Rashid's Blog: A Place for Inquisitive Souls

According to a UN report, around 1.2 billion people, or almost one fifth of the global population, live in areas where water is scarce and another 1.6 billion people, or nearly one quarter of the world’s population, face economic water shortage. They lack basic access to water. The criticality of the water situation across the world has in fact given rise to speculations over water wars becoming a distinct possibility in the future. In India the problem is compounded, given the rising population and urbanization. The Asian Development Bank has forecast that by 2030, India will have a water deficit of 50%. 

For urban India, the situation is alarming. In 2015, about 377 million Indians lived in urban areas and by 2030, the urban population is expected to rise to 590 million. Already, according to the National Sample Survey, only 47% of urban households have individual water connections and about 40% to 50% of water is reportedly lost in distribution system due to various reasons. Further, as per the 2011 census, only 32.7% of urban Indian households are connected to a piped sewerage system. Water Pollution is a pressing problem all over the globe.

Any comprehensive solution to address the water problem in urban India needs to take into account the specific challenges around water management and distribution:

Pressure on water sources: Rising demand on water means rising pressure on water sources, especially in cities. In a city like Mumbai for example, 3,750 Million Litres per Day (MLD) of water, including water for commercial and industrial use, is available, whereas 4,500 MLD is needed. The primary sources of water for cities like Mumbai are lakes created by dams across rivers near the city. Distributing the available water means providing 386,971 connections to the city’s roughly 13 million residents. When distribution becomes challenging, the workaround is to tap ground water. According to a study by the Centre for Science and Environment, 48% of urban water supply in India comes from ground water. Ground water exploitation for commercial and domestic use in most cities is leading to reduction in ground water level. 

Distribution and water loss issues: Distribution challenges, such as water loss due to theft, pilferage, leaky pipes and faulty meter readings, result in unequal and unregulated distribution of water. In New Delhi, for example, water distribution loss was reported to be about 40% as per a study. In Mumbai, where most residents get only 2-5 hours of water supply per day, the non-revenue water loss is about 27% of the overall water supply. This strains the municipal body’s budget and impacts the improvement of distribution infrastructure. Factors such as difficult terrain and legal issues over buildings also affect water supply to many parts. According to a study, only 5% of piped water reaches slum areas in 42 Indian cities, including New Delhi. A 2011 study also found that 95% of households in slum areas in Mumbai’s Kaula Bunder district, in some seasons, use less than the WHO-recommended minimum of 50 litres per capita per day.

Water pollution and contamination: In India, almost 400,000 children die every year of diarrhoea, primarily due to contaminated water. According to a 2017 report, 630 million people in the South East Asian countries, including India, use faeces-contaminated drinking water source, becoming susceptible to a range of diseases. Industrial waste is also a major cause for water contamination, particularly antibiotic ingredients released into rivers and soils by pharma companies.

Addressing these challenges and improving access to clean water for all needs a combination of short-term and medium-term solutions. It also means involving the community and various stakeholders in implementing the solutions.

The proposed solutions, based on a study of water issues in cities such as Mumbai, take into account different aspects of water management and distribution. Backed by a close understanding of the cost implications, they can make a difference in tackling urban water challenges. These solutions include:   

Recycling and harvesting: Raw sewage water which is dumped into oceans damages the coastal eco-system. Instead, this could be used as a cheaper alternative to fresh water for industrial purposes.  According to a 2011 World Bank report, 13% of total freshwater withdrawal in India is for industrial use. What’s more, the industrial demand for water is expected to grow at a rate of 4.2% per year till 2025. Much of this demand can be met by recycling and treating sewage water. In Mumbai for example, 3000 MLD of sewage water is released, almost 80% of fresh water availability. This can be purified and utilized for industrial needs. An example of recycled sewage water being used for industrial purpose is the 30 MLD waste water treatment facility at Gandhinagar and Anjar in Gujarat set up by Welspun India Ltd. 

Another example is the proposal by Navi Mumbai Municipal Corporation (NMMC) to recycle and reclaim sewage water treated at its existing facilities to meet the secondary purposes of both industries and residential complexes. In fact, residential complexes can similarly recycle and re-use their waste water for secondary purposes such as gardening.

Also, alternative rain water harvesting methods such as harvesting rain water from concrete surfaces using porous concrete can be used to supplement roof-top rain water harvesting, to help replenish ground water.  

Community initiatives to supplement regular water supply: Initiatives such as community water storage and decentralized treatment facilities, including elevated water towers or reservoirs and water ATMs, based on a realistic understanding of the costs involved, can help support the city’s water distribution.  Water towers or elevated reservoirs with onsite filters can also help optimize the space available for water distribution in congested cities.  Water ATMs, which are automated water dispensing units that can be accessed with a smart card or an app, can ensure metered supply of safe water.    

Testing and purification: With water contamination being a big challenge, the adoption of affordable and reliable multi-household water filter systems which are electricity free and easy to use can help, to some extent, access to safe drinking water at a domestic level. Also, the use of household water testing kits and the installation of water quality sensors on pipes, that send out alerts on water contamination, can create awareness of water contamination and drive suitable preventive steps.

Public Awareness and use of Technology: Public awareness campaigns, tax incentives for water conservation and the use of technology interfaces can also go a long way in addressing the water problem. For example, measures such as water credits can be introduced with tax benefits as incentives for efficient use and recycling of water. Similarly, government water apps, like that of the Municipal Corporation of Greater Mumbai, can be used to spread tips on water saving, report leakage or send updates on water quality.  

Source(s):

BASF

New thinkings is being evolved in city planning. Environmental, social, and economic change is increasingly centered at the city level.

Innovation in cities was on display at a recent Greenbuild, an event devoted to green building and sustainable development that draws a diverse roster of attendees, from architects and engineers to school and hospital administrators. At the event many innovative solutions were suggested.

Building for People

Cars no longer drive urban planning—today it’s “people-oriented design,” “That still accommodates cars, but people come first.”

“It’s design on a pedestrian scale, with narrower streets, and pushing buildings closer to the street and to each other,” says Angus. “That in turn brings people closer together—the front porch concept.” Other aspects include a grocery store within walking distance, proximity to transit, high-performing green buildings, green space and trees along streets, and space for cyclists.

Health and Wellness

With 90 percent of our time spent indoors, building design and its impact in the workplace, schools, and even hospital settings has been an emerging area of research.

Studies conducted by Harvard’s Healthy Buildings center found that in green buildings with enhanced ventilation and optimal thermal conditions, participants scored 26 percent higher on cognitive function tests and had fewer symptoms of sick building syndrome. Exposure to daylight and brighter, blue-enriched lighting, which best mimics natural light, was also associated with better sleep quality.

Chemicals used in building materials and furnishings that are known to accumulate in both humans and the environment are coming under closer scrutiny by researchers, and Harvard is practicing what it teaches: The university’s purchasing community is working to reduce “chemicals of concern” throughout the campus, starting with buying furniture that’s free of flame retardants.

Going Green

Urban planners continually find more creative ways to weave nature into the city, particularly with space at a premium. It doesn’t necessarily have to take the form of sprawling parks. Jonce Walker, who works in sustainable design in New York City, sees pockets of nature functioning like “acupuncture” for residents. “Small, strategic interventions offer relief to people who live in cities,” says Walker. “We must be careful not to erase nature out of cities, and work on putting nature back in.”

The best of these spots, he says, have the element of surprise—encountering nature where one might least expect it—and offer “dwell time,” a way to linger and admire it.

Walker points to projects such as Paley Park and PARK(ing) Day, a movement to convert metered parking spots into temporary public spaces that began in San Francisco and spread to other cities. In New York, it’s similarly represented by Street Seats, a seasonal program allowing benches and chairs, surrounded by landscaping, to be installed on streets. “It’s taking back part of the street for cars and giving it to people,” says Walker. In Brooklyn, the 2,000 Gallon Project uses dumpsters planted with trees and vegetation to divert stormwater that might ordinarily overflow with sewage into Gowanus Canal. The display “integrates nature into a very industrial place—and it’s moveable,” he says.

Planting trees is a more permanent solution. Washington, D.C., and a dozen other cities have committed to a 40 percent canopy cover goal. D.C. is already close—about 38.7 percent—and it’s moved to protect “heritage trees” whose trunks are 100 inches or more in circumference, says Luke Cole of the city’s environment and energy department. About 12,000 trees were planted over the last year as part of the effort. Citizens are in on it too: A program offers a consult for residential property owners and subsidies for incorporating shade trees, rain gardens, and native plants, which help reduce storm runoff. The program contributes up to 8 percent of the city’s new trees.

Planning for Climate Change

Superstorm Sandy’s crippling effect on Manhattan in 2012 propelled cities to launch resilience plans that anticipate rising seas, more frequent storms, and flooding. In 2014 San Francisco became the first to designate a climate resilience officer, and at least 84 other global cities have followed. In the wake of recent hurricanes impacting Houston, Miami, and Puerto Rico—the most expensive hurricane season in U.S. history—efforts have accelerated.

At the confluence of two rivers, Washington, D.C., is battling both sinking and sea-level rise—levels have risen 11 inches over the past century, with 40 inches projected by 2080.

Climate Ready DC outlines measures for coping with those, along with more intense rainfall and storm surge, and highlights neighborhoods at risk. The plan’s 77 actions range from increasing the number of green roofs (already incentivized), collecting stormwater, creating micro-grids for energy and water, incorporating resilience in building and zoning codes, and identifying “cooling centers” where those who may not have access to air conditioning could retreat during scorching summer heat—the city projects two to three times as many dangerously hot days.

The Net-Zero Standard

Net-zero waste, water, and energy have been called the sustainable trifecta, creating “living buildings.” Seattle’s Bullitt Center, for example, has a rooftop rainwater harvesting system and composting toilets and taps solar energy for its needs.

As of 2016, about 200 commercial buildings in the U.S. claimed the net-zero energy standard, which means the building generates all its own power through on-site renewable sources. Schools and campuses are increasingly incorporating net-zero energy systems—and using them as a teaching tool.

Source:

National Geographic

We have many of the ideas and inventions that are needed to make cities truly sustainable, we have identified the pillars of sustainability, but there is a considerable delay in implementation caused by entrenched thinking ,lack of awareness and lack of training .

Finance and Auditing 

1. Joined-up action. Departments need to communicate to each other so that, for a properly coordinated sustainability strategy.For Example, Transport Department is not working against the interests of the planning department and so on.
2. New Economics. Finance departments need to have the ability to successfully make the financial case for the investments required to deliver sustainability and regeneration by factoring in the financial aspects of ancillary benefits of measures to be taken, such as: job creation, reducing inequalities, reducing crime and congestion, and improving citizen health and well-being.
3. Modelling and auditing. Life-cycle analysis, carbon accounting, or ecological-footprinting needs to be applied consistently so that different strategies can be properly compared and to maximise overall environmental, carbon and cost savings.
4. Networking. It’s very important that influencers within city administrations are able to travel to other cities or network with them online to see what they have done and bring back the best innovatory practices so that they become embedded everywhere.
5. Training. These need constant programs of in-service training to keep personnel up-to-date with the latest techniques, thinking and technologies.

Transport

1. Promoting cycling and walkability. There is pressing need to plan for walkability and cyclability in cities. The spread of cycle hiring facilities such as the schemes in London and Paris, and recognition of the needs of cyclists are important because cycling and walking have numerous benefits in terms of reduced congestion, improved air quality, promoting health and reducing health costs.
2. Planning for Local Hubs. As cities spread we need to think of hubs, and how local services can be provided at these hubs. This reduces the need to commute or travel . Being able to situate people’s homes near to their jobs and the things they need helps to keep it local and reduce congestion and carbon emissions.
3. Congestion Charging. This helps because it puts a price on diesel and petrol-fuelled personal travel.
4. Extensive provision of electric vehicle charging points. This will encourage their uptake, especially if electric scooters and other small vehicles are facilitated for short journeys.
5. Seamless travel. Properly joined-up public transport systems allow people easily to hop from bus to Metro/subway to train using the same payment method and without having to wait very long. Being able to take a bike on a train or even the Metro/subway is desirable.

Smart cities and Crowd-Sourcing

1. Tapping the wisdom of crowds :The people who live there, to get them to tell you what they think will make their cities more liveable has great potential . We should be asking them: how can we make the best of what we’ve got? This is especially true of cities in developing countries where there is a danger of favelas and shantytowns being bulldozed for unsustainable developments, instead of helping the people who live there to help themselves and supporting them in what they need. They are no different from people in developed world cities, in wanting to improve their community and quality-of-life and having the skills to do so.
2. Collaborative Partnerships. Successful sustainable projects happen when those at the top, in government, and those at the grassroots work together instead of against each other.

Buildings

1. Remote Monitoring and Management. Wireless building energy monitoring systems allow all existing buildings to be remotely monitorable and controlled to minimise energy use and identify hot spots for action.
2. Densification. Dense cities are more sustainable because the impact per unit is less, up to a limit. Accommodation will become more affordable, in general, as a result. Land use should be mixed, with light industry interspersed with retail, office and workshop space and services to create local jobs and social diversity, part of the art of placemaking.
3. Climate resilience: It should go without saying these days that planning requirements for the built environment include protection from weather extremes: overheating, flooding and storms.

Energy

1. Local energy: Community energy heating schemes, combined heat and power, heat pumps should all be encouraged.
2. Solar energy: The ability to use dye-sensitive PV coatings on building cladding to generate electricity is being pioneered in Swansea by Tata Steel for instance, and will become available and cost effective in just a few years. The advantage is that surfaces do not need to point at the sun to be efficient and the panels don’t take up land space.
3. Anaerobic Digestion. More power will come from anaerobic digestion of organic and green waste to produce natural gas that may be injected into the mains, used in local network combined heat and power plants or to power transport, with the digestate being used as a fertiliser.

Food

1. Urban Growing. On the individual level of city dwellers, after energy consumption, food consumption is the biggest source of carbon emissions, then transport, consumables and housing. Urban growing can include: rooftop and vertical gardens, allotments, teaching children to grow food in schools, community-supported agriculture, farmers markets, and, on the horizon, growing food intensively indoors, both traditional and novel engineered foodstuffs.
2. Making space for Mature: if space is to be made for the natural environment – to improve biodiversity and local air quality, reduce the ‘heat island’ effect, and improve well-being – why should the plants and trees not be edible: nuts, fruit, herbs, decorative brassicas, and so on?

Source(s):

Smart City Dive

zarraat kaa bosaa lene ko, sau baar jhukaa aakaash yahaan

We are Celebrating our Centenary. Its time to be the best in the World.

Its time to pull down the “Aakash” . Let us work for this goal with all our might , with all our capabilities , with PASSION. Passion of Sir Syed .

jo abr yahaan se uththega, vo saare jahaan par barsegaa
har juu-e-ravaan par barsegaa, har koh-e-garaan par barsegaa

Lets bloom and be the rain of knowledge,of HOPE.

har shahr-e-tarab par garjegaa, har qasr-e-tarab par kadkegaa

ye abr hameshaa barsaa hai, ye abr hameshaa barsegaa

Live the Spirit of our Tarana

Be The Change in the Ever Changing World