by Komoneed | Feb 26, 2024
SA Water has just completed the single largest concrete pour at South Australia’s Bolivar Wastewater Treatment Plant — part of a $64 million upgrade that will create a new inlet structure at the facility.
More than 310 cubic metres of concrete was poured into the steel-lined base to create the inlet’s foundation, involving the coordination of around 50 mixing trucks across the complex 15-hour pour.
Bolivar’s new inlet is being built to increase the plant’s capacity to receive and process higher projected flow rates of sewage as Adelaide’s population grows.
SA Water’s Senior Manager of Capital Delivery, Peter Seltsikas, said along with the slab pour, the project has achieved a number of other milestones, including delivery of new screens that will be retrofitted on the inlet and act as the plant’s first line of defence, capturing and removing inorganic material.
“We’ve also recently started replacing three of our existing inlet pipes — which transfer raw sewage from across metropolitan Adelaide to the plant — while they remain temporarily connected to the existing inlet structure,” Seltsikas said.
Bolivar’s capacity to receive sewage from the network will more than double to about 630 million litres per day once the new inlet is operational.
A 20-tonne tower crane was deployed next to the inlet’s concrete slab to help crews lift equipment and pipes into place, along with large panels to facilitate concrete form work.
“Once the new inlet is complete, we’ll change the connections over and construct an additional three inlet pipes to accommodate increased flows that will come into the plant as the local population grows,” Seltsikas said.
“Despite ticking off the project’s single largest concrete pour, we anticipate we’ll need a further 1990 cubic metres, with our team now working on forming the concrete roof structure, overflow channels and walls.”
Seltsikas said SA Water hoped to begin installing the inlet’s mechanical equipment in the next few months. This process will involve eight customised screens, major support steel structure and ancillary items such as penstocks and stoplogs that control and isolate the flow of sewage.
To accommodate future projected flows, Bolivar’s capacity to receive sewage from the network will more than double to around 630 million litres per day once the new inlet is operational.
Top image caption: More than 310 cubic metres of concrete was poured into the steel-lined base to create the inlet’s foundation across the 15-hour operation.
by Komoneed | Feb 26, 2024
This post was originally published on UNDPSocial justice is climate justice in Tuvalu kate.smith@undp.org Wed, 02/21/2024 – 03:27 “Climate justice means providing a safe environment now for people, and for action now and not later. Scientists have predicted...
by Komoneed | Feb 26, 2024
Marine battery charging is a crucial aspect of ensuring a seamless and worry-free boating experience. In this comprehensive guide, we explore the world of marine battery chargers, discussing the different types, their applications, and how to ensure compatibility with your marine battery. We recommend reading our marine blog, which covers the basics of marine batteries, … Continued
by Komoneed | Feb 26, 2024
Our editors curate highly rated brands that are first assessed by our rigorous ratings system. Buying through our links may earn us a commission—supporting the work we do. Learn more. Our ratings team has scored 168 brands in the latest batch of brand ratings and uncovered some new, more sustainable brands worth checking out, […]
The post The 9 Best and Worst Newly Rated Brands of February appeared first on Good On You.
by Komoneed | Feb 26, 2024
Emus, which cannot take a backward step, are one half of our national coat of arms. Typically fearless of humans, Dromaius Novaehollandiae is unique to Australia, where it has roamed our sunlit plains for millions of years, and is believed to be a survivor of prehistoric times, with similar bone structures to dinosaurs.
Solar energy and emus belong together.
These ancient birds — reaching between 1.6 and 1.9 m tall, and capable of sprints up to 50 kph — have pecked a living from grasses, fruits, native plants and insects as they have roamed our sunlit plains and woodlands for millions of years.
In the wild, they can survive extended periods between drinks, consuming up to 18 L of water when available. But they have a very high water requirement in very hot weather and also benefit from regular supplies of refreshment to attain ideal condition when farmed for their meat, skin, oil, eggs and feathers.
“The wild population of emus — estimated at a healthy total of more than 600,000 — is protected by law. All birds used for commercial emu farming must be derived from farm-reared or captive stock, with these prized creatures getting a generous diet of ideal foods and a regulated daily drink to ensure they are healthy,” said irrigation specialist Peter Kidgell of the Yarrawonga branch of the national Water Dynamics organisation.
Kidgell was involved in a solar-powered irrigation project in partnership with Damien Kennedy Irrigation near Mulawa in NSW to help ensure the sustainability and cost-efficiency of an emu farm at Mt Gwynne that stocks up to 300 birds.
Grundfos Solar Q pumping technology.
An automated solar array that delivers the right amount of water at the time it is needed, with PLC control allowing this to be remotely adjusted according to conditions.
The technology involved — which he says has performed outstandingly well in its first year of service — is of an automated, remotely controlled integrated installation of a type that can be customised to other poultry and livestock industries needing assured daily supplies of water, delivered as efficiently and as sustainably as possible.
Central to the project is a PC-controlled array of 10 solar sets powering the 10 Grundfos Solar Q Submersible Solar Pump installations which draw water from a dam supplied by the Murray River. Each set is complete with six panels (max 150 LPM/500 kPa) powering the submersible pumps, which are of a range that can be automated for solar or wind power, depending on the location and type of installation.
These pump and solar array sets automate water supply to stock troughs in six paddocks, each of which also features an integrated and automated hydrant to supply water at zero running cost, Kidgell said. Excess water supply from the Solo system feeds back to the farmer’s dam, where a Grundfos Hydro Solo E system drives another pump set.
The system delivered is a complete package, extending from pumps, array frames, mounting poles, long-life polyethylene pipes and risers, and plug-and-play connections. It includes a Grundfos CU 200 SQ Flex controller incorporating status and simply operated control arrows for the power supply and float switch connection for the connection used to detect the level of a liquid in 18 L pressure tanks. The system can be programmed to send an alarm if the liquid level becomes too high or low.
“The beauty of a complete package such as this is that everything in it is optimised to work best with everything else on the particular system involved. With irrigation, one size or package type definitely does not fit all.
“A complete integrated and customised package takes full account of a host of factors, including site conditions and varying operating needs, and simplifies the skills needed to operate it. It also needs to be backed up with local onsite service as required and as the opportunity arises, a system can be upgraded in line with the onward march of technology. This is important, because irrigation technology is evolving as farmers of all types adapt to national imperatives, including metering requirements, and the business needs to get more productivity and sustainability out of less water,” Kidgell said.
Water Dynamics sees efficient irrigation as a critical input for agricultural production, playing an important role in food security in Australia and abroad.
“Given population growth and the need for food export growth in Australia, it is widely expected that the agricultural sector here will have to expand the use of irrigation over the years ahead,” Kidgell said. “This will become even more important as we have entered the El Niño drier phase of our climate patterns, which is expected to have a rising impact in the years ahead on this, the driest inhabited nation on earth.”
Even the hardiest of creatures — and emus have survived here for up to 80 million years — need their share of available water.
“These are big birds — the second biggest on earth behind their close relation, the ostrich — and at just a year old typically reach between 30 and 40 kg each. At that size, these ancient creatures really do appreciate the regular drink that modern technology can deliver.”
