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Singapore Turning its Raw Sewage into Ultra-Clean Purified Water

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Singapore Turning its Raw Sewage into Ultra-Clean Purified Water

The tiny nation of Singapore has limited natural water sources and has developed an advanced water purification system for treating sewage making purified water clean enough to drink.  The tiny Southeast Asian Nation has long had to rely on Malaysia to supply them with water.

To boost self-sufficiency, the Singaporean government has developed an advanced system for treating sewage involving a network of tunnels and high-tech plants to make purified water.

Recycled wastewater can now meet 40 percent of Singapore’s water demand — a figure that is expected to rise to 55 percent by 2060, according to the country’s water agency.

While most is used for industrial purposes, some of it is added to drinking water supplies in reservoirs in the city-state of 5.7 million people.

This is a contrast to most other countries — 80 percent of the world’s wastewater flows back into the ecosystem without being treated or reused, according to UN estimates.

Securing Singapore’s Water Needs

“Singapore lacks natural resources and it is limited in space, which is why we are always looking for ways to explore water sources and stretch our water supply,”said Low Pei Chin, chief engineer of the Public Utilities Board’s water reclamation department.

One key strategy is to “collect every drop” and “reuse endlessly”, she added.

This is in addition to the city-state’s other main approaches to securing water supplies — importing it, using reservoirs and desalinating seawater.

At the heart of the recycling system is the high-tech Changi Water Reclamation Plant on the city’s eastern coast.

Parts of the facility in land-scarce Singapore are underground — some as deep as 25 stories — and it is fed by wastewater that flows through a massive, 48-kilometre (30-mile) tunnel, linked to sewers.

The site houses a maze of steel pipes, tubes, tanks, filtration systems and other machinery, and can treat up to 900 million litres (237 million US gallons) of wastewater a day — enough to fill an Olympic-sized swimming pool every 24 hours for a year.

In one building, a network of ventilators have been installed to keep the air smelling fresh, although a putrid whiff still hangs in the air.

Expanding water purification System

Sewage that arrives at the plant undergoes an initial filtering process before powerful pumps send it flowing to facilities above ground for further water purification.

There, the treated water is further cleansed, with impurities like bacteria and viruses removed through advanced filtration processes, and disinfected with ultraviolet rays.

The end product, dubbed “NEWater”, is mainly used in microchip manufacturing plants — which are ubiquitous in the city-state and require high-quality water — and for cooling systems in buildings.

But it also helps boost drinking water supplies. During the dry season, it is sent to top up several man-made reservoirs and, following further treatment, flows to people’s taps.

Singapore is expanding its recycling system.

It will add an extra underground tunnel and a major water reclamation plant to serve the western half of the island, which should be completed by 2025.

Singapore will have spent Sg$10 billion (US$7.4 billion) on upgrading its water treatment infrastructure by the time the expansion is finished.

One impetus to seek greater self-sufficiency are the city-state’s historically fractious relations with key water source, Malaysia.

The neighbours have had stormy ties since Malaysia ejected Singapore from a short-lived union in 1965, and they have in the past had rows over water supplies.

Stefan Wuertz, a professor of environmental engineering at Singapore’s Nanyang Technological University, stressed the importance for other countries to treat wastewater more effectively into purified water, warning of serious long-term impacts otherwise.

“There is a limited amount of water on the planet,” he told NDTV News.

“If we were to keep polluting the freshwater, at some stage we would reach the point where… treatment becomes extremely expensive.”

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