Cleaning-in-place, or CIP, is a method used to clean piping systems and the attached equipment without the need to take the system apart. It is commonly used in the food processing, pharmaceutical, and cosmetic industries, which must meet very stringent cleanliness requirements. The flexible piping components used in these systems must also be able to withstand the harsh conditions required for effective cleaning in place programs. Here are some things to consider when specifying hoses or expansion joints.
An important measure of hose flexibility is the Minimum Bend Radius (MBR). While most everyone understands that this is the smallest radius to which a hose can be bent, the method of measuring this radius is often misunderstood. Additionally, while most hose constructions list a single MBR, corrugated metal hose lists two: a static and a dynamic MBR. Let’s take a minute to review the differences between static and dynamic MBR’s and when they should (or should not) be used.
With everything going on in the world right now a lot of companies are prioritizing finding ways to reduce costs. Budgets are being cut, projects are getting canceled, and everyone is trying to find ways to do more with less. Given this context, it’s possible that piping system upgrades and routine maintenance may be overlooked depending on the extent of other repairs and maintenance needed in a facility. However, neglecting a piping system update can carry risks of failure and corresponding downtime, which can ultimately cost a facility. Luckily, there are a few ways to upgrade a piping system that can save time and labor and result in an overall gain for the customer. Let’s take a look at some of the options available when updating a piping system and how they can help a facility successfully balance budget and performance.
It’s no secret that torque is a killer for metal hose. If you’ve ever attended Hose Master University, you’ve probably heard our corporate trainer’s well-known adage- “Don’t twist the hose!” Torsional stresses are something that you want to avoid completely in all metal hose assemblies. When Hose Master inspects corrugated metal hoses and looks for torsional stress, it’s typically after installation while the hose is in service. However, we should also be concerned with torsion that can happen before installation during the manufacturing process. This is referred to as residual torsional stress.
Residual torsional stress (RTS) is problematic because it accelerates fatigue to the metal, thus reducing the ultimate service life of the hose. A key indication of RTS is when a hose has a visibly twisted seam weld. Despite the issues created by RTS, it is inherent in many hose forming processes used today The only way to prevent RTS in metal hose is through avoiding the use of manufacturing methods that cause it. Let’s explore some of the ways residual torsional stress can be created during manufacturing.
A question we are frequently asked by our customers is “Can I use a metal hose for food-related applications?” It’s a simple question, but the answer isn’t always so simple.
The quick answer is no, metal hose generally cannot be used for the transfer of food-grade materials. This has nothing to do with the capabilities of the manufacturer or the quality of materials used in the hose. On the contrary, while the steel used may indeed be “food-grade,” the corrugations in the hose can potentially trap food media and make it difficult to clean the hose to the proper standard. Instead, you typically see PTFE hoses in these types of applications. The only exception to this would be if the media is at a temperature high enough to kill off any bacteria, which may allow for a metal hose to be used in some cases.
However, just because metal hose generally cannot be used to transfer food-grade materials does not mean that there are not applications for metal hose elsewhere in production! You just have to know where to look for them…
A key component of food production that requires the use of metal hose is clean-in-place (CIP) systems. Clean-in-place systems serve as a way to clean and sanitize the internal surface of a piping system as part of the routine cleaning of the production line or when production is being changed over to a different product. These systems utilize steam and chemicals (such as sodium hydroxide) to clean the piping system, which can be hard on any non-metal hoses that are used in the system. Instead, non-metal hoses are removed to be cleaned separately and metal hoses are installed in their place during the cleaning process. These metal hoses are better suited to handle the high heat and caustic cleaning solution running through the system, making metal hose an optimal solution for this application.
It’s no news that coal-fired generation is going by the way-side. Despite a recent resurgence in political support, coal is fighting an uphill battle on two major fronts: economically and environmentally. After the shale gas boom in the 2000’s, plummeting natural gas prices and rising environmental concerns have continued to make operating aging coal-fired plants less and less attractive – for owners and consumers alike. The recent slowdown issues with the pandemic are only exacerbating the conditions – as industrial and commercial sectors are the greatest consumers of electricity. With only the cleanest and most efficient plants left in operation (in 2010 coal generated 45% of the nation’s electricity, compared to 24% by the end of 2019) and the rest quickly moving towards eventual closure, we are witnessing a tremendous shift take place. So how is this shift going to resolve and what should we expect?
Fortunately for us in 2020 – the shift away from coal has been happening long enough that new generation capacity has already been under construction and is coming online just in time to replace the retiring coal plants. The economic downturn effecting industry has showed an acceleration in these trends – but natural gas and renewable outputs have been rising to pick up the slack for over a decade. In fact, the U.S. has been somewhat lagging behind in terms of progress towards renewables with some European countries already shutting down the last of their coal-fired plants. Though domestic renewables are indeed growing significantly – having nearly doubled in power production in the past ten years, and are expected to double-over again and overtake natural gas by 2050.
In modern steelmaking, heat rules. Heat changes coal into coke, melts ore into liquid iron, and converts iron into steel. All of these products must be transported from one process to the next, and hydraulic power units (HPUs) are employed to provide that power. Hydraulic hoses provide flexible connections between the HPUs and the equipment they power, and this is where problems can arise. Heat and hydraulics do not mix, and hydraulic power systems can experience premature hose failures unless a proactive approach is taken.
Most steel is made using one of two processes. The first is an Electric Arc Furnace (EAF), which uses scrap steel as the main feedstock. The scrap is charged into the furnace, where huge electrodes create an arc of electricity that melts the charge so it can then be refined and processed into the desired alloy. The second process is an integrated mill, where Blast Furnaces supply liquid iron to a Basic
There are several important factors to note when designing a metal hose assembly: alloy, fittings, media, pressure, and so on. One of the most crucial factors that is often taken for granted in industrial applications is hose length. Utilizing the incorrect length in an assembly can be detrimental to its cycle life and potentially result in failure in an assembly. If an assembly is too short, there is potential for the corrugation geometry to be deformed as the assembly is stretched between the connecting points. Conversely, if an assembly is too long it risks being over-bent as the hose tries to move out of its own way.
It comes as no surprise that metal corrugated hose is the preferred choice for high-temperature applications. But what about low-temperature applications? This is a question we frequently see from our customers. The simple answer is yes- metal hose is a great option for low-temperature applications. However, there are important factors that should be considered before making a recommendation.
Before recommending a particular hose for a low-temperature application, we first need to identify the conditions that the hose will experience while in service. For
As Albert Einstein once said, “The only source of knowledge is experience.” When it comes to interlocked hose, Hose Master has had a fair share of experience. While other product lines have been added and developed over the years, Hose Master has been manufacturing and continuously refining interlocked hose since the company opened its doors in 1982. During that time, they’ve seen hoses both excel in the field, as well as fail from a variety of factors. However, in their decades of experience, the majority of interlocked hose failures can be attributed to one of three failure modes: torque, abrasion, and over-bending.