Tag: rainwater harvesting company

Is “NeeRain” the Answer to Global Water Scarcity? Unveiling Amit Doshi’s Vision

Posted on

In the heart of Kalol, Gujarat, where water scarcity casts a long shadow over daily life, one man’s journey embodies the spirit of innovation, determination, and environmental stewardship. Meet Mr. Amit Doshi, the visionary founder of NeeRain, a trailblazer in the realm of rainwater harvesting. His entrepreneurial voyage is not merely a story of success but a testament to the transformative power of dedication, ingenuity, and a deep-seated commitment to addressing pressing global challenges.

Amit’s narrative begins in Kalol, a town grappling with the relentless burden of water scarcity. Despite the adversities, he pursued his education with fervor, culminating in a Diploma in Plastic Engineering. These formative years instilled in him a profound understanding of the challenges faced by communities battling water shortages—a comprehension that would later fuel his entrepreneurial aspirations.

A pivotal moment came when Amit joined Sintex Industries Limited, marking the beginning of a remarkable 17-year journey. Rising through the ranks, he navigated diverse roles, from Production Supervisor to National Head for Environmental Enterprise. His tenure at Sintex honed his expertise in waste management, laying the groundwork for his future endeavors. However, Amit harbored a burning desire to chart a new path—one that would transcend the confines of traditional waste management and delve deeper into the realm of environmental sustainability.

In 2014, Amit took the leap of faith, bidding farewell to Sintex Industries to embark on his entrepreneurial odyssey. His mission was clear: to tackle water-related challenges head-on while revolutionizing the landscape of rainwater harvesting. Thus, NeeRain was born—a testament to his unwavering commitment to environmental stewardship.

At the core of NeeRain’s ethos lies a profound dedication to simplicity, accessibility, and effectiveness. Amit envisioned a solution that would democratize rainwater harvesting, making it accessible to all. The result? A groundbreaking innovation: rooftop rainwater filters designed to capture, purify, and store rainwater with unparalleled efficiency. Made from ABS plastic, these filters boast a dual-stage filtration process, ensuring the purity of collected water. What sets NeeRain apart is its affordability, ease of installation, and low maintenance—a stark departure from traditional methods plagued by complexity and high costs.

The inspiration behind the name “NeeRain” is as poetic as it is profound. Rooted in Sanskrit, “नीर” (Neer) translates to water, symbolizing the essence of life itself. Paired with “Rain,” the name embodies the company’s mission to harness the life-giving power of rainwater for the greater good—a mission encapsulated by the mantra Amit lives by: “Contribute more, expect less.”

NeeRain’s journey has been marked by remarkable milestones, including prestigious awards and recognition for its contributions and innovative products:

  • Won CII’s National Award for Excellence in Water Management 2022 in the innovative water-saving product category.
  • Featured in the first episode of the series “ChangeMakers by Doordarshan.
  • Signed an MOU with the WASH Innovation Hub, Government of Telangana, for upcoming rainwater harvesting projects.
  • Engaged by the Ministry of Housing and Urban Development for projects at Ahmedabad Municipal Corporation worth Rs. 20 Lakhs.
  • Mentioned in the coffee table book of CII.
  • Attained global recognition by The Better India.
  • Article published by Partho Burman.
  • Awarded the Water Leadership Award by The Economic Times Group.
  • Acknowledged as an Emerging Startup in water conservation by the Entrepreneurship Development Institution of India.

Photo Courtesy : CEO VINE

In its initial stages, NeeRain received a significant CSR grant of Rs. 10.81 lakhs from HDFC Bank through Cradle, EDII, which served as a catalyst for the company’s growth. Today, NeeRain’s revenue is poised to reach approximately Rs. 2 crore, a testament to its burgeoning success and impact in the field of water management.

  • Yet, for Amit, success transcends mere accolades and revenue figures. It is rooted in a profound sense of purpose—a commitment to empowering individuals, communities, and the planet. In his spare time, Amit channels his passion for empowerment through motivational videosaimed at inspiring the next generation of changemakers.
  • Aspiring entrepreneurs seeking to follow in Amit’s footsteps are met with sage advice: identify real problems, devise affordable solutions, and embrace simplicity and scalability. The journey may be fraught with challenges, but with perseverance and innovation, transformative change is within reach.
  • In the annals of entrepreneurship, Amit Doshi’s story stands as a testament to the indomitable spirit of human ingenuity—a beacon of hope in an ever-changing world. Through NeeRain, he has not only revolutionized rainwater harvesting but also ignited a movement—one that empowers individuals to shape a more sustainable future for generations to come.

NeeRain is proud to republish this blog to spread awareness about the situation of water, for our stakeholders. Credit whatsoever goes to the Author.

This blog is published by:

CEO VINE

We would like to spread this for the benefit of fellow Indians.

Author : Rosalin

Published On : 1 March, 2024

 

A world without water: Scary future lies ahead

Posted on

We are living in water-stressed times; there are water-haves and a rising tide of water have-nots.

Photo Courtesy : Deccan Chronicle

In his 2015 sci-fi thriller, The Water Knife, set in Phoenix, Arizona, sometimein the near, dystopian future, novelist Paolo aacigalupi talks about placesthat are catastrophically water-starved, where suburbs have morphed intoghost towns and where people are fleeing drought. A riveting character in the book called Angel is a “water knife”, tasked to infiltrate and sabotage the water supplies of competing states.

I read excerpts of the book. It is racy, graphic, and terrifying, and not in the realm of the implausible anymore. We are living in water-stressed times; there are water-haves and a rising tide of water have-nots. A friend who lives in Gurgaon recently tweeted that in upscale condominiums in his city, there is free, unmetered, unlimited water for residents and one can actually leave a tap running and go off for a week with no charge and minimal consequences.

Meanwhile, the residents of Chennai, India’s sixth largest city, are livingthrough horrific times, though it rained a little earlier this week. Chennai has basically almost run out of water. The city is almost entirely dependent on the northeast monsoon, which starts in October. Last year, it received very little rainfall. Even thousands of kilometers away from Chennai, it is hard to insulate oneself against its troubles. All the four reservoirs that supply Chennai its water are running dry this summer because of scant rainfall in 2018.

Chennai’s water crisis is front-page news; friends’ Facebook posts describe in grim detail what is it is like to go without enough water day after day. There are images and video clips of long queues of people around water tankers in searing heat; there have been reports of scuffles over water. Many of Chennai’s hotels are rationing water for guests, and some private companies have reportedly asked their staff to work from home.

This week, the state government has announced that a train will bring water to Chennai from Jolarpettai in Vellore district, more than 200 km, away at a huge cost. The Opposition DMK leadership is against the idea. In short, more troubles lie ahead.

Chennai makes the headlines because it is a metropolitan city. But it is by no means the only place suffering acute water stress. Nearly half the country is grappling with drought-like conditions, and this has been particularly bad this year in western and southern India because of the below-average rainfall.

The question that interests me most about Chennai is how did it get to this sorry state? Tamil Nadu was perhaps the first state in India to make rainwater harvesting (RWH) mandatory for all buildings in 2003. Chennai has more than eight lakh RWH structures. So why are so many people in that city facing such an acute water shortage?

There hangs a tale which explains just about every mess that you see in nurban India. A building with a rainwater harvesting system on paper does not mean it actually works. A bit like the existence of a toilet does not mean it is used.

It will not work if it is not maintained properly. Friends in Chennai tell me there is huge apathy among a lot of people towards maintaining these structures. The water crisis had never been this acute. Many of the rainwater harvesting structures in Chennai are also inefficient.

If Chennai and so many other cities are facing a water crisis today, one bigreason is that neither policymakers nor many people living in these places truly realise the horrors of running out of water. If it starts raining anytime soon, people will forget their recent sufferings. That’s why the inefficiencies in the water sector remain, and rainwater storage and reuse and treatment of greywater are not given the importance that they deserve.

Here is one scandalous statistic about water losses. Lack of proper maintenance of infrastructure causes losses of almost 40 per cent of piped water in urban India.

Photo Courtesy : Quizlet

Chennai is currently in the news, but the big picture regarding water in India is grim. The Niti Aayog, the government’s think tank, acknowledges that nearly 600 million people in the country face high-to extreme water stress. There is a deepening national groundwater crisis, with 54 per cent of wells declining in level due to unsustainable withdrawals for irrigation.

The Narendra Modi government’s new Jal Shakti (water) ministry has announced a grand plan to provide piped water connections to every household in India by 2024. But the key question remains — what will happen if there is no water to give?

What will it take to realise that time is running out and we have to also wake up to simple ideas about conserving water. India captures only eight per cent of its annual rainfall. This is among the lowest in the world. Our ancestors used to capture far more. But those traditional methods have been neglected to the point where most are in ruins. We also don’t use our wastewater well.

There is much talk about security. It is time to realise that water is a security issue. Millions of Indians are not water-secure. Fights are breaking out over water. In Madhya Pradesh, the state government has reportedly asked the police in all its 52 districts to guard water sources. An existential threat hovers over many prosperous pockets of India. A drought is a huge part of the problem. The situation is getting steadily worse with unregulated extraction of groundwater, which is depleting underground aquifers. Take Bengaluru. Whoever has money drills a borewell to tap groundwater in the newer suburban areas where tech companies are clustered in the city.

A few years ago, I remember meeting a young hip technocrat who told me that “l fear the day when I will have soap all over my face and there is not a drop of water coming out of the tap”.

But I also saw a fascinating initiative called the Participatory Aquifer Mapping Project, which sought to involve Bengaluru’s residents in sharing information about borewells in their communities so that the city’s policymakers could learn what was happening underground and begin to craft a suitable response.

Today, in this country, demand for water vastly outstrips supply; the situation can deteriorate sharply unless we realise that this is an emergency and we must treat water as a precious resource and everyone must work towards conserving it.

The future could well resemble dystopian fiction.

NeeRain is proud to republish this blog to spread awareness about the situation of water, for our stakeholders. Credit whatsoever goes to the Author.

This blog is published by:

Deccan Chronicle

We would like to spread this for the benefit of fellow Indians.

Author : Patralekha Chatterjee

Published On: 28, June, 2019

Recharge Before Groundwater Depletes

Posted on

Photo Courtesy : The Interview World

NeeRain, an innovation-oriented startup, tackles the groundwater crisis through the use of local, decentralized rooftop rainwater filters. These filters empower individuals to lead water-secure lives. Furthermore, the startup holds patents for a range of rooftop rainwater filters that are both easy to use and cost-effective. Their goal is to harvest rooftop rainwater in every habitat.

Through extensive research, NeeRain’s team has achieved a technological breakthrough in rooftop rainwater filters. This advancement is bringing joy to millions of people worldwide by providing a sustainable solution to water scarcity.

As a young startup, NeeRain focuses on the cause of rooftop rainwater harvesting. They believe that the populace receives rooftop rainwater freely. However, much of it goes to waste. On this concept, NeeRain offers patented technologies to capture every drop of rainwater, allowing it in daily activities or diverting to recharge groundwater sources.

In an exclusive interaction with The Interview World, Naishal Shah, Co-founder and CEO of NeeRain Pvt. Ltd., emphasizes the startup’s mission to combat groundwater depletion. The company aims to achieve this by offering an affordable system to capture and redirect rainwater to aquifers. Here are key excerpts from his insightful interaction.

Q: What features does your rainwater harvesting system incorporate, and how does it contribute to the overall groundwater sustainability?

A: Rainwater is freely available during monsoon. However, the water we receive goes down to drains. Here, we provide a technology that enables people efficiently filter the rainwater and direct it towards the borewell or tank, eventually recharging groundwater. Our advanced technology employs a two-stage water filtration system. Once filtered, all the water can either enter the borewell or the tank. Remarkably, a 1000-square-foot roof can yield approximately 50,000 to 60,000 litres of water in just one rainy season in places like Delhi and Ahmedabad.

If we shift our focus to regions like Kerala or Mumbai, a 1000-square-foot roof has the potential to provide an impressive 2-3 lakh litres of water in a single rainy season. Currently, a significant portion of this water is either wasted, blocked, or eventually drains into rivers and seas. By implementing a simple filtration process, we can redirect this water directly into the borewell and tank, storing valuable rainwater. Furthermore, channeling rainwater through the borewell contributes to an increase in groundwater levels.

The water filtered through our system is exceptionally clean, and its introduction into the groundwater does not lead to deterioration. Notably, rainwater captured directly does not exhibit hardness or Total Dissolved Solids (TDS). Considering the alarming rise in groundwater depletion, directing rainwater to the groundwater directly presents a practical solution to elevate groundwater levels and address this urgent concern.

Q: What is the cost estimate for implementing a rainwater harvesting unit suitable for a 1000 sq. feet rooftop area?

A: The cost for our rainwater harvesting unit is Rs. 2950. One can complete any additional small and heavy plumbing work within a budget of Rs. 10,000. Our system boasts a lifespan of 10 years, and the maintenance is hassle-free with a simple filter removal and washing process, eliminating any recurring costs. You can easily manage this routine maintenance by hiring your local plumber, as no special technical skills are necessary for setting up our rainwater harvesting unit.

Having filed for a patent in 2018, we successfully obtained approval in 2020. To date, we have already installed over 10,000 units, actively promoting the importance of rainwater harvesting and groundwater recharge. We remain committed to spreading this message, encouraging more people to take an interest in sustainable water management. Remarkably, we have received zero complaints about the performance of our products.

Q: Can you provide supporting data or evidence to substantiate the claim that 30 crore liters of water have been saved over the course of the last 2 years?

A: Certainly, all the data is at our disposal, categorized by states and cities based on the deployment of rainwater harvesting units. For instance, in Delhi alone, where we’ve implemented these units, capturing 500 mm of rainfall during a season can result in saving a substantial 50,000 litres of water. We’ve meticulously collected data from households in Delhi, supporting our assertion with accurate figures.

As a result, the harvested rainwater ensures that clean water percolates into the ground, safeguarding water quality and preventing contamination in the process. This approach aligns with our commitment to sustainable water management.

Q: What underlying technology powers your system?

A: Our system operates based on gravity, eliminating the need for electric power or any additional mechanical devices. The system incorporates two-stage filters: a 400-micron net for the initial stage and a 200-micron net for the second stage. In the first stage, larger particulates are filtered, followed by the filtration of smaller particulates in the second stage. This sequential process ensures that the water entering the ground is thoroughly purified. As a result, your water resource remains untainted, and rainwater is effectively conserved.

Photo Courtesy : The Interview World

Neerain is proud to republish this blog for spreading awareness about situation of water, for our stake holders. Credit whatsoever goes to the Author.

This blog is published by:

The Interview World

We would like to spread this for the benefit of fellow Indians.

Publish On: 23, January, 2024

Water Crisis In Pune : No Permission To New Building In PMRDA Without Assessment : Saurabh Rao

Posted on

Photo Courtesy : Pune Pulse

Second meeting called by the Divisional Commissioner of Pune Saurabh Rao regarding the water crisis in PMC and PCMC was held today. More than 60 residents representing various organisations attended the meeting raising various issues.

Advocate Satya Muley shared important points that were discussed with Pune Pulse.

Important minutes of meeting

Divisional Commissioner of Pune announced in presence of PMRDA Commissioner that henceforth no new permissions shall be given in PMRDA jurisdiction without ascertaining availability and capability of local body/PMRDA/Zilla parishad to provide water to the new construction. No new construction permission shall be provided based on an affidavit taken from builders.

Almost 60 to 70 representatives of housing Societies, Housing Federations, Akhil Bharatiya Grahak Panchayat, Maharashtra Housing  societies federation were present.

The demand for providing water through tankers by PMC and PCMc was once again discussed and DC mentioned that the subject is being evaluated.

Spot visits to both corporations have been directed to understand the ground level realities and offer solutions.

Dedicated email id to be shared by both corporations to register complaints from housing complexes regarding water scarcity.

From the next meeting complaints to be received in advance and solutions to be offered during the next monthly meeting.

Adv Satya Muley stated that it is a district wide problem and intensive efforts by the special committee is required. Although providing immediate solutions to current scarcity is important, long term planning is also important which appears to be lacking by both the corporations.

Sunil Koloti, a resident of Nyati Windchimes who was part of the meeting stated that the meeting was fruitful but only it should turn into prompt action. 75 percent of our monthly maintenance goes into procuring water through tankers. PMC must come up with some solution now.

Another resident, Dilip Shah, founder of Undri Residents Forum said, “There were many residents who were present today.  We are hoping that strong action is taken by PMC as well as PCMC. It’s high time citizens get their due. Potable drinking water is what we are demanding. This meeting should not turn into another assurance but no result.”

Neerain is proud to republish this blog for spreading awareness about situation of water, for our stake holders. Credit whatsoever goes to the Author.

This blog is published by:

Pune Pulse

We would like to spread this for the benefit of fellow Indians.

Publish On: 15, January, 2024

Five environmental entrepreneurs making money sustainably

Posted on

An underlying theme of sustainable businesses is innovation – through either a product, service or a combination of both. Here are five environmental entrepreneurs saving the environment and promoting sustainability through their startups.

Photo Courtesy : 30 Stades

Many entrepreneurs today are setting up sustainable businesses that solve environmental problems and still make money because that’s the only way to keep any enterprise going.

An underlying theme of sustainable businesses is innovation – through either a product or a service or a combination of both. Environmental entrepreneurs solve the pressing problem of saving the environment and aiding ecological balance.

Here are five entrepreneurs who are contributing immensely to the cause of the environment through their unique products:

1. Nitin Sharma, Go Waterless, Pune

Water scarcity left Nitin’s family car wash business high and dry in 2016. After the problem continued well into 2017, Nitin began to research products that could wash cars without water.

Finally, in 2019, he developed eco-friendly high-lubricity sprays that clean car interiors and exteriors without water. Go Waterless has been profitable since its inception in 2019 and is present in 22 states.

More importantly, it is saving 12 lakh liters of water daily and earning Rs 2.5 crore in annual revenues.

2. Ashvin Patil and Chaitanya Korgaonkar, Biofuels Junction, Mumbai

Ashvin is an MBA and engineer who quit his job as an equity market analyst to set up Biofuels with his friend Chaitanya.

The duo started Biofuels in 2018 with the dual aim of solving farmers’ problem of agri waste disposal and providing clean fuel to enterprises. Most farmers, after harvest, burn residues like rice stubble, cotton stalks, and coconut husks, causing pollution.

Biofuels procures agri waste from farmers and it is then processed into solid biofuels at the nearest manufacturing facility in the startup’s network. The company’s field staff monitors the quality and consistency of biofuels, which replace coal, diesel and furnace oil at industrial plants, reducing the burden on non-renewable resources.

The sustainable startup works with 25,000 farmers and over 100 top companies. In just four years of launch, it is clocking Rs67 crore in annual revenues.

3. Amit Doshi, NeeRain, Ahmedabad

When Amit Doshi was in class four, he and his brother would accompany their mother to fill water from a tap near their house in Kalol, about 35km from Ahmedabad in Gujarat. The area’s borewells had dried up and the municipality supplied water every three days.

Growing up with water scarcity instilled in Amit a sense of purpose – to save every drop of water. One way to do it was through rainwater harvesting by collecting and storing rainwater that runs off from rooftops, roads, grounds, etc.

After a year of research and development, he designed an instrument to help people collect rainwater, which could be used to recharge borewells or stored, and named it NeeRain Rainwater Filter. This small filter unit with dimensions of 1x1x1.5 feet uses an engineering material called ABS (Acrylonitrile Butadiene Styrene), and it was patented in 2018. Amit’s startup earns Rs 2 crore in revenues annually and is growing rapidly.

4. Vinayakumar Balakrishnan: Thooshan, Kochi

Having spent a large part of his life working in leadership roles in the banking and insurance sector, Vinayakumar decided to return from Dubai to India in 2013 and began research on food waste that could be used to make biodegradable plates.

He approached the Council of Scientific & Industrial Research (CSIR)’s National Institute for Interdisciplinary Science and Technology (NIIST) in Thiruvananthapuram and funded the research on making biodegradable food plates from rice bran. Once the technology was in place, he set up a fully integrated robotic plant in Kochi to make biodegradable cutlery and Thooshan went live in 2021.

According to estimates, producing just one pound of plastic cutlery can take up to 78 liters of water and release 2.5 lbs (1.1 kg) of carbon dioxide. This plastic is difficult to recycle and ends up choking animals and polluting water bodies and soil.

Thooshan cutlery can be decomposed into organic manure or can be used as cattle feed, fish feed, or poultry feed. The startup is sustainable and environment-friendly.

5. Bhavini Parikh, Bunko Junko, Mumbai

In 2016, while working on her garment manufacturing business, Bhavini came across research that textile waste is the third largest source of municipal solid waste in India. With landfills having a limited capacity to take on the load, she decided to minimize fabric waste at her level.

“I realized I was also hurting the environment by being part of the fashion industry. So I thought of up-cycling fabric scraps produced in my garment manufacturing unit,” she says.

Today, her ethical fashion brand Bunko Junko turns textile scrap into stylish clothing, home furnishings, and accessories. Since 2018, it has saved 38 tonnes of fabric from going to landfills and empowered thousands of women. And her profitable operations clock Rs. 40 lakh in revenues annually.

Neerain is proud to republish this blog to spread awareness about the situation of water, for our stakeholders. Credit whatsoever goes to the Author.

This blog is published by: 30 Stades

We would like to spread this for the benefit of fellow Indians.

Author: Partho Burman and Bilal Khan

Published On: 29 Dec 2023

 

India’s water crisis: The clock is ticking

Posted on

We need to promote a decentralised approach, with a key focus on water conservation, source sustainability, storage and reuse wherever possibles

Photo courtesy: Getty Images

India is facing one of its major and most serious water crisis.

After two consecutive years of weak monsoons, 330 million people — a quarter of the country’s population — are affected by a severe drought. With nearly 50 per cent of India grappling with drought-like conditions, the situation has been particularly grim this year in western and southern states that received below average rainfall.

According to the Composite Water Management Index (CWMI) report released by the Niti Aayog in 2018, 21 major cities (Delhi, Bengaluru, Chennai, Hyderabad and others) are racing to reach zero groundwater levels by 2020, affecting access for 100 million people.

However, 12 per cent of India’s population is already living the ‘Day Zero’ scenario, thanks to excessive groundwater pumping, an inefficient and wasteful water management system and years of deficient rains. The CWMI report also states that by 2030, the country’s water demand is projected to be twice the available supply, implying severe water scarcity for hundreds of millions of people and an eventual six per cent loss in the country’s GDP.

The Union government recently formed a new Jal Shakti (water) ministry, which aims at tackling water issues with a holistic and integrated perspective on the subject. The ministry has announced an ambitious plan to provide piped water connections to every household in India by 2024.

Photo courtesy:  Pinterest

The ministry has set a tough target at a time when hundreds of millions don’t have access to clean water. Aiming at laying huge pipeline networks for water supply means that yet again, we are giving more preference to infrastructure. Also, the moot questions are: what will happen if there is no water to supply? What will happen to all the wastewater that gets generated?

This indicates that there is a clear disconnect between water, society and economy. Currently, we are interested in laying large networks, constructing huge storage dams, fetching water from 150 kilometres and above, which involves a huge carbon footprint.

We are valuing land more than water, neglecting our local water bodies, which have either gone dry or encroached. Also, in many Indian cities, water is not properly distributed. Some areas of mega cities like Delhi and Mumbai are privileged to get more that than the standard municipal water norm of 150 litres per capita per day (lpcd) while other areas get 40-50 lpcd.

Aggravating the problem is that the water being supplied currently is of drinking water standards.

The World Health Organization (WHO) states that an individual requires around 25 litres of water daily for meeting his/her basic hygiene and food needs. The rest is used for non-potable purposes like mopping and cleaning. This indicates that for most of the non-potable uses, a quality lower than drinking water is required. Thus, for economic efficiency and environmental sustainability, water must be treated and supplied according to usage.

To top this, are issues of leakage losses, water pricing and metering of water. Lack of proper maintenance of existing infrastructure causes further losses of almost 40 per cent of piped water in urban areas.

The road ahead

Looking at the current situation, there is a need for a paradigm shift. We urgently require a transition from this ‘supply-and-supply-more water’ provision to measures which lead towards improving water use efficiency, reducing leakages, recharging/restoring local waterbodies as well as applying for higher tariffs and ownership by various stakeholders.

A recovery-based closed loop system is the need of the hour.

It is time to go back and start using our traditional practice of rainwater harvesting — catching water where it falls. Presently, India captures only eight per cent of its annual rainfall, among the lowest in the world.

Another aspect is the treatment and reuse of wastewater. About 80 per cent of the water that reaches households, leaves as waste and pollutes our waterbodies and environment. There is a huge potential in reusing and recycling this treated wastewater at least for non-potable purposes, which is cost effective.

All this leads to the fact that we need to promote a decentralised approach, with a key focus on water conservation, source sustainability, storage and reuse wherever possible.

It is important to understand that managing the water situation is not the job of only engineers but all stakeholders including hydrogeologists, economists, planners and most importantly, communities themselves.

Emphasis on behavioural change is not getting enough attention because it is nuanced and complex. But locals/citizens/ communities have a huge part to play. By keeping in check our own usage and actions, we can contribute.

As for our decision-makers, they need to re-think: Are we being sold dreams or realities?

Neerain is proud to republish this article for spreading awareness about situation of water, for our stakeholders. Credit whatsoever goes to the Author.

This article is published by: –
 https://www.downtoearth.org.in/blog/water/india-s-water-crisis-the-clock-is-ticking-65217

We would like to spread this for the benefit of fellow Indians.

Author:  Mahreen Matto

Publish On:  Friday 21 June 2019

Roofs, rain and life: How to incentivize and implement rainwater harvesting

Posted on

Photo courtesy:  Muench/Sustainable Sanitation Alliance (SuSanA) Secretariat

Co-author: Carmen Anthonj , Assistant Professor GeoHealth, Geo-Information Science and Earth Observation (ITC) of the University of Twente

While rainwater harvesting can result in numerous benefits for consumers and the water sector overall (read our previous blog here), it’s not always clear how to effectively promote and increase the prevalence of this practice.

RWH systems can be built relatively easily with local skills and resources, using simple and easy-to-maintain technologies that are inexpensive once installed. RWH systems can be modular in nature by allowing expansion, reconfiguration or relocation, and can easily be retrofitted to an existing structure or built during new construction.  However, despite the many benefits, households often find it difficult to implement rainwater harvesting.  The initial installation cost of RWH systems on residential housing is relatively high and a common barrier to adoptioni. Moreover, while there are legal, social and environmental barriers as well, recent experiences have documented means of overcoming those barriers and reinforcing water management practicesii.

There are many ways to encourage rainwater harvesting and improve its implementation, within which governments can play a strong role. The use of government subsidies as incentives can encourage the installation of RWH systems and increase the number of users, particularly among poorer households. The regulatory frameworks are essential for the effective design of these incentives, like in Brazil. In Germany, the promotion (by grants and subsidies) of RWH at the local government level resulted in equipping almost one third of new buildings built with rainwater collection systems. The Government of Indiaiii, for example, provides financial assistance for the installation of RWH systems. The Surat Municipal Corporation has made RWH mandatory for new buildings with a plot size of >4,000 m² and provides up to a 50% (up to Rs. 2,000) subsidy to citizens to encourage rainwater recharging. In Gwalior and Jabalpur, a 6% rebate in property tax in the year of completion of RWH construction is provided to the building owner as an incentive (CSE, 2019).

Promoting rainwater use through housing regulations that stipulate that all newly built buildings and structures must include rainwater roof catchments is common in Taiwan, Texas and Brazil. Although laws and other governmental policies are the key driver for the implementation of RWH, overall, robust policies to systematically promote the installation of RHW are often lacking or scattered. In Brazil for example, RWH is barely covered in legislation at the federal level, but more common at the local level. In absence of a national policy regulating RWH, some state laws and mainly municipal regulations have taken the task of covering this legislative gap, as local authorities may be more aware of specific problems for the region and thus implement specific legislation for the municipality. Large numbers of different laws and regulations at different scales complicate the process of implementation. Besides, the scattered legislation does not cover all aspects of RWH: the main goal of regulations is usually encouraging the installation of RWH systems, but incentives for the implementation are rare, and no legislation exists that addresses treatment to improve the quality of rainwater (da Costa Pacheco et al., 2017). Besides, coordination between state and non-state stakeholders in RWH, and residents lacking awareness or knowledge of policies, are common challenges (Bui Thi Thuy et al., 2019; Matto & Jainer, 2019).

A Prospective Vision for RWH 

Photo courtesy:Akruti Enviro Solutions Pvt.Ltd.

The strategic management of rainwater can reduce disaster risk for communities faced with water scarcity, droughts or flood risks. Access to clean water is essential during the pandemic for handwashing, hygiene and preventing the spread of COVID-19. The scalability of RWH must ensure that water is provided and available when needed free of contamination, and as a resilience option in remote rural areas that are hit hard by climate change and rainfall variability. All the efforts to bring these solutions to increase water availability must carefully consider cost-effectiveness and co-benefits for small-scale irrigation and other productive uses of water. Integrated research that involves geospatial analysis and remote sensing can provide the evidence to demonstrate a stronger case to expand RWH globally, and improve their operational, financial and environmental sustainability.

Neerain is proud to republish this article for spreading awareness about situation of water, for our stakeholders. Credit whatsoever goes to the Author.

Neerain is proud to republish this article for spreading awareness about situation of water, for our stakeholders. Credit whatsoever goes to the Author.

This article is published by: –

https://blogs.worldbank.org/water/roofs-rain-and-life-how-incentivize-and-implement-rainwater-harvesting

We would like to spread this for the benefit of fellow Indians.

Author:  CHRISTIAN BORJA-VEGA

Publish On: NOVEMBER 12, 2020

India is staring at water poverty

Posted on

Climate-change induced deficient rainfall, poor storage of rainwater and water-intensive agriculture are responsible

Photo courtesy: Dhakatimes

According to data released by the India Meteorological Department, the South-West monsoon during June- August 2023 has been below normal in 42 per cent of the districts (see Table). In August, rainfall in the country was 32 per cent below normal and in the southern States it was 62 per cent. In the last 122 years — that is, since 1901 — India received the lowest rainfall in August this year. With only about a month left for the end of the South-West monsoon, the reduced rainfall will not only affect agriculture severely but it could also lead to massive water shortages in different regions of the country. What should be done to prevent water shortage?

Although India has the largest water resources (irrigated area) in the world, water demand has been increasing rapidly due to rapid changes in agriculture and industrial activities in recent times. The net amount of water that can be used in our country in a year is estimated at 1,121 billion cubic meters (bcm). However, the data published by the Ministry of Water Resources shows that the total water demand will be 1,093 bcm in 2025 and 1,447 bcm in 2050. This means that there will be a major water shortage in India within 10 years.

However, this does not mean that there is no water shortage at present. As per the Falkenmark Water Index (which is mostly used for measuring water scarcity throughout the world), wherever the amount of water available per capita is below 1,700 cubic meters in a year, there is water scarcity. Going by this index, almost 76 per cent of people are already living with water scarcity in India.

In Tamil Nadu, which is one of the water-scarce States in terms of per capita availability, water demand was more than its supply even before 1990-91. For example, the total water requirement of Tamil Nadu was 31,458 million cubic meters (mcm) in 2004, but the supply was only 28,643 mcm. This means that Tamil Nadu has been experiencing water shortage for the last 30 years.

Deficit monsoon rainfall alone cannot be the cause of water scarcity. Various estimates show that after 1990-91, the water demand has been continuously increasing due to increased economic activities including the intensification of agriculture. However, no major plans have been made to develop new water sources and strengthen the storage capacity of existing water sources to match the ever-increasing demand for water.

Rivers, small water bodies (tanks and others) and domestic wells met the daily water requirements for many years. Due to poor maintenance of tanks and other small water bodies, water could not be stored adequately even in years of good rainfall. Data show that drought has occurred in India several times due to deficit rainfall. But recently, due to climate changes, rainy days are shrinking.

 

The Intergovernmental Panel on Climate Change (IPCC) has warned in its reports that the climate is changing rapidly which will result in reduced rainfall, both in number of days and quantum. Rainfall deficiency can lead to water scarcity, which will severely affect people’s lives, livestock, wildlife and others. Water scarcity can cause major environmental and economic problems. In the report, ‘Climate Change, Water and Economy’, the World Bank (2016) underlines that countries with water shortages may face a major setback in economic growth by 2050.

Photo courtesy: The Caravan

The remedies

Central Water Commission data show that the water storage level of 150 major reservoirs as of August 31 was 23 per cent less than last year’s storage level of 146.828 bcm. El Nino, which occurs due to global warming and often changes the rainfall pattern, is becoming the new normal in recent years. There is, therefore, the need to make tough decisions to avoid water scarcity. Everyone forgets the pain caused by water scarcity once the rainy season starts. This kind of mindset needs to change first.

As the total quantum of rainfall and the number of rainy days are shrinking due to climate change, more serious efforts should be made to store rainwater wherever possible. States like Andhra Pradesh, Karnataka, Tamil Nadu and Telangana cannot solve the water scarcity problem without rejuvenating tanks, as all these States have a large number of tanks. The Minor Irrigation Census shows that there are a total of 6.42 lakh tanks, lakes and ponds in India.

However, the Parliamentary Standing Committee on Water Resources has stated in its 16th report on ‘Repair, Renovation and Restoration of Water Bodies’ that most of the small water bodies are encroached upon by government and private bodies. The First Census of Water Bodies published by the Ministry of Water Resources in 2023 has found that 38,486 water bodies have been encroached upon in India. Tough measures are needed to remove the encroachments.

About 85 per cent of the utilisable water is currently used by the agricultural sector. This can be reduced by changing the cropping pattern. Appropriate minimum support policies need to be introduced to reduce the area under water-intensive crops such as paddy, sugarcane and banana. As per the MS Swaminathan committee report on ‘More Crop and Income Per Drop of Water’ (2006), drip and sprinkler irrigation can save around 50 per cent of water in crop cultivation and increase the yield of crops by 40-60 per cent. A total of about 70 million hectares are identified as potential areas for such micro-irrigation method. While making efforts to increase the area under micro-irrigation, farmers should be advised to use such water-saving methods for cultivating water-intensive crops in areas of severe water scarcity.

Water is no longer a public good; it is increasingly becoming an expensive commodity. With the changing pattern of rainfall, severe water shortages are likely to occur frequently in the future. A severe water shortage in 2018 in Cape Town, South Africa, forced the authorities there to ration the supply of water (25 litre/person/day), causing much hardship to the public. This may happen in India, too. Therefore, water should be stored wherever possible during the deficit rainfall period to prevent water poverty in the future.

Neerain is proud to republish this blog for spreading awareness about situation of water, for our stake holders. Credit whatsoever goes to the Author.

 

This blog is published by: –

https://www.thehindubusinessline.com/opinion/india-is-staring-at-water-poverty/article67282233.ece

We would like to spread this for the benefit of fellow Indians.

Author: Narayanamoorthy

Publish On: 07 , September , 2023

 

 

 

 

Water crisis in India: Threats and Opportunities for India Inc

Posted on

India faces daunting water security challenges. The demands of a rapidly industrializing economy and urbanizing society come at a time when the potential for augmenting supply is limited and water issues have increasingly come to the fore. While India hosts approximately 17 percent of the world’s population, it holds only about four percent of its required annual water resources.

Photo courtesy: Adobe stock

India faces daunting water security challenges. The demands of a rapidly industrializing economy and urbanizing society come at a time when the potential for augmenting supply is limited and water issues have increasingly come to the fore. While India hosts approximately 17 percent of the world’s population, it holds only about four percent of its required annual water resources.

In India, more than 600 million people are facing an acute water shortage. About three-quarter households do not have a drinking water facility. Currently, India ranks 120th among 122 countries in the water quality index. By 2030, India’s water demand is expected to be double to that of supply that implies not only water scarcity for numerous people but also a loss of around 6 percent to GDP. This underscores the need for strategic interventions to promote water use efficiency, both at the micro and macro level.

India Inc is an important stakeholder in India’s sustainability story. It also accounts for substantial water use. Various sectors of the industry are competing to use limited water resources that put pressure on the available supply of water and groundwater resources. The UN’s World Water Assessment Program warns of the stark implications, such as lack of freshwater resources on economic prosperity and security.

WATER TREATMENT/OPPORTUNITIES AND REUSE

Photo courtesy: Shutterstock

India Inc has taken cognizance of the magnitude of the water crisis and the role they can play to mitigate it. The corporate should see it as the shared responsibility of companies across sectors to join hands with communities and governments to work on programs for water conservation, recharge and wastewater treatment. On the lines of minimizing the carbon footprint, corporate should also incorporate water management not only as its CSR goals but as a component of its business goals and sustainability plan.

Experts should converge and deliberate on establishing a sustainable water management strategy that will serve as the guideline for the entire industry. They should focus on optimization of water usage for industrial purposes, omitting outdated processes and technology and adoption of suitable recycling practices.

Water forms an intrinsic component of manufacturing cycles of the industry. Corporate has to be mindful of achieving sustainable water consumption while ensuring profitability and fulfilling their business goals.

The role of technology and research and development in encouraging the best water conservation techniques cannot be underestimated. New-age technologies such as smart irrigation systems with ICT and remote sensing are potent tools to encourage water conservation. The onus should be on corporate to foster innovation come up with out of the box solutions as they possess the necessary resources and expertise.

The corporate can also play an instrumental role in devising mass awareness campaigns and information dissemination educating farmers and common populace on the need to use water judiciously.

Equally important is the role of information sharing and collaboration among companies that will encourage the mapping of goals against achieved targets and improvise water management practices. Sharing of technological innovations offer a useful path to greater, mutually beneficial cooperation.

The comprehensive assessment of water requirement and usage by the corporate is essential to facilitate informed policy-making by the government and plugging the loopholes in the policy framework on water.

India Inc must gear to adopt water management on a priority that would enable the entire country to benefit from it through genuine and open collaboration.

Neerain is proud to republish this article for spreading awareness about situation of water, for our stakeholders. Credit whatsoever goes to the Author.

This article is published by: –

https://bwsmartcities.businessworld.in/article/Water-crisis-in-India-Threats-and-Opportunities-for-India-Inc/10-06-2020-285981/

We would like to spread this for the benefit of fellow Indians.

Author: Dr. Puneet Gupta

Publish On: June, 2020

 

 

Traditional water systems hold the key to India’s water crisis

Posted on

Photo credit: Shutterstock

There is a need to learn from our past, revive traditional water harvesting systems, and enable and empower communities to take back the management of water as a communal resource

Traditional water harvesting system is a diverse range of structures that help harvest rainwater when and where it falls and store it—even replenishing and recharging the groundwater along the way.

The recent pandemic has averted our attention from the alarming water crisis India is facing, however the distressing problem remains. Thanks to short attention spans, many have forgotten that 21 Indian cities ran out of water in 2019, and that unless something radical is done, we will be forced to face a grim reality in the future.

But what if the answer was not ‘something radical’?  What if it was staring us in the face and has been for thousands of years?  What if we have simply ‘forgotten’ the solution?

Water experts across the country have been espousing the benefits of the revival of traditional water harvesting systems—ancient wisdom that saw our ancestors survive many a drought even in the harshest of landscapes.

Indians have had a rich history of managing water. Our forefathers harnessed water that fell during the rainy season and stored it to meet the needs of the community during the dry months. To do this, they used ‘traditional water harvesting systems’—a diverse range of structures that help harvest rainwater when and where it falls, and store it—even replenishing and recharging the groundwater along the way.

Every region in the country has its own unique traditional water harvesting systems depending on the geography and culture of the area. Bamboo pipes and Apatani systems (wet rice cultivation cum fish farming system) are used in the eastern Himalayas while the Gul (traditional irrigation canals) is used in the western HimalayasKund (circular underground well), Khadin (structure designed to harvest surface runoff), Talabs (ponds), Johad (percolation pond), and Baoli (man-made step well) are harnessed in the Thar desert, Rajasthan and in Gujarat; while in Bihar they use ahar-pynes (traditional floodwater harvesting system) – the list goes on.

 

Photo credit: Pinterest

Back in the day, the belief was that water was a communal resource to be managed by the community for the well-being of all. However, during the colonization, the British replaced this dispersed, decentralized system to manage water, with a centralized one where the Public Works Department took control of the precious resource. As a result, people gave up the responsibility of managing and caring for water, and instead saw it as a resource that was ‘doled out by the powers that be’.

But these incredible structures still exist and many simply lie in disuse, in need of restoration and repair. However, with work, they can be revived to their former glory. Communities dotted across the country are already taking charge of their water future, by reviving these structures, organizing themselves into ‘water management’ groups, and taking responsibility for the water that their lives and livelihoods rely so heavily upon.

Photo credit: Vecteezy

Communities in Rabriyawas in Rajasthan, which was once almost uninhabitable due to the lack of water, is today a thriving agricultural hub after the restoration and rejuvenation of ancient nadis (village streams) which have helped sustain life in the desert region for millennia. A village pond or stream is one of the most ancient structures for rainwater harvesting in the state of Rajasthan.

Once the water harvesting structures are operational, there is then a need to promote a more decentralized, integrated approach to managing water—one where grassroots communities act as stewards of their own water and govern it locally, with the active participation of all – women, in particular.

With over 467 ponds rejuvenated in Rajasthan, a variety of Village Development Committees (VDC) are taking care of the operation and maintenance of these water bodies. They monitor water collection and keep a lookout for illegal activities (such as open defecation or flow of sewage water into the catchment areas) at the water bodies. Villages clean the catchment area before monsoon each year so that the ponds are not contaminated. Today, the duration of water availability from each pond can sustain a community for almost an entire year.

But it takes work. People must be mobilized, organized, and empowered with the knowledge that their ancestors once knew how to manage these structures and the water they collect, equitably, to ensure water sustainability for all. This is where there is a role for NGOs and civil society, to enable people to take control back of their water.

Estimates suggest that demand for water will outstrip supply by two by 2030 if we continue with a ‘business-as-usual’ approach. If India is to effectively turn the current water crisis around, there is a need to learn from our past, revive traditional water harvesting systems, and enable and empower communities to take back the management of water as a communal resource. It can be done. It must be done.

Neerain is proud to republish this article for spreading awareness about the situation of water, for our stakeholders. Credit whatsoever goes to the Author.

 

This article is published by: –

https://www.forbesindia.com/blog/environment-and-sustainability/traditional-water-systems-hold-the-key-to-indias-water-crisis/

We would like to spread this for the benefit of fellow Indians.

Author:  PEARL TIWARI

Publish On: Sep 20, 2021