Clean-in-Place (CIP) Systems

Most Sanitary Plants Weren't Designed For CIP

Many individuals approach us after having worked with numerous people who have failed to solve their problems. This is quite understandable because finding sanitary process engineers with extensive industry experience can be quite challenging. We have witnessed projects experiencing delays of up to 24 months because a consultant who lacked sanitary process experience was hired to solve a cleaning issue.

At DeJong Operations Management & Consulting LLC, we ensure that the problem is solved correctly the first time. We possess the necessary experience to implement proven practices in your plant, which will result in bacterial loads being within the acceptable range, peak production efficiency, and a much shorter implementation period.

To unlock the full potential of your business, schedule an exploratory call with one of our experts today. Fill out the form and take the first step towards  achieving your goals.

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Clean-In-Place Reduces Cleaning Time

Clean in Place (CIP) is an automated cleaning method for pipes, tanks, lines, and other sanitary process equipment. It involves soaking and agitation of systems to clean equipment surfaces without disassembly. This method is designed to reduce downtime and increase production capacity. DeJong Consulting is a renowned expert in plant construction, and one of our innovative retrofit features is CIP skids, which are being increasingly requested.

Advantages Of A CIP System

A Clean-In-Place system passes cleaning chemicals across all surfaces, removing product residue without requiring equipment removal or disassembly. It's a proven process that removes human error and automates hygienic practices.

Clean-in-place systems increase the consistency of a process line's cleaning process. The speed and consistency offered by CIP make it easier to increase the number of weekly cleaning cycles while decreasing the downtime required for cleaning processes.

Affordable CIP Solutions

Thanks to technological advances, clean-in-place technology is now more accessible to sanitary process factories. Additionally, added customization and automation are now available. If you've previously discounted using them, it's time for a second look.

Often, clients come to us after installing CIP systems but do not receive the time savings that they had expected. An effective CIP system uses multiple key processes that must work well with one another to deliver a proper end-cleaning result. Even a small error in the system construction can add hours of runtime. Often, we consult on these systems to optimize and improve runtimes.

What Is CIP Cleaning?

CIP is an automated clean-in-place system for sanitary food processing lines. The first CIP system was developed in the 1950s by Dale A Seiberling. Before that, all systems were disassembled and cleaned manually through physical scrubbing. This method has both high labor costs and also requires a greater downtime of the production line.

In the 1960s, the FDA began creating greater restrictions. Today, the process is highly standardized and repeatable, and it is a key component of modern food safety. Many existing Clean-Out-of-Place (COP) systems can be converted to clean-in-place. These conversions raise the productivity of a site while also decreasing food safety concerns.

In processing facilities, the HACCP (Hazard Analysis Critical Control Point) is a management system for analyzing and controlling biological contamination risks. CIP systems tend to support goals established by HACCP. Additionally, CIP can contribute greatly to reducing chemical exposure risk by eliminating handling points that might typically come into contact with sanitizing solutions, caustic soda (or other caustic washes), or any other chemical solutions associated with the cleaning.

Typical CIP Cycle

Generally, a typical CIP cycle consists of some combination of the below 8 steps.

1. Pre-rinse water

2. Heated caustic wash (detergent or caustic solutions)

3. Intermediate Rinse (rare)

4. Acid wash cycle (rare)

5. Intermediate Rinse (rare)

6. Sanitizing rinse (situational)

7. Final Rinse

8. System Drain

Each step is specifically calculated to create a reliable cleaning system. For example, fluid flow must be at the correct speed to create the proper amount of turbulent flow. Heat and detergent amounts are two important pieces that determine how long it will take to complete the cleaning cycle. The other two factors are the time and flow factors.

The most typical CIP cycle consists of pre-rinse, caustic wash, and post-rinse. All the other bells and whistles are possible, but often may be more than is needed to ensure the interior surface is clean throughout your process piping. We usually start from the simplest solution and work our way to the required complexity to solve cleaning problems with the least steps possible.

Cleaning Solutions

There are several proven cleaning solution types.

• Pre-Rinse: The primary goal is the removal of as much remaining soil from the process lines as possible. This step also provides a non-chemical integrity test of the CIP flow path before the chemical is introduced. Additionally, this step to remove residue helps to increase the effectiveness of the cleaning chemicals that will follow, which serves to help reduce overall chemical usage.

• Caustic Wash: This will often be a heated sodium hydroxide (or similar caustic base solution) wash that removes organic compounds. In many applications, it is part of the process to evaluate potential cleaning agents and either select an effective caustic solution from existing off-the-shelf available options or work with a chemical manufacturer to create a custom formulation. The important notes here are that the chemical concentration and formulation effectively neutralize the soils that remain on the process equipment surfaces after the pre-rinse. Additionally, this wash is usually very hot – most often, we see washes have the greatest effect between 160-200F.

• Acid Wash: The acid wash follows to neutralize the system's pH and dissolve the mineral scale. This typically applies to milk stone applications (in dairies) or in other mineral-laden processes. The other normal usage for an acid wash would be in more caustic environments that require regular re-passivation of the stainless steel piping and processing equipment product conduct surfaces.

• Sanitizing Rinse (may be used instead of Final Rinse): If a system will be left for any extended period of time before the next production process, it is often current good manufacturing practice to include Peracetic acid (also known as peroxyacetic acid, or PAA) in the final rinse to prevent bacterial buildup in any water that the system retains after the CIP circuits are completed.

• Final Rinse Water: Residual cleaning agents must be removed prior to the line resuming operation. In many CIP systems, this final rinse water is recaptured and will be heated and used for the pre-rinse of the next CIP regime, thereby adding some chemical properties to what would otherwise be only water. Additionally, this reduces the rinse water usage by roughly half (in most cases) and gives a way to get more mileage out of CIP cycles without adding to your cleaning chemical costs.

Chemical companies play an essential role in identifying the proper chemicals to break down your specific soil. They can be a critical resource in providing formulations for a CIP system. The downside of working with a chemical company is that they are paid by the gallon. As the saying goes, ‘To a hammer salesman, everything looks like a nail.'

While a chemical company is a vital part of an effective cleaning regimen, most CIP problems will require a company with more available solutions than the chemical formulation of the caustic or acid wash.

A good CIP system should have a repeatable recipe designed for effective cleaning. The best design for cleaning systems is one that allows operators to adjust the recipe as the plant changes. Process plants tend to have a constant stream of small changes – from processing equipment that is retired due to obsolesce or failure to changes to recipe or formulation that require reworking of existing circuits. The CIP process needs to be able to grow and change as the plant does.

As outside consultants, we are not paid for the amount of chemicals used. We often find efficiency and reduction usage opportunities. We can find areas of optimization to minimize carbon footprint, wastewater burden, and chemical costs. We also evaluate your CIP cycle (or manual cleaning) to determine if you're effectively using rinse water for pre-rinse and post-rinse, look at your chemical solutions, and evaluate any cleaning agent that you may be using.

Equipment evaluation is key as well. During this process, we check the spray devices in your storage tanks, test interior surfaces on valves and pumps as needed, and evaluate your system design to see if current good manufacturing practices are being followed by your sanitation program. Mix vessels can also be evaluated from drawings or in person to determine if there are shadowing or remaining contaminants that might require more powerful spray devices.