杏吧APP

In 2020, with 杏吧APPin the grip of the worst drought in decades, it came out in the media that 杏吧APPpipes are leaking 50 million litres of water a day. That鈥檚 more than the 30 million litres a day Aucklanders were saving through conservation measures such as short showers. It鈥檚 even more than the 40 million litres a day the entire city of Dunedin uses.

A year later, Auckland鈥檚 water supply dams are still only half full and water restrictions remain in place. With climate change predicted to make many areas drier, University of 杏吧APPProfessor is working to help municipalities save water by finding leaks. 

Auckland鈥檚 water leakage rate is actually lower than that of other cities around Aotearoa New Zealand and the world, says Van Zyl, who is Watercare Chair in Infrastructure and a member of the Department of . However, performance is significantly better in Australia, where the long, severe Millennium drought forced the country to make massive infrastructure upgrades.

鈥淭o control leakage, we need a proper maintenance regime, which relies on having sufficient budgets. This requires increased water rates, which are unpopular with the public,鈥� says Van Zyl. 鈥淯nfortunately, we have a system where we vote for people who say what we want to hear, which is not the best way to address serious but slow-burning problems like water leakage or climate change.鈥�

Van Zyl and some of his colleagues developed and patented a technique that involves isolating a pipe and using an external pump to pump water into it. If there鈥檚 no leak, no inflow of water is necessary to maintain the pressure. Simple.

If there is a leak, the more sophisticated work starts. By changing the pressure in steps, Van Zyl and his team can measure the relationship between pressure and the leakage rate. With the knowledge they have of the factors affecting this relationship, such as the size and type of the leak as well as the properties of the pipe, such as diameter, wall thickness and pipe material properties, they can identify the type, size and often location of the leak.

Leaky pipes aren鈥檛 the only sustainability problem embedded in our water and wastewater systems. 

鈥淭he demand side is a huge part of it,鈥� says Van Zyl. 鈥淔or example, we take drinking-quality water and use it to flush our loos. There are reasons we do that 鈥� it鈥檚 more expensive and risky to build a dual pipe network than to just purify all the water to a high standard 鈥� but really we should move to waterless toilet systems, flush less or use rainwater or grey water to flush our toilets. We should also use rainwater or grey water to irrigate our lawns 鈥� or better yet, eliminate irrigation.鈥�

Another big issue is eliminating sewage pipe failures and overflows, says Van Zyl. Sewer pipes fulfil a critical public health function by safely removing contaminated water to treatment plants. However, when their capacities are exceeded, sewage can spill into the environment. It eventually ends up in the sea, leading to no-swim advisories, with as many as 50 of Auckland鈥檚 beaches affected after a major rainfall.

鈥淪ewage spills are mostly caused by a combination of reduced sewage capacity and increased flows through stormwater entering the system,鈥� says Van Zyl. 鈥淩educed sewer capacity is caused by many factors, including build-up of sediments, obstructions and plant root intrusions. Sewer systems are not designed for stormwater, and stormwater entering the system during rainfall events through illegitimate gutter connections or improper gully traps is probably the single biggest contributor to sewage overflows.鈥�

Like water pipes, sewer pipes are difficult to monitor. Sometimes municipalities send mobile CCTV cameras into main sewer pipes, but this is a slow and expensive process.

As Watercare Chair in Infrastructure, Van Zyl is working with Associate Professor to bring together people from a broad range of disciplines to address infrastructure-related problems.

鈥淚f we鈥檙e going to get to zero net carbon, we have to look at infrastructure holistically, not only from a technical point of view,鈥� says Van Zyl. 鈥淲e have to look at social, economic and health aspects too, because we鈥檙e going to need to make trade-offs and some of these are going to be tough.

鈥淔or example, some renewable energy projects have been prevented over the last decade due to environmental concerns.