Technology

Water is life, essential for daily sustenance and healthy living. With plummeting groundwater levels, contamination of water sources and increasing consumption, challenges in the water sector have increased manifold. Safe, sustainable and affordable water in the face of growing water needs is a severe challenge. With fresh water supplies already hard pressed to meet growing demand, technology plays an important role in managing and using the limited available water in a cost effective and critical manner.

Water contamination occurs both due to human activities and natural processes. Depending upon the purpose for which the water is needed--municipal, industrial or agriculture--treatment is carried out. The technology used will depend upon the current water quality, future standards required and economics of the treatment method. Water treatment removes contaminants that may be biological, physical or chemical in nature. 

Various water treatment technologies are present that purify polluted water by removing undesirable chemicals or biological contaminants and making it fit for human consumption. Use based classification of surface waters in India has been laid down by the Central Pollution Control Board (CPCB). The details of the permissible and desirable limits of various parameters in drinking water as per Bureau of Indian Standards (BIS) standard specifications for potable water are also detailed in the IS 10500:1991

Water treatment plants use technologies to produce water that is safe both chemically and biologically, and that is appealing in terms of colour, odour and taste. The control point for water quality determination must be the consumer's tap and not the treatment facility, which means that the water quality must not be impaired during transmission, storage and distribution to the user. The treatment methods at the plant include aeration, coagulation and flocculation, sedimentation, filtration and disinfection.  Some of the prevalent water purification & treatment technologies are listed below.

  • Capacitive Deionization (CDI) is a technology where ions are removed from water by passing it through a spacer channel with porous electrodes on each side
  • Ozonation is a chemical water treatment technique based on the infusion of ozone into water
  • Ultraviolet technology uses Ultraviolet light, just like sunlight, to kill micro-organisms present in the water
  • Reverse Osmosis (RO) is a technology that removes a large majority of contaminants by pushing the water under pressure through a semi-permeable membrane
  • TERAFIL is a burnt red clay porous media used for filtration & treatment of raw water into clean drinking water, developed Council of Scientific & Industrial Research (CSIR), Bhubaneshwar 
  • OS- Community scale Arsenic Filter is an organic arsenic filter, developed by IIT Kharagpur
  • Filtration methods that may include rapid/ slow sand filters remove dirt, rust, silt, dust and other particulate matter from water
  • Solar water purification systems 

Water treatment technologies for safe, potable water in rural areas that includes Capacitive Deionization Technology (CDI) using carbon aerogel, solar operated groundwater treatment plants and electro chlorination are described in a booklet ‘Compendium of innovative technologies on rural drinking water & sanitation’ by the Ministry of Drinking Water and Sanitation. 

Domestic drinking water filtration methods vary depending upon the method of purification used, the degree of ‘purity’ required, and the type of contaminants in the water. No one technology will fulfil all criteria--there is no ‘silver bullet’ solution. Some of the more popular methods for Household Water Treatment & Safe Storage (HWTS) options includes boiling, SODIS (Solar disinfection), Chlorine Tablets, Liquid Chlorine (online, Biosand filters, Flocculent treatment, Ceramic candle, Filter combinations, Pureit filters, Ultra Violet (UV) filters, Reverse Osmosis (RO) and Ion Exchange (IEX).

For more on water purification systems, click here.

Domestic Greywater Recycling Water filtration technologies

Any used water, other than sewage from toilet basins that exit a house or apartment complex, is referred to as sullage or greywater. This is mostly made up of water used in bathrooms and kitchens, constituting the bulk--nearly 60%-70%--of the total volume of water used in a day. 

Before underground sewerage was introduced in most cities, water followed a cyclical route. Water was drawn from dug wells within the premises. Refuse water from the bathrooms and kitchen was let out into the garden while water from the closets reached septic tanks. The soil treated the greywater and sent it back into the ground, thereby closing the household water consumption-reuse loop.

Contrary to popular belief, greywater is largely free from pathogens. As it is mostly made up of easily degradable organic waste and chemicals from cleaning products, it can be purified and reused in-situ with minimal effort. In many homes and apartment complexes, sending this perfectly reusable resource out of the plot along with sewage common-sight. Greywater can be brought back into the water cycle by employing simple biological and mechanical filtration techniques.

There are two basic requirements apart from the necessary plumbing arrangements for treating domestic wastewater:

  1. Open soil space
  2. Water loving plants

Water from bathrooms and kitchens can be diverted through a dedicated pipeline into the plant bed set aside for the treatment process. Here, the nutrients present in the waste water are absorbed by water loving plants such as Canna or Cyperus while the soil bacteria polish off the organic waste from the water. 

  • Constructed wetlands – These wetlands are created to replicate the process of bio-filtration that occurs in a natural setting. Here, the water is purified using two media, the planted surface and the gravel bed underneath. 
  • Reed bed treatment plants – A smaller version of the constructed wetlands, reed beds are perfect for individual houses and smaller complexes.
  • Mechanical filtration – Mechanical systems such as sand filters and pebble flow systems can be used to help filter out waste from the water by separating the discernable solids from the liquid component. 
  • Lava filters – These pebble filters are a combination of both biological and mechanical systems where the stones act as support structures for microorganisms that help break down the waste. 

For more on the basics of rainwater harvesting and greywater recycling, refer Self reliance in water: A book by Indukanth Ragade.  

Sewage treatment--Municipal and Industrial

Waste water flowing out of urinals and toilet closets are referred to as ‘blackwater’ or sewage. Blackwater cannot be treated in the same way as greywater as the former contains a heavy pathogen load from the fecal matter suspended in it. Sewage from towns and cities flowing directly into water bodies is one of the major reasons for water pollution.

Municipal wastewater treatment plant, Yelahanka, Bangalore

While City Corporations are in charge of laying underground sewerage pipes to collect, channel and treat sewage, localities outside city limits have a greater responsibility of managing their own waste. Apartment complexes and townships mostly rely on small scale sewage treatment plants (STP) to treat their waste.

Wastewater can be treated either in the presence or absence of oxygen. While aerobic digestion involves the breakdown of waste by microorganisms in the presence of oxygen, anaerobic systems work in its absence. Various types of processes are used to treat both domestic and industrial waste water such as:

  • Activated Sludge Process where biological agents such as bacteria are used in the presence of air to oxidise the nutrients present in the sewage 
  • Sequencing Batch Reactors help equalize, aerate and sediment waste water in timed batches by mixing it with activated sludge and oxygen to reduce the organic load 
  • Membrane Bio Reactors provide a higher degree of organic and solid removal by combining the principles of both mechanical filtration and biological digestion to treat municipal waste 
  • Moving Bed Bioreactors are mainly used for aerating and treating high-strength wastewater where several floating polyethylene bio-films move in suspension provide surface area for the nutrient-digesting bacteria to grow 
  • Trickling filters are low-cost, aerobic systems made up of a fixed bed of gravel, rocks and moss over through sewage is passed to remove the nutrient material in the suspension 
  • Facultative aerated lagoons are shallow ponds where the sewage is allowed to with the atmospheric oxygen in the upper layers while the sludge settles down at the bottom 
  • Waste stabilisation ponds, categorized into three broad types – anaerobic, facultative and aeobic depending on the oxygen use intensity – help in reducing nutrient content and polishing waste water to re-use quality 
  • Up-flow anaerobic sludge blanket digestion treats wastewater in the absence of oxygen where the feed enters the tank through the bottom and flows upward as the bacteria present in the sludge digest organic the matter 

The CPCB publication on the status of sewage treatment in India throws light on the performance of sewage treatment plants across the country and the technologies currently being used in them. The status of waste water generation and treatment across the country is also available on the ENVIS Centre on hygiene, sanitation, sewage treatment systems and technology. 

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2010 UN-Water Global Annual Assessment of Sanitation and Drinking-Water (GLAAS)
Global Annual Assessment of Sanitation and Drinking-Water (GLAAS) aims to provide policy makers with a thorough analysis on water and sanitation issues. Posted on 27 Apr, 2010 01:18 PM

WHO logo

The Global Annual Assessment of Sanitation and Drinking-Water (GLAAS) is a UN-Water initiative implemented by the World Health Organization (WHO). The objective of UN-Water GLAAS is to provide policy makers at all levels with a reliable, easily accessible, comprehensive and global analysis of the evidence to make informed decisions in sanitation and drinking-water.

With over 2.6 billion people living without access to improved sanitation facilities, and nearly 900 million people not receiving their drinking-water from improved water sources, UN-Water GLAAS highlights where efforts stagnate in achieving the Millennium Development Goal Target 7.C.¬ to halve, by 2015, the proportion of people without sustainable access to safe drinking-water and basic sanitation. It also highlights the post-2015 challenges that need to be addressed by the United Nations system to collectively support its Member States.

Need for a water meter for every flat in an apartment
The article features the importance of separate water meter to each flat at apartments, which can avoid wastage of water. Posted on 25 Apr, 2010 10:56 AM

By providing separate water meter to each flat at apartments, wastage of water which is being now observed can be avoided and WATER can very well be saved at each minute each day!

PRESENT SITUATION.

Rain water harvesting, recycling, reuse of waste water and using less water will help in water conservation, says Sekhar Raghavan, director of Rain Center, Chennai
Speaking at a meeting organised in Coimbatore on the occasion of World Water Day, Sekar Raghavan of Rain Center emphasised on rainwater harvesting, recycling and reuse of waste water. Posted on 21 Apr, 2010 05:45 PM

Post forwarded by : Sekhar Raghavan

Rainwater filtration from large roofs in polluted environments to potable quality
Posted on 21 Apr, 2010 05:25 PM

Is there anyone in India who is willing to develop a multi-stage Saferain unit with me?
Imagine a 5000 sq metre factory in New Delhi, (or Shanghai, or wherever).

The air is polluted, the roof is polluted, and, yet, I say that potable. or near so, can be delivered in a rain event. The following is a cut and paste. This is how it's

A study on Bellandur tank and changes due to urbanisation - A report by CASUMM
The article presents the case of Bellandur Tank in Bangalore city and highlights how rapid urbanisation has led to the destruction of one of the biggest water bodies in the district. Posted on 21 Apr, 2010 05:08 PM

Bellandur TankThis article by Collaborative for the Advancement of the Study of Urbanism through Mixed Media (CASUMM) presents the case of Bellandur Tank in Bangalore city and highlights how rapid unplanned urbanisation has led to the destruction of one of the biggest water bodies in Bangalore Urban district.

The tank provided sustenance for people who lived in the areas surrounding it and provided water for irrigation, household purposes such as drinking, washing and cleaning, besides providing ample supply of fish. The tank was thus an integral part of the society and had a relationship with the communities residing around the tank.

Case studies on Water Management by Industry from the CII-GBC National Awards for Excellence in Water Management (2007)
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Financing on-site sanitation for the poor: A six country comparative review and analysis - A report by WSP (World Bank)
This report by the WSP draws attention to the fact that about 40% of the population in the world does not have access to basic level of sanitation, leading serious health problems. Posted on 20 Apr, 2010 06:58 PM

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Rejuvenation of community toilets - A policy paper by UN-HABITAT and Government of Madhya Pradesh
The policy paper examines the condition of community toilet in terms of its infrastructure, operation & maintenance, uses and payment of user charges in Madhya Pradesh. Posted on 20 Apr, 2010 04:12 PM

UN-HABITATThe policy paper examines the condition of community toilet in terms of its infrastructure, operation & maintenance, uses and payment of user charges. The paper is a result of a joint collaboration between Water for Asian Cities (WAC) Programme of UN-HABITAT and the Directorate of Urban Administration & Development, Government of Madhya Pradesh.

In Madhya Pradesh, WAC is supporting Asian Development Bank-financed project in cities of Bhopal, Gwalior, Indore and Jabalpur to improve and expand urban water and sanitation services. This study has been taken up to monitor implementation of the water and sanitation related targets.

Press release : UL certifies Kimberlite Chemicals for health effects in drinking water
The press release is to announce that Kimberlite Chemicals India Pvt. Ltd., has received UL certification for its antiscalant water treatment chemicals. Posted on 20 Apr, 2010 11:25 AM

Underwriters Laboratories Certifies Kimberlite Chemicals for Health Effects in Drinking water

For Immediate Release

Underwriters Laboratories Certifies Kimberlite Chemicals for Health Effects in Drinking water
Kimberlite Chemicals Becomes First Indian Company to Earn UL
Certification for Antiscalant Water Treatment Chemicals

Bangalore, India, April 14 2010 – Underwriters Laboratories (UL), a global leader in drinking water quality and safety, today announced that Kimberlite Chemicals India Pvt.  Ltd., received UL certification for its antiscalant water treatment chemicals. Kimberlite’s antiscalant water treatment chemicals will now bear the UL Classified Water Quality Mark, indicating certification to ANSI/NSF Standard 60 for health effects.

UL launched its drinking water product certification program in India in 2009 and has been working with a number of Indian companies on a broad range of products including disinfection and oxidation chemicals, coagulants, drinking water treatment units, gaskets, butterfly valves, sediment filter cartridges and activated carbon.  Kimberlite, a renowned company known for its world-class technology product and service in the field of specialty chemicals and coatings, is the first Indian manufacturer to be certified through UL’s water program for antiscalant water treatment chemicals.

UL’s certification of Kimberlite’s antiscalant chemicals provides verification that these chemicals have been independently tested and validated to meet both industry standards for health effects in drinking water as well as UL’s rigorous certification requirements. Antiscalant chemicals are used to protect reverse osmosis (RO) membrane life and are used in industrial RO purifiers.

Using energy pricing as a tool for efficient, equitable and sustainable use of groundwater for irrigation
The paper analyzes the potential impacts of energy pricing on efficiency, equity and sustainability in groundwater use and agricultural development. Posted on 20 Apr, 2010 07:14 AM

The paper analyzes the potential impacts of energy pricing on efficiency, equity and sustainability in groundwater use. The overall objective of the study is to analyze the socio-economic viability of pro rata pricing of electricity in agriculture. Specific objectives are:

  • To study the impact of change in mode of electricity pricing on efficiency and sustainability of groundwater use by well owners
  • To analyze the overall impact of electricity pricing on the farming system of well owners, including the economic prospects of farming 
  • To analyze the impact of change in mode of electricity pricing on the functioning of water markets

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