1pc Control the amount of sediment by trapping at the filters.

Ultra violet rays 2pc Killing bacteria in the filtered water.

V. Procedure

Using a stainless steel mesh filter gauze screen is integral to water filtration and treatment systems. This multi-step process begins with the mesh screen, which strains large particles and debris from raw water, followed by a carbon-activated filter that removes dissolved contaminants, enhancing taste and odor. A grate inlet filter acts as a garbage collector, capturing larger solids to protect downstream systems. Finally, ultraviolet (UV) treatment disinfects the water by inactivating pathogens. This systematic approach ensures high-quality, safe drinking water, with ongoing research aimed at enhancing the effectiveness and efficiency of these filtration methods.

The contaminated water accompanied by material wastes will infiltrate into the domain of the filtration system. Ahead of the pipes locates a detector connected to a metallic separator with a length of 24 inches in width and a stainless metal barrier with a height of 3 inches to prevent the uncleaned solvent from entering the zone for garbage. As the object reaches the censor, the separator begins to lift at a speed of 0.08 milliseconds allowing the domestic refuse to enter and close after garbage collection. As the water streams further ahead, the first filtration for the polluted solvent will be the mesh screen. The screen will block the debris allowing the water to be 25% out of 100 filtered. The residue strained by the stainless-steel gauze screen will be pushed to the side with the use of a a machine that pushes the debris to the edge every 10 minutes. Once the first process concludes, the water will continue to flow and enter another sector of the filtration process. The next procedure activates the UV(Ultra-violet): To cleanse the solvent by eliminating the harmful microorganisms resulting in the water being reusable once more as non-potable water.

VI. Research Design

The experimental research was selected as the methodology to provide responses to the inquiries associated to the analysis. The research aims to innovate the drainage to an advanced drainage filter with waste segregation machine built with automated sorting system, to innovate the water filtration process without the consumption of electricity and be as eco-friendly as possible.

Contact Information:

The proponent can be reached on the following:

Email: [email protected]

Facebook: Gylle Cataluña

Contact: 950 444 3920

Investment Potential of the Real Estate Sector in India

The real estate sector in India plays a pivotal role in driving the country’s economic growth. As one of the largest contributors to India’s GDP, this sector has witnessed remarkable transformations fueled by urbanization, evolving consumer preferences, and technological advancements. Let's dive deeper into the various aspects of this thriving industry.

Current Market Landscape

Key Drivers of Growth

Urbanization has been a cornerstone of real estate development in India. With millions moving to cities each year, the demand for housing, office spaces, and retail establishments continues to rise. Government initiatives, like the Pradhan Mantri Awas Yojana (PMAY) and Smart Cities Mission, have further bolstered growth, making housing more accessible and promoting infrastructural advancements.

Major Cities Driving the Market

Cities like Mumbai, Delhi, Bangalore, and Hyderabad remain hotspots for real estate activities. These urban centers attract investments due to their robust infrastructure, thriving IT sectors, and high living standards.

Real Estate Segments

Residential Real Estate

Residential spaces dominate the market, catering to diverse needs from affordable housing to luxury apartments. While urban areas witness skyrocketing demand, rural areas are also seeing growth due to improved connectivity and government schemes.

Commercial Real Estate

The commercial segment is booming with the expansion of coworking spaces, IT parks, and business hubs. Companies are increasingly seeking flexible and modern office solutions to meet their workforce’s needs.

Industrial Real Estate

This segment is gaining traction with the rise of e-commerce and logistics. Warehousing facilities near major cities and ports are experiencing unprecedented demand.

Retail Real Estate

The rise of organized retail and e-commerce integration has reshaped retail spaces. Shopping malls and high-street markets are adapting to new consumer behaviors.

Government Initiatives and Policies

Real Estate (Regulation and Development) Act (RERA)

RERA has been a game-changer, bringing transparency and accountability to the sector. It protects buyers and ensures timely project deliveries.

Digital India and Smart Cities Mission

These programs are seamlessly integrating technology into real estate development, creating smarter and more efficient urban spaces.

Investment Opportunities

Foreign Direct Investment (FDI)

India’s relaxed FDI norms have made real estate an attractive destination for global investors.

REITs in India

Real Estate Investment Trusts (REITs) are gaining traction, allowing individuals to invest in income-generating properties without directly owning them.

Future Trends

Technology Integration

Proptech innovations, such as AI-driven property management and virtual property tours, are revolutionizing the sector.

Rise of Green and Sustainable Buildings

The adoption of environmentally friendly practices, such as solar-powered homes and energy-efficient materials, is on the rise.

Fractional Ownership

This trend allows multiple investors to own shares in a property, making real estate investment more accessible.

Conclusion

Real estate sector in India is a cornerstone of its economic progress, offering a blend of challenges and opportunities. As the industry embraces sustainable practices and innovative technologies, it promises to reshape urban living and investment landscapes.

India's No. 1 Residential Solar Panel Company.

The solar energy sector holds immense potential to power homes with free, renewable electricity while driving sustainability in the energy market. However, the development of the necessary infrastructure is critical to ensure the availability of top-quality residential solar panels and related products to meet the growing market demand. To assist you in selecting the right solution, we have compiled a list of the top residential solar panel companies in India offering high-quality solar panels and services.

India is fast emerging as a manufacturing hub, attracting companies worldwide to establish operations here. Leading residential solar panel manufacturers in India are gearing up to meet the exponentially increasing demand for clean and sustainable energy.

In recent years, solar energy has revolutionised India’s energy landscape. Decentralised solar applications, especially in rural areas, have transformed the way households meet their electricity and cooking needs.

High-quality residential solar panels manufactured by India’s top companies are providing reliable solutions to power essential home appliances and support environmentally friendly cooking practices.

This Blog is already published at :- Best Residential Solar Panel Company In India

Modern Industrial Growth in Haryana

1. Strategic Location

Proximity to Delhi and excellent connectivity make Haryana, especially cities like Gurugram and Faridabad, ideal for industries.

2. Automobile Manufacturing Hub

Haryana is a major center for the automobile industry, with companies like Maruti Suzuki and Hero MotoCorp driving economic growth and employment.

3. IT and Service Sector

Gurugram is a leading IT and BPO hub, hosting multinational corporations and a vibrant tech startup scene, creating substantial white-collar jobs.

4. Industrial Clusters and SEZs

Special Economic Zones and industrial clusters like the KMP Expressway and IMT Manesar attract significant investments with world-class infrastructure and incentives.

5. Agro-Based Industries

Haryana leverages its agricultural resources for food processing, dairy, and agro-industries, boosting the rural economy and creating jobs.

6. Renewable Energy Initiatives

Haryana promotes solar and renewable energy, attracting green industries and supporting sustainable industrial growth.

7. Challenges and Future Prospects

Infrastructure stress, environmental concerns, and workforce upskilling are key challenges, but government initiatives in these areas show a strong future outlook.

Conclusion

Haryana’s industrial growth—from automobiles to IT and renewable energy—has transformed it into an economic powerhouse. With a focus on sustainable practices and infrastructure upgrades, Haryana continues to be a leader in modern industrial development in India.

Top Trends Shaping the Microgrid Market: Renewable Energy & Technology

The global microgrid market was valued at USD 76.88 billion in 2023 and is expected to experience a robust growth rate with a compound annual growth rate (CAGR) of 17.1% from 2024 to 2030. This growth is primarily driven by the rising demand for power in developing countries such as Mexico, China, India, and Russia, spurred by the expansion of both household and industrial sectors. As these nations continue to urbanize and industrialize, the demand for reliable, efficient, and decentralized energy solutions is increasing.

Market Drivers

A microgrid is a localized energy system capable of providing power either in parallel with or independent from the central electric grid. One of the key factors propelling the growth of the microgrid market is the shift from centralized power plants to more distributed and localized energy generation systems. This shift enhances energy reliability, resilience, and overall efficiency, especially in cities, communities, and campuses that require a more dependable power source. The ability to operate autonomously (in "island mode") or in conjunction with the larger grid makes microgrids a flexible solution to various energy challenges.

Microgrids are particularly useful in improving the resiliency and stability of regional electric grids by providing localized electrical distribution services. These systems are increasingly deployed to address the vulnerabilities of traditional grids, such as outages caused by natural disasters, cyberattacks, or system failures. Additionally, microgrids are becoming integral to the energy infrastructure in areas prone to grid instability or where it is difficult to extend the central grid to remote or isolated regions.

Another significant factor driving the market is the growing use of renewable energy resources. The demand for solar, wind, and hydrogen power is escalating, and microgrids offer an ideal platform for integrating these alternative energy sources. By enabling localized renewable energy generation, microgrids help reduce dependence on conventional fossil fuels and improve sustainability. The increasing interest in captured power generation within sectors such as manufacturing, where industries seek to lower reliance on regional grids, is further enhancing the demand for microgrids.

Gather more insights about the market drivers, restrains and growth of the Microgrid Market

Product Segmentation Insights

The grid-connected product segment dominated the global microgrid market, accounting for more than 65.0% of the overall market share in 2023. This segment's dominance is attributed to the rising popularity of smart microgrid-connected systems, particularly those integrating solar photovoltaic (PV) systems. These systems allow for local electricity generation, which helps minimize transmission losses that typically occur with long-distance electricity transportation from central power plants.

The integration of solar PV systems with other power sources, such as wind turbines, diesel gensets, and energy storage systems, has led to the development of hybrid microgrid solutions. This hybrid approach has proven to be highly effective in various regions, such as Hawaii, Alaska, the Bahamas, and even Antarctica, where geographically isolated areas or challenging environmental conditions necessitate resilient and self-sufficient power solutions.

Grid-connected microgrids are also gaining traction in both urban and rural areas where access to the main grid is either limited or nonexistent. These systems enable communities to have reliable, local power generation, which is especially crucial for remote locations where extending traditional grid infrastructure is not feasible or cost-effective. Furthermore, the increased adoption of distributed energy resources (DERs), such as solar panels and energy storage systems, is accelerating the popularity of grid-connected microgrids. These DERs, coupled with advancements in smart grid technologies, allow microgrids to be more efficient, cost-effective, and environmentally friendly.

As communities become more conscious of their carbon footprint and seek to achieve greater energy independence, microgrids offer a promising solution. The ability of microgrids to integrate renewable energy sources, coupled with energy storage and smart management systems, enhances both environmental sustainability and energy security. As a result, microgrids are increasingly being viewed as a key enabler in the transition to a more decentralized and resilient energy system.

Additionally, defense microgrids are gaining prominence, especially as defense agencies seek to reduce their reliance on traditional fuel sources. The ability of microgrids to operate autonomously in remote locations, combined with their capacity to integrate various energy generation sources, makes them ideal for military operations. These microgrids provide the flexibility and energy security needed for critical defense infrastructure in remote or hostile environments.

Remote Microgrids and Developing Countries

In developing countries, remote microgrids are playing a crucial role in expanding access to electricity. In regions where central grid infrastructure is either unavailable or unreliable, microgrids are proving to be an efficient and cost-effective way to provide power to isolated communities. These systems, often powered by solar or wind energy, are particularly beneficial in rural or off-grid areas, where the cost of extending the traditional grid would be prohibitively high. By offering reliable electricity generation, microgrids enable economic growth, improve quality of life, and help reduce energy poverty.

The potential for microgrids to support energy access in remote locations is expected to grow as both technology advancements and policy support continue to increase. The push for sustainable development and universal energy access, particularly under initiatives like the UN Sustainable Development Goals (SDGs), is driving the implementation of microgrid solutions in underserved areas around the world.

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BEST RESORT IN JIM CORBETT

If you are planning a weekend vacation to take a break from your busy schedule, Jim Corbett is one of the best places to visit in Uttarakhand with your family for a picnic. This renowned public park is at Ramnagar town in Uttarakhand’s Nainital Area. With the reference of the name of Jim Corbett, the one picture that comes immediately to our brain is of Royal Bengal tigers, which are topmost attractions among other creature and bird species.

Jim corbett is not confined to Royal  wildlife but also includes the striking features like waterfall, springs, scenery, waterfall and other attractions too. It is home to various species of  flora and fauna .

Top 10 Surreal Experience In Jim Corbett National Park

Corbett Museum

If you  are keen seeker of paintings & colors, then you have to pay visit to Corbett Museum, known to be the home of man-eater hunter turned conservationist  in Jim Corbett. It is located in Kaladhungi, in Uttarakhand, this museum is actually a heritage place, where one can explore his personal belongings, including articles penned by him. 

Wildlife Art Gallery

Wildlife Art Gallery is exciting space for art & nature admirer . You got chance to have look on the beautiful pictures taken by renowned wildlife photographer  

 Mrs. Deep Rajwar. It is worth visiting with your art-lover partners. You can shop for mementos as a token of visit.

Kyari Camp

You may experience a typical rural life without power at this unique camping spot. But kerosene and solar lights are available at night to light the entire space. Numerous outdoor pursuits, such as hiking routes, planting vegetables on farms, rappelling waterfalls, swimming in river pools, and even rock climbing, are available in the morning.

Bijrani Forest

Bijrani forest is striking  place,  with attractions like dense forests, wildlife, & grasslands. It is the dry zone with diverse vegetation. It served as hunting ground for East India Company. Here, one can experience  elephant safari too. If you are planning trip to Corbett, you must try the ASIA’s first Cave Theme Resort , Bellmont Caves (formerly known as BRYS CAVES) . They provides you the taste of luxury stays and best prices to safari with great experience and wildlife encounters.

Garjiya Devi Temple

Garjiya Devi Temple is dedicated to the goddess Garjiya. This temple is settled on a big rock near the Kosi River. The span to pray and visit temple is during Kartik Purnima. 

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Sitabani Temple

As  name of this temple suggest it is  dedicated to Devi Sita from Ramayana. According to a mythology ,during Devi Sati’s Agnipariksha, she spent her days at this place. Tourist can visit and embibe the energy of greatest god Lord Rama and Devi Sati. READ MORE...

Address Jim Corbett National Park, Bhakrakot, Ramnagar, Uttarakhand 244715

ph no. – 9953226390