Search

Digital economy is already a reality. Moreover, the European Commission has declared the next 10 years as the Digital Decade of Europe[1]. Digitalisation processes no longer affect only selected companies or industries, but are becoming universal and global. In the face of climate change, this is also a huge opportunity for water-related businesses.

  • Rainwater management systems
  • Innovations in the water and wastewater industry – BUMERANG SMART
  • BUMERANG SMART in Rzeszów – implementation and tangible benefits
  • WATERFOLDER platform – a modern tool for designing a retention tank 

9 March 2021. The European Commission has set out a vision and direction for Europe’s digital transformation by 2030. It considers that delivering a successful transformation is key to achieving the transition to a climate-neutral, resilient, closed-loop economy[2].

Rainwater management systems

Monitoring and remote operation are nowadays inseparable elements of modern water and sewerage systems, which translate, among other things, into greater safety in terms of flood protectionWith the development and expansion of water and sewerage networks, there is also a growing need for modern monitoring solutions for the operation of individual facilities, that may be located many kilometres away from each other.

Depending on specific needs, these include stand-alone control and monitoring systems, as well as configurations integrated into existing solutions. The aim of both is to improve the quality of operation of the entire water and wastewater network and its individual facilities, resulting in better management of rainwater retention and use.

Automation of the processes allows access to real-time data concerning the operation of the network and a more efficient response to any adverse events and emergencies. This helps to avoid unpleasant consequences, both legal and financial. The data collected provides support in the ongoing operation of the equipment, but is also used in long-term development plans.

How does an smart monitoring and management system for a water and wastewater system operate? Measuring devices in the form of probes, sensors or flow meters and remote-controlled actuators, such as pumping stations, gates or valves, are installed on individual sites.

The monitoring system feeds real-time data via radio or wired transmission to a cloud-based monitoring station equipped with, among others, process visualisation software. The data is collected and analysed and, in the event of undesired events, the system generates appropriate alarms and enables automatic execution of controls at remote facilities.

Innovation in the water and wastewater industry – the BUMERANG SMART system

BUMERANG SMART is an intelligent system for the management, control and monitoring of water and sewer networks. It can be an integral part of HYDROZONE storage tanks, but can also work in conjunction with other sewer, stormwater and sanitary network facilities.

The system minimises the need for local inspections of the facilities and allows for accurate scheduling of service dates. It also reduces the response time of technical services in the event of a breakdown, resulting in a high level of environmental safety.

Data from the system is made available to the user from a web browser. In addition, the system collects data from weather services and local rain gauges, allowing for more efficient rainwater management. It also allows the collection of actual measurement data to perform or optimise a hydrodynamic model for the stormwater drainage system.

BUMERANG SMART in Rzeszów – implementation and tangible benefits

Implemented at the end of 2020, the BUMERANG SMART system for the rainwater drainage system in the catchment area of the Budziwój housing estate in Rzeszów allows for the optimisation of the operation of retention tanks and more efficient use of rainwater stored in the tanks. BUMERANG SMART collects real-time data from the weather service and, at the moment of forecasted intensive rainfall, automatically starts the process of collecting rainwater in retention tanks.

When the tanks reach their maximum level, filling is stopped and the gate valve in the main manifold opens. During non-rainy periods, the water stored in the tanks is collected by barrel trucks and used for watering greenery and washing streets.

At the same time, the system constantly monitors the quality of water in the tanks. In the event of any information about irregularities and deterioration of certain parameters, the system triggers the opening of the discharge valve and the water is returned to the main collector.

The integration of BUMERANG SMART with a local weather station makes it possible to initiate the water harvesting process when the measurement from the rain gauge deviates from the forecast. This makes it possible to use the potential of rainwater even more efficiently!

If, during water collection, contamination of the system occurs and the oil layer in the oil separator exceeds a certain level, the system stops operation and the system triggers an alarm about the detected contamination and the interruption of filling. This is at the same time a signal to undertake the necessary maintenance work.

The WATERFOLDER platform – modern tool for selecting a storage tank

WATERFOLDER is the first platform that, thanks to the knowledge and experience of its engineers, allows the optimal selection and quick generation of specification text and drawings for devices of various manufacturers in the water and wastewater sector, as well as the estimation of their operating costs. Most of the tools have been developed with the participation of the manufacturers themselves, so that they are tailored to the realities of the market and respond to the specific needs of the designers.

The platform uses the PANDa rainfall model as a source of information on the intensity of median rainfall in Poland. Its basis is current rainfall data from three decades, recorded using 100 rain gauges that meet the necessary measurement standards.

More information on WATERFOLDER can be found at: www.waterfolder.com

[1] https://digital-strategy.ec.europa.eu/en/policies/europes-digital-decade
[2] https://ec.europa.eu/commission/presscorner/api/files/document/print/pl/ip_21_983/IP_21_983_PL.pdf

Rainwater and responsible water management in cities is not only a way to deal with increasingly scarce water resources and an antidote to torrential downpours and flooding. It is also a way to increase the comfort of residents and a key to improving quality of life in cities. Today, we would like to present you with 3 inspiring examples from around the world that should be a signpost for local authorities everywhere.

Why use rainwater?

The world is urbanising at an unprecedented rate. By 2050, the UN estimates that nearly 70% of the world’s population will live in urban areas. While urbanisation has brought us significant benefits, it has also had a detrimental impact on the ecosystem.

This is why modern agglomerations are more and more boldly turning to unusual solutions in the field of rainwater harvesting and transforming concrete deserts into green oases. And all this so that the inhabitants can not only live and work, but also relax in comfortable conditions.

Forest town of Tengah in Singapore

The world leader in urban greening is undoubtedly Singapore. Designers here are increasingly turning to so-called nature-based solutions that effectively mitigate the negative effects of climate change.

A huge futuristic housing project, dubbed by urban planners “Forest Town”, is being built in Tengah, located in the country’s western region and covering an area of 700 hectares. The project’s designers are working on the concept of a smart, sustainable metropolis.

The first housing development to be built within Forest Town was the Plantation District, surrounded by the multi-level Forest Fringe oasis. The district uses, among other things, an urban water harvesting system that aggregates rainwater for irrigation. An automated waste elimination system is also in operation here, which uses high velocity generated by air suction to transport household waste.
In addition to the Plantation District, other unique residential neighbourhoods such as Park, Garden, Brickland and Forest Hill are being developed in parallel.

Willow School in New Jersey

This unique school is located on a 34-hectare plot of land near the centre of Gladstone. The proximity of countryside, beautiful meadows and butterfly gardens are only a part of this unusual project, which aims not only at traditional teaching, but also at shaping a responsible and pro-ecological attitude in the youngest children.

Rainwater is used here, among other things, for flushing toilets and maintaining the surrounding planting, and waste is treated in the most environmentally friendly way possible. Sixty thousand types of grass and perennials have been planted on the school grounds, partly to reduce water consumption, but also to reduce the need to mow and fertilise the area.

Rainwater is collected in a large underground storage tank and then purified and stored in a 2274-litre tank in the basement. After purification, the water is further treated with ozone, so that it looks like pure drinking water. Another tanker with a capacity of 189,500 litres was installed in the new arts building. The school’s water system is constantly monitored, so students can keep track of how much water is actually reused. This state-of-the-art facility is an active learning centre where sustainability is a key element in the children’s relationship with the world of nature.

Green roofs at O’Hare Airport

Chicago’s O’Hare Airport is one of the largest of its kind in the world, with nearly 80 million passengers a year. It is a huge area with impermeable surfaces, which not only increases the energy consumption for air conditioning of airport buildings, but also raises the temperature and increases the so-called urban heat island effect.

The Chicago Department of Aviation therefore decided to create a green roof system and planted vegetation on 12 airport facilities, including the light control centre, car parks, car rental spaces and even the air traffic control tower, a first of its kind in the world.

The design makes it possible to retain 70-90% of rainwater in summer and 25-40% in winter. Vegetation on the roofs also improves thermal insulation, thus reducing heating costs in winter and cooling costs in summer. In addition, vegetation on the roofs absorbs sound waves produced by the aeroplanes. Just a 2.5 cm layer of vegetation on the roof can reduce the noise level entering the building by around 40 decibels!
The project is part of a new vision for the entire city, in which green roofs will be used on a much larger scale. We would also like to encourage such an approach to Polish local governments, declaring at the same time our full readiness to support them in their pro-ecological activities 🙂

Water makes up more than 70% of the surface of our planet. Unfortunately, fresh, drinkable water accounts for barely 3%, 70% of which is found in glaciers and snow, mainly in Antarctica. Meanwhile, Poland is one of the European countries with the least fresh water resources per capita. No wonder that the costs of supplying water to households are becoming an increasingly serious burden on local authority budgets and on the budgets of individual Polish families. Can we change this?

Why is water consumption increasing?

Water consumption is constantly increasing, and not just because of population growth. Our hygiene needs and overall consumption are also increasing. Water is needed to produce all the goods we use every day.

Meanwhile, we are buying more and more and getting rid of unwanted items or products faster and faster. Do you realise, for example, that it takes more than 17,000 litres of water to produce 1 kg of chocolate?

Excessive water consumption is also often due to our everyday small negligence within the household, such as a leaky tap, unnecessary running water when brushing teeth or washing dishes, or even an underloaded washing machine.

How to optimise water consumption?

Above all, by saving it and managing it rationally. “Appreciate water!” is the slogan for the last year’s World Water Day, reminding us what a priceless resource it is.

It turns out that we can significantly reduce our water consumption, especially drinking water, which is still being used for watering gardens, washing cars and other household sanitary purposes. How to reduce water costs? Smart retention and responsible rainwater management may be the solution.

Since joining the European Union, Poland has allocated over PLN 60 billion to construction and modernisation of water and sewage infrastructure. This is still not enough, however, and our environmental awareness leaves much to be desired…

Meanwhile, thanks to rainwater we can reduce consumption of tap water by up to a half, and thus significantly lower water costs and reduce the load on the sewage system. From a roof of 100 m2 we can collect up to 60 thousand litres of water per year!

Therefore, it is not surprising that both the Polish government and individual local authorities are increasingly willing to reach for various types of retention solutions and support them financially.

By collecting rainwater you can save thousands of litres of water a year!

What do water costs depend on?

Scale matters above all. Where the population density is higher, the price for water and sewage is relatively lower. It is assumed that it makes economic sense to build a sewerage network when there are more than 120 inhabitants per km of network. Therefore, as a rule, charges for water and sewage services are lower in large cities.

Often water and sewerage companies, especially in smaller towns and cities, have no competition, which allows them to exaggerate prices. If, at the same time, they do not try to reduce costs (which the competition forces them to do), prices for water and sewage can be really high there.

The cost of water in a city is also influenced by local geological conditions, financial means of the local authorities or, finally, economic potential of the community.

The last but extremely important element is the existing infrastructure and network efficiency, i.e. the level of expenses related to carrying out current repairs or removing failures. It also includes the often enormous losses of water and penalties associated with environmental pollution.

Who sets water tariffs?

Rates for water and sewage disposal are set by water and sewage companies. Price proposals are then submitted in a tariff application to the State Water Management Company Wody Polskie.

It is it that since 1 January 2018, based on the amendment of the Act of 20 July 2017 Water Law and the Act of 7 June 2001 on collective water supply and collective sewage disposal, it verifies the validity of proposed charges, which is supposed to protect citizens from unjustified price increases. If PGW Wody Polskie considers the water tariffs to be too high, they may reject the application.

Optimising urban water costs

A water and sewage company, like any company operating in the market, should have competition to offer its product at the lowest possible price. This is because it is then motivated to seek savings in production and operations. As a result, it effectively optimises its own costs.

So, how do you optimise water costs? The basis is a well thought-out strategy and consistent implementation of modern and responsible investments or modernisation of existing networks, which will reduce water consumption and improve its efficient use.

Such measures make it possible not only to reduce water consumption costs, but also to improve the quality of wastewater treatment and its processing. They are also necessary to ensure that the network will serve us for many years to come and that the price for the water supplied and sewage discharged will be socially acceptable.

Modern, more efficient and, above all, ecologically safe water and sewage networks based on modular systems of retention tanks, equipped with separators, pumping stations, dry-well pumping stations and other solutions for wastewater treatment or rainwater pre-treatment is certainly a major investment. In the long term, however, it can bring about a really significant reduction in the daily operating costs of such facilities.

What is smart retention about?

Smart retention is not only a modern solution for urban water and sewage networks, but also a way to manage and monitor them. Monitoring systems and remote control of devices installed in sewerage networks are slowly becoming a standard.

They contribute to an increased level of flood protection, enable better management of rainwater retention and use, efficiently manage the operation of the entire network, increase environmental safety, and ultimately significantly reduce costs.

One such system is the Bumerang SMART, which is an integral part of Ecol-Unicon’s range of water protection devices.

This state-of-the-art solution makes it possible to control (via the GSM network) the operation of individual devices in real time. If necessary, it also enables an immediate response to any undesirable events from any location – using mobile devices such as a laptop, tablet or phone.

All data, statuses and device states return to users like a boomerang and are made available to them from a web browser, along with the ability to remotely control individual components.

Thus, smart retention management systems represent the future of water cost optimisation in cities. As these solutions are both environmentally friendly and cost-effective, they are becoming increasingly popular with municipal authorities. An example is the investment in the Budziwój housing estate in Rzeszów.