Training Center: Elevate Your Expertise

Ideal for designers, operators and maintenance staff, this course will cover how control valves operate, fail in operation, and how to maintain and prevent the failure of your control valve.

In this hands on course, you’ll work with the valves on our testing rig. You’ll learn the best-practices for installation, ease of operation and the accessories required to achieve effective installation and maintenance.

Curated for designers and operators of fire protection pumping stations, this course will educate as to where relief valves need to be used in order to safely test a fire pump with accuracy and reliability.

We’ll cover noise, cavitation and the long-term reliability of the various valves in relation to their application.

In this course, we educate designers and operators of a variety of accredited to UL/FM pressure reducing valve designs that are designed to operate at fast controlling speeds, in order to meet hydrant and sprinklers fire suppression systems.

This course will cover the different designs and functions performed by a control valve when filling tanks, basins or reservoirs linked to fire networks.

Topics covered in this course:
– Best-practice designs
– Interaction with pump stations
– Interaction with gravity pipelines
– Valve selection
– Noise considerations
– Water quality issues
– Valve cavitation
– Water supply network designs

This course is curated for designers and operators of deluge fire suppression and deluge control valves in building, industrial and tunnels.

Here, we cover the different techniques and requirements used in dry and wet pilot line systems, pressure regulating deluge valves, and how they react, and perform, in a wide variety of extreme fire suppression applications.

This course covers the fundamentals when it comes to understanding and operating the hydraulic control valve.

Here, you’ll find information on the design of single and double chamber valves, how they operate, and how to use them across a variety of applications.

This course describes the best uses for 2 and 3 way hydraulic designs in various irrigation applications, the effective use of the Bermad sizing design software. We’ll cover how all of this, and more, can be used as an effective tool to ensure your valve selection is fit for each application.

This course is designed to assist both designers and distributors on how to select the correct irrigation control valve for field valve operation.

Here, you’ll find advice on how to control the different flow rates with accurate operation and the best-practices for installations using tape, PC drip, and sprinklers.

This course will cover the various installation and maintenance techniques for irrigation valves and how to incorporate different electrical solenoid options, including AC, DC, and DC latch solenoids, to ensure they’re fit for long-term installation.

This course provides designers and distributors with an understanding as to how to protect a pipeline and pump station from water hammer in cortical irrigation infrastructure.

This course will detail the various methods of controlling pumps; from generating surges to running in excessive flow applications that can lead to pump failure.

We’ll cover pipeline design and the varying solutions available to assist in avoiding over-pressure conditions in a variety of irrigation pipeline designs and applications.

Ideal for irrigation designers and distributors, this course covers the fundamentals when it comes to designing to control irrigation pivots or linear machines.

We’ll cover the different methods of controlling water flow and pressure in pivot design during filling, pump protections, and pivot infrastructure.

The Irrigation Pivot & Linear control valve course will cover end gun operation, system flushing, VRI options, safe methods of controlling valves in hot and colder climates, and more.

In this course, we’ll assist designers and operators on how to control water flows in complex irrigation schemes where many growers take water from a large, central scheme.

We’ll cover the design techniques used to assist in safely controlling the water to each grower outlet, while keeping the on-farm network safe from surges and water hammer.

In this course, we’ll cover how to incorporate air and control valves into various designs for irrigation filtration systems, such as: sand, disc, and screen automatic self-cleaning filters.

Here, we discuss requirements needed in order to design a pipeline incorporating air release valves in a variety of irrigation systems including: orchards, nurseries, vineyards, and more. Covering off designs fit multiple applications, we’ll discuss and determine the functions, operations, and techniques involved to create a successful design.

This course will help you determine the effectiveness of the different valve sizes across a range of individual pipe applications, as well as highlighting best-practice design installations and demonstrations, so that your air valve can operate without water hammer.

This course will cover the different technologies that are applied in mechanical water meters that are used for billing purposes in water supply.

Here, we’ll discuss the wear and tear, accuracy and best-practice engineering techniques that are used across domestic water supply.

We’ll showcase and demonstrate how to read meters remotely using various designs of communication from the meter to remote reading devices, as well as the requirements for water companies in relation to the standards that ensure the meter is used correctly for long-term installation.

In this course, we discuss how electromagnetic meters operate, and their purpose in irrigation pump stations. We’ll cover installation techniques, the different forms of communication used, methods of powering different designs, and best-practice engineering techniques.

This course will cover the accurate and effective installation, telemetry integration, and operation of electromagnetic meters, to ensure they are used correctly for long-term installation.

This course covers the fundamentals when it comes to understanding and operating the hydraulic control valve.

Here, you’ll find information on the design of single and double chamber valves, how they operate, and how to use them across a variety of applications.

Other course information covered:
– Inner actuator design
– Single and double cavitation
– Orifice plates
– V port throttling plugs
– Valve longevity
– Sizing design software

The control valve principles and valve selection course ensures your valve selection, installation and maintenance is done correctly and fit for every application.

Ideal for designers, operators and maintenance staff, this course will cover how control valves operate, fail in operation, and how to maintain and prevent the failure of your control valve.

In this hands on course, you’ll work with the valves on our testing rig. You’ll learn the best-practices for installation, ease of operation and the accessories required to achieve effective installation and maintenance.

In this course, we’ll discuss the issues that are generated in pumping stations in buildings that reflect water hammer in pipeline systems.

We’ll demonstrate the different techniques used to avoid pump cavitation, and various methods used to ensure we minimise the effects of water hammer in the network, should there be a power failure of the pump system.

This course covers the designs of single, multiple, and booster pump stations.

This course discusses the various hydraulic requirements needed to design an effective pressure reducing station in high rise buildings.

We’ll cover the the specific designs used in redundancy and maintenance, as well as best-practice designs.

This course incorporates the components associated with pressure reducing valve stations such as: strainers, isolation valves, pressure relief valves, air valves, and plumbing fittings, to ensure you have the perfect combination for a practical pressure reducing valve station.

In this course, learn you’ll learn about different designs and functions performed by level control valves when filling tanks in high rise buildings.

We’ll cover the various aspects of each design, and how they interact with a pump station or city supply without inducing water hammer.

We’ll discuss valve selection, noise considerations, water quality issues, and valve cavitation, so that best-practice designs are achieved and implemented in building supply networks.

This course covers the requirements needed when designing a pipeline with air release valves, for hot and cold water supplies, in buildings and high-rise apartments.

Here, we’ll discuss the different designs for various air release valves, their functions, operations, and connections to the different pipeline techniques.

We’ll cover how to correctly effectively size and select valves across individual applications, as well as best-practice design installations to ensure that your valves are working effectively in pipelines without water hammer.

In this course, we discuss how electromagnetic meters operate, and their purpose in building and high-rise apartments.

We’ll cover installation techniques, the different forms of communication used, methods of powering different designs, and best-practice engineering techniques.

This course will cover the accurate and effective installation, telemetry integration, and operation of electromagnetic meters, to ensure they are used correctly for long-term installation.

This course will cover the different technologies that are applied in mechanical water meters that are used for billing purposes in water supply.

Here, we’ll discuss the wear and tear, accuracy and best-practice engineering techniques that are used across domestic water supply.

We’ll showcase and demonstrate how to read meters remotely using various designs of communication from the meter to remote reading devices and the requirements for water companies in relation to the standards. This course will ensure your meter is used correctly for efficient and effective long-term installation.

Most water companies have specific requirements when it comes to the installation of suitable electromagnetic flow meters.

This course considers the varying requirements needed when it comes to reading trade waste discharge meters.

We’ll discuss the different design methods and the variety of communication forms from the meters to remote readers to ensure effective installation occurs.

Most water companies have specific requirements when it comes to the installation of suitable electromagnetic flow meters.

This course considers the varying requirements needed when it comes to reading trade waste discharge meters and discusses the different design methods, and the variety of communication forms; from the meters, to remote readers, to ensure effective installation occurs.

This course will cover the different technologies applied in mechanical water meters that are used for billing purposes in water supply.

Here, we’ll discuss the wear and tear, accuracy and best-practice engineering techniques used across domestic water supply.

We’ll showcase, and demonstrate, how to read meters remotely using various designs of communication from the meter to remote reading devices, as well as the requirements for water companies in relation to the standards that ensure the meter is used correctly for long-term installation.

This course provides insight into how electromagnetic meters operate and their purpose in water supply and sewage systems.

We’ll discuss various installation techniques, communication options, and the methods of powering different designs.

We’ll showcase best-practices for engineering, demonstrate the different installation techniques used to ensure accurate and effective operation, and how to integrate them into telemetry.

This course covers the requirements needed when designing a pipeline with air release valves for raw sewage or slurry pipelines.

Here, we’ll discuss the different designs for various air release valves, their functions, operations, and connections to the different pipeline techniques.

We’ll cover how to correctly effectively size and select valves across individual applications, as well as best-practice design installations and odour control techniques to ensure that your valves are working effectively in pipelines without water hammer.

Learn about the different requirements needed when designing a pipeline that incorporates air release valves.

Covering off designs fit for raw water or drinkable water pipelines, we’ll discuss and determine the functions, operations, connections, and techniques involved to create a successful design.

This course will help you determine the effectiveness of the different valve sizes across a range of individual pipe applications. Highlighting best-practice design installations and demonstrations, this course will ensure your air valve can operate effectively, efficiently, and without water hammer.

Here, you’ll learn about the complex condition of valve cavitation caused by burning high differential pressures across a variety of control valve applications.

This course will demonstrate how anti-cavitation valve design can be achieved safely without impacting on excessive valve wear and deterioration. In addition to this, we’ll discuss how to minimise noise at higher differentials and ensure practical designs are achieved in a multitude of external environments.

This course will cover the different designs and functions performed by a control valve when filling tanks, basins or reservoirs.

Topics covered in this course:
– Best-practice designs
– Interaction with pump stations
– Interaction with gravity pipelines
– Valve selection
– Noise considerations
– Water quality issues
– Valve cavitation
– Water supply network designs

In this course, we’ll discuss what an electronic control valve is, how SCADA is used in a variety of applications, such as: water transfer, altitude filling and basin filling.

We’ll discuss how to control valves via PLC control, how to link to telemetry, for both local or remote operation, and the different aspects of station design and maintenance.

Learn about the hydraulic requirements needed to design an effective pressure reducing station for water supply, the specific designs needed for redundancy and maintenance, and what a well designed pressure reducing valve station looks like.

Incorporating associated components such as: strainers, isolation valves, pressure relief valves, air valves and plumbing fittings, we’ll cover everything needed to combine for a practical station.

In this course, we’ll discuss the issues that may arise in pump stations that reflect water hammer in pipeline systems.

Here, we’ll demonstrate the different techniques used to avoid pump cavitation, and the methods that minimise the effects of water hammer in water networks.

This course covers single and multiple pump stations, booster pump stations, and a wide variety of pump station designs.

Ideal for designers, operators and maintenance staff, this course will cover how control valves operate, fail in operation, as well as maintenance and prevention when it comes to failure.

In this hands on course, you’ll work with the valves on our testing rig. You’ll learn best-practices for installation, ease of operation, and the accessories required to achieve effective installation and maintenance.

This course covers the fundamentals when it comes to understanding and operating hydraulic control valves.

Here, you’ll find information on the design of single and double chamber valves, how they operate, and how to use them across a variety of applications.

Other information covered in this course includes:
– Inner actuator design
– Single and double cavitation
– Orifice plates
– V port throttling plugs
– Valve longevity
– Sizing design software

The control valve principles and valve selection course ensures your valve selection, installation and maintenance is done correctly and fit for every application.

Do you have a specific requirement for training on any of the Bermad Water Technology products or services?

Speak to our team to get more information about the training topics we offer. Get in touch with our experts and submit an enquiry form.

Do you have a specific requirement for training on any of the Bermad Water Technology products or services?

Speak to our team to get more information about the training topics we offer. Get in touch with our experts and submit an enquiry form.

Do you have a specific requirement for training on any of the Bermad Water Technology products or services?

Speak to our team to get more information about the training topics we offer. Get in touch with our experts and submit an enquiry form.