Dec. 16, 2024
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Kai Feller
How do you choose the best valve control solution for your process automation application? Kai Feller of industrial automation and control manufacturers Festo asks the right questions &#; and provides the answers.The best place to start is with the media to be controlled, because it will affect the options available for the material of the valve. After the selection of the right type of valve the correct construction material has to be determined. If the media is aggressive or corrosive, then stainless steel is likely to be the best option. However, for many common applications &#; supply of cooling water in a machine for example &#; a brass ball valve or butterfly valve with polyamide coated discs are perfectly adequate. They also cost far less than the stainless steel alternatives. By making smart choices, it is possible to deliver both best quality and best price when selecting valves.The choice of operating pressure can have significant cost and energy implications. All valves are clearly pressure rated and there is a wide selection available. For butterfly valves, PN16 is the most common nominal rating specified for general industrial applications &#; but this does not mean it is the most efficient for your specific requirements. For example, if the process pump supplying the media will only ever deliver at 4 bar, or if the valve is mounted on the outlet of an open vessel, there is an opportunity to select lower media pressure ratings on the valve. Festo supplies its butterfly valves with different undercut discs which can lower the actuation torque if the maximum media pressure is lowered. The connection norm and the burst pressure rating of the valve remain unchanged. In turn, a lower pressure rated disc leads to a smaller, lower cost actuator.Actuators come in four basic types: manual, electric, hydraulic or pneumatic. The final selection will be influenced by the number of valves you want to control and whether functions like a failsafe option or adjustable speed are necessary. Air actuators are quite simple in design compared to electric actuators, so they offer lower initial and servicing costs. Pneumatic actuators can be very cost-effective for applications where more than three or four valves are involved &#; even where no dedicated compressed air supply is available. The pneumatic solution generally offers good feature selection and good value. Festo has developed tools to help its customers make lifecycle cost comparisons between electrical and pneumatic actuators.A double-acting pneumatic actuator fulfils basic safety requirements in most applications because it will stop in its current position if the compressed air supply is lost. It&#;s actually the less expensive option because it requires fewer internal parts and can be smaller in size, providing a cost optimised alternative to a single-acting actuator. For safety-critical operations, such as the transportation of flammable gas or liquids that present a contamination danger, a single actuator provides enhanced safety.Just as the process media will affect the materials specification for the valve itself, the environmental conditions in which the actuator is expected to operate will influence final selection. Don&#;t just think about the immediate working environment; consider nearby chemical dosing and cleaning regimes too. There is little point in paying a premium for stainless steel actuators if they are not necessary. If a standard aluminium actuator is not suitable, epoxy-coated actuators are cost-competitive and resistant to most chemicals (although they are not suitable for applications where they will be fully submerged). Our DFPD actuators can be ordered with coating options as well as different shaft materials, so Festo customers only pay for what they need.Ascertaining the compressed air network pressure is critical to optimising the sizing of pneumatic actuators. Industrial applications commonly use 5.5 or 6 bar systems as they are believed to be the most economical in general terms. However, where higher pressure is supplied a smaller actuator can be specified, which means a lower purchasing cost and a reduction in energy wastage. If the plant is running on a lower pressure a larger size actuator is required to ensure that safety factors are not compromised. In some circumstances it can be more cost-effective to install a local pressure booster to supply air to the actuator, rather than running the entire system to deliver at the actuator&#;s pressure rating. Our downloadable Process Valve Automation Tool helps customers to select the right actuator and valve combination for each given pressure across a range of suppliers and manufacturers. www.festo.co.uk/paa Some processes require precise control of fluids and gases, where a simple on/off function is not enough. We therefore need to consider modulating options. The market offers many electro-pneumatic positioners with numerous features which are capable of operating in the toughest environments as standard. However, ATEX compliance comes at a price. If your operation is not subject to extreme conditions then a cost effective alternative might be the CMSX from Festo, which has all the core control functionality without the Ex rating and fieldbus functions that more expensive positioners include. If the application is even simpler, then a 5/3 control valve with analogue sensor box is an adequate and low cost option.A valve terminal can supply multiple process valves and has fieldbus and communications connectivity built in. Specifying valve terminals reduces wiring requirements. In addition, valve terminals give visual status confirmation, diagnostics and functions like manual override at a convenient location which make commissioning and maintenance much easier because the controls are readily accessible. All these advantages sound expensive, but basic valve terminals can be very cost effective depending on the number of valves to be controlled. Savings can be even more significant once cost for installation, wiring, loop-checks and startup or even maintenance are taken into account. We have consultants who evaluate these options daily and are on hand to help specifiers make the best choice.Using blasts of air can initiate very quick changes to the state of equipment and this is not something that is always welcome in process control. Controlling the air flow to regulate speed and smoothness of operation is therefore important. Flow control valves can throttle the flow in and out of the actuator. Where the reduction in flow of the inlet air might lead to slip stick effect, the throttling of the outlet air can cause unwelcome side-effects. For instance, where single-acting actuators are used with a state-of-the-art Namur mounted solenoid valve the rebreather function will essentially make the valve faster. The main purpose of the rebreather function is to supply the spring chamber with clean process air instead of dusty and humid environmental air, reducing wear and corrosion. The correct way slow down the speed of these valves is a flow control plate, which is available with one way or two way control.Lubrication of moving parts is necessary to make sure that the pneumatic valves and actuators continue to give optimum performance. Traditionally this has entailed an ongoing maintenance requirement to check and top up lubricating oils; which not only has lifetime cost implications but also some environmental issues associated with it. Modern pneumatic systems for industrial applications now feature lifetime lubricants to offer trouble-free operation throughout their design life. The only challenge is to remember not to introduce any oils at all!: Email: : www.festo.com/gb
The two things that pop into our mind when speaking of cost-saving in valves are valve prices and regular maintenance-no doubt, the two most effective strategies to reduce valve costs. But in many cases, the valve&#;s maintenance needs might rise with time, and the money spent on maintenance might erode initial savings made when buying the valve.
Low-cost valves often need more maintenance and thus incur more costs in the long run. On the other hand, many expensive valves too have a complex maintenance procedure wherein you incur more costs.
These costs add up to huge amounts in case of big companies that have hundreds of valves.
The cost-saving thought thus, should not end at buying and maintenance of valves. A focus on reducing the total cost of valve ownership could open up many other avenues of cost-reduction in the long term.
Consider these 5 ways to reduce the total cost of ownership of your valves
Choose the right valve size
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We have addressed before, how right valve size improves valve performance. Oversize valves are sometimes deployed as added safety measures. Reports suggest that around 50% valves tend to be oversized. Deploying oversized valves leads to over expenditure on buying costs as well as on maintenance and operational fronts. This is best avoided.
Minimize the need for maintenance
Regular maintenance of the valves is of course a virtue. However, if the maintenance interval is short, it means you must frequently set aside time and money to inspect and repair the valves. Instead, you could take measures to make these intervals longer. For instance, valve working in dusty environments are often provided with modifications to protect from dust. This prolongs their life while minimizing the need for maintenance.
Check for quality
In a globalized world, valves are sourced from faraway places. It is difficult to monitor manufacturing and testing conditions. In such cases, ensure that the valve bears key testing certifications. For more information, check our blog on 4 vital certifications to check in a valve. At IPC, we address the customer&#;s concerns about traceability with effective solutions. The customers can now track the progress of their valves through the manufacturing and testing process and get their issues tackled at the earliest.
Consider valves that can switch roles
Valves are available in customized as well as modular designs. Customized valves can offer better performance for certain applications. However, in rare circumstances, if the entire line has to be shut down, these valves too become useless. However, modular valves can be removed and deployed into new roles. IPC supplies both standards and customized valves. Both have their own pros and cons. Depending on the size and needs of their business, the users must decide which valve to choose.
Ensure quick repair and replacement
Being able to quickly finish valve repairs, or replacing failed valves within a short time reduces your downtime. When choosing valves, look for valves that are easy to clean and repair and can be replaced quickly. Finding a reliable and trustworthy partner to supply valves could solve this problem. Sourcing all of your valves from a single supplier also ensures more reliability and ease of maintenance in your network.
Fulfilling the urgent need for durable high-performance valves has been IPC&#;s core focus for two decades. With capabilities to supply standardized valves in short lead time and dedicated post-sales service, IPC is an ideal long-term partner for your business. To know more about how we could help your business grow, get in touch with us at evalve@ipcvalves.com
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