There are many benefits to working with Wychwood Water Systems to design and build a complete water treatment system within an ISO shipping container. Having worked on numerous containerised water treatment systems, there are several common questions our clients usually ask:
There are many benefits to working with Wychwood Water Systems to design and build a complete water treatment system within an ISO shipping container. Having worked on numerous containerised water treatment systems, there are several common questions our clients usually ask:
The container is normally a single-use unit loaded only once in the journey from the country of original manufacture. The containers are of a standard design and are manufactured from corrosion-resistant Corian steel.
By converting the container for its new use, there are many options available:
The complete installation and the pre-commissioning of the containerised water treatment system can be finalised and tested at the factory before the final result is shipped to you.
The benefits of this approach are considerable:
This containerised approach is also very practical for export situations where the complete finalised package can be shipped overseas.
One thing is very clear, there is no substitute for good advice from a specialist company when considering the installation of a water treatment system.
For the best advice on water treatment systems relevant to your industry, or to request a FREE water treatment site assessment, please contact one of our experts at Wychwood Water Systems today and we will arrange to visit your premises and offer tailored advice depending on your needs.
To find out more about what Wychwood Water Systems can do to help, including the designing, manufacturing, installing & commissioning, servicing, and refurbishment of water treatment systems, view our services to find the ideal water treatment solution for you.
Better efficiency means increased productivity. However, water can be a bit of a slippery customer. It tends to go where it wants, resulting in water loss. The outcome is a range of inefficiencies, many of which can be deeply frustrating. If you’re concerned about losing water from your water treatment plant, read on.
There are two main types of water loss. The first is ‘apparent loss’. This refers to metrical inaccuracies that give false readings regarding water usage. Antiquated systems, data errors, and poor servicing are the primary culprits for apparent loss. The second type of water loss is ‘real loss’.
This means water that is lost due to leakage or overflows. Most companies are more concerned about real loss because escaped water can be highly damaging to equipment, buildings, and land. If the lost water has already been treated, it also represents a waste of investment.
Water loss is expensive. Over three billion litres are lost across the UK every day, and Ofwat – the economic regulator of the water sector in England and Wales – is a powerful taskmaster when it comes to taking action against companies. Aside from being a financial drain, water loss from treatment plants can be costly in other ways.
With climate change and the global food crisis now becoming very hot topics, reducing water wastage and increasing corporate sustainability is likely to become even more heavily regulated. Corporate Social Responsibility (CSR) influences brand identity, and therefore getting the ecological footprint wrong can result in a long-lasting PR dent and the loss of contracts. Prevention is always better than a cure, so minimising wastage has a wide range of long-term cost benefits.
Meters and software systems need to be regularly serviced. Meters are notoriously prone to losing accuracy, and many water treatment companies forget this invisible – yet expensive – issue. When combined with out-of-date data handling methods, the result can be a very misleading picture.
Data-handling issues tend to have their roots in human error, but legacy software can also be culpable. However, when a measurement is articulated as a priority and is fully risk-assessed, apparent losses are minimised. This helps with strategic planning and prevents unnecessary criticism from Ofwat.
Real losses tend to escape unnoticed until the situation reaches a critical point. This potentially deadly eventuality was captured on CCTV in 2017. The video shows a woman walking calmly down a street moments before the tarmac erupts like a liquid volcano, with surrounding roads quickly turning into rivers. Thankfully, leakage management is a very dynamic area of academic research, so solutions are becoming available. These begin with having the right equipment in place and keeping it serviced. This means sourcing reliable parts and using preemptive maintenance. This can be combined with prioritising speedy repairs, which prevents any issue from getting out of hand.
Sonar testing can be used to monitor the condition of underground pipes, whilst pressure management is important for preventing explosive pipe bursts. Controlling pressure can also limit unnecessary wear and tear on joints and valves, so is a good way of prolonging the health of a system and reducing downtime.
From financial reasons to CSR, every company requires water efficiency. For more information, please don’t hesitate to get in touch with our team of water treatment experts.
These plants typically include:
Interconnecting piping between components and systems
Cabling and wiring of instrumentation inside the container to main control cabinet
Operation and Maintenance manuals
General Arrangement 3D/2D CAD drawings
Temperature ("Hot/Cold" Containers)
In hot climate areas - electrical devices and fluids must be kept below 35ºC to ensure good process performance. The temperature inside a container placed under direct sunlight can easily reach 80ºC. Therefore, we offer air-cooled insulated containers with an external sunlight rejection coating.
In cold climate area - fluids must be kept above their freezing points and electrical equipment suffers at temperatures below 5ºC. In this case, we offer insulated containers with heating equipment to solve this issue.
What is containerized water treatmentcontainerized water treatment plant? Containerized water treatment systems have a number of key advantages over built-in plant space installations:
Where are containerized water treatment systems used?
Whether your application is drinking, process, or waste water. An on site containerized water or wastewater treatment system is more practical and cost effective instead of buying treated water or discharging the wastewater to water treatment facilities to remove harmful contaminants from the water. Here are some industries that employ the most use of containerized water treatment systems:
What is mobile water treatment plant?
Mobile water treatment and purification plants are designed to cover emergency, temporary solutions such as construction sites or long-term water treatment requirements. These mobile systems are installed inside a seaworthy 20 or 40 ft containers or in combination to form complete systems with advanced water treatment and purification technologies. Those mobile treatment containers units come with insulation, diamond flooring, LED lighting, climate control and service hatches. Our mobile or containerized solutions use brackish or seawater reverse osmosis, ion exchange, ultrafiltration systems, multimedia filtration, and MBR technologies, delivered through ocean or inland by trailers.
Benefits of mobile water treatment systems
An advantageous aspect of containerized solutions is its function as a mobile water treatment system for different sites once a task is completed. These systems are made to be flexible and durable for use in any setting, and come equipped with many options. Some of the aspects that our mobile water treatment systems are designed to address include:
The container is normally a single-use unit loaded only once in the journey from the country of original manufacture. The containers are of a standard design and are manufactured from corrosion-resistant Corian steel.
By converting the container for its new use, there are many options available:
The complete installation and the pre-commissioning of the containerised water treatment system can be finalised and tested at the factory before the final result is shipped to you.
The benefits of this approach are considerable:
This containerised approach is also very practical for export situations where the complete finalised package can be shipped overseas.
One thing is very clear, there is no substitute for good advice from a specialist company when considering the installation of a water treatment system.
For the best advice on water treatment systems relevant to your industry, or to request a FREE water treatment site assessment, please contact one of our experts at Wychwood Water Systems today and we will arrange to visit your premises and offer tailored advice depending on your needs.
To find out more about what Wychwood Water Systems can do to help, including the designing, manufacturing, installing & commissioning, servicing, and refurbishment of water treatment systems, view our services to find the ideal water treatment solution for you.
Better efficiency means increased productivity. However, water can be a bit of a slippery customer. It tends to go where it wants, resulting in water loss. The outcome is a range of inefficiencies, many of which can be deeply frustrating. If you’re concerned about losing water from your water treatment plant, read on.
There are two main types of water loss. The first is ‘apparent loss’. This refers to metrical inaccuracies that give false readings regarding water usage. Antiquated systems, data errors, and poor servicing are the primary culprits for apparent loss. The second type of water loss is ‘real loss’.
This means water that is lost due to leakage or overflows. Most companies are more concerned about real loss because escaped water can be highly damaging to equipment, buildings, and land. If the lost water has already been treated, it also represents a waste of investment.
Water loss is expensive. Over three billion litres are lost across the UK every day, and Ofwat – the economic regulator of the water sector in England and Wales – is a powerful taskmaster when it comes to taking action against companies. Aside from being a financial drain, water loss from treatment plants can be costly in other ways.
With climate change and the global food crisis now becoming very hot topics, reducing water wastage and increasing corporate sustainability is likely to become even more heavily regulated. Corporate Social Responsibility (CSR) influences brand identity, and therefore getting the ecological footprint wrong can result in a long-lasting PR dent and the loss of contracts. Prevention is always better than a cure, so minimising wastage has a wide range of long-term cost benefits.
Meters and software systems need to be regularly serviced. Meters are notoriously prone to losing accuracy, and many water treatment companies forget this invisible – yet expensive – issue. When combined with out-of-date data handling methods, the result can be a very misleading picture.
Data-handling issues tend to have their roots in human error, but legacy software can also be culpable. However, when a measurement is articulated as a priority and is fully risk-assessed, apparent losses are minimised. This helps with strategic planning and prevents unnecessary criticism from Ofwat.
Real losses tend to escape unnoticed until the situation reaches a critical point. This potentially deadly eventuality was captured on CCTV in 2017. The video shows a woman walking calmly down a street moments before the tarmac erupts like a liquid volcano, with surrounding roads quickly turning into rivers. Thankfully, leakage management is a very dynamic area of academic research, so solutions are becoming available. These begin with having the right equipment in place and keeping it serviced. This means sourcing reliable parts and using preemptive maintenance. This can be combined with prioritising speedy repairs, which prevents any issue from getting out of hand.
Are you interested in learning more about Rubber Water Dam? Contact us today to secure an expert consultation!
Sonar testing can be used to monitor the condition of underground pipes, whilst pressure management is important for preventing explosive pipe bursts. Controlling pressure can also limit unnecessary wear and tear on joints and valves, so is a good way of prolonging the health of a system and reducing downtime.
From financial reasons to CSR, every company requires water efficiency. For more information, please don’t hesitate to get in touch with our team of water treatment experts.
These plants typically include:
Interconnecting piping between components and systems
Cabling and wiring of instrumentation inside the container to main control cabinet
Operation and Maintenance manuals
General Arrangement 3D/2D CAD drawings
Temperature ("Hot/Cold" Containers)
In hot climate areas - electrical devices and fluids must be kept below 35ºC to ensure good process performance. The temperature inside a container placed under direct sunlight can easily reach 80ºC. Therefore, we offer air-cooled insulated containers with an external sunlight rejection coating.
In cold climate area - fluids must be kept above their freezing points and electrical equipment suffers at temperatures below 5ºC. In this case, we offer insulated containers with heating equipment to solve this issue.
What is containerized water treatment plant? Containerized water treatment systems have a number of key advantages over built-in plant space installations:
Where are containerized water treatment systems used?
Whether your application is drinking, process, or waste water. An on site containerized water or wastewater treatment system is more practical and cost effective instead of buying treated water or discharging the wastewater to water treatment facilities to remove harmful contaminants from the water. Here are some industries that employ the most use of containerized water treatment systems:
What is mobile water treatment plant?
Mobile water treatment and purification plants are designed to cover emergency, temporary solutions such as construction sites or long-term water treatment requirements. These mobile systems are installed inside a seaworthy 20 or 40 ft containers or in combination to form complete systems with advanced water treatment and purification technologies. Those mobile treatment containers units come with insulation, diamond flooring, LED lighting, climate control and service hatches. Our mobile or containerized solutions use brackish or seawater reverse osmosis, ion exchange, ultrafiltration systems, multimedia filtration, and MBR technologies, delivered through ocean or inland by trailers.
Benefits of mobile water treatment systems
An advantageous aspect of containerized solutions is its function as a mobile water treatment system for different sites once a task is completed. These systems are made to be flexible and durable for use in any setting, and come equipped with many options. Some of the aspects that our mobile water treatment systems are designed to address include:
If you want to learn more, please visit our website Rubber Dam Construction.