What is Cleaning in Place? How does it work, and... should you use it? A basic primer from Burkert White Paper

What is Cleaning in Place? How does it work, and where
should you use it? A basic primer from Burkert
White Paper
September 2011
What is Cleaning in Place? How does
it work, and where should you use it?
A basic primer from Burkert
Timo Bleschke, Product manager pneumatic and process interfaces,
Bürkert Fluid Control Systems
Cleaning in Place (CIP) has been around for approximately 50 years, and
is commonly used in hygiene critical industries, such Food, Beverage
and Pharmaceutical, to clean a wide range of plant. CIP refers to the
use of a mix of chemicals, heat and water to clean machinery, vessels
or pipe work without dismantling plant. The process can be one shot,
where everything goes to drain, or recovery, which recycles most of the
liquid. Overall, CIP can be a very efficient way of cleaning.
The principles of CIP can be applied to any industry and plant where hygiene
is critical; and the process is usually an integral part of any automated plant.
Increasing Health and Safety legislation is set to make CIP more common,
which is a good thing because a shiny surface on the outside of plant is no
guarantee of cleanliness on the inside.
CIP is principally concerned with soil removal: soil being anything that should
not be present in a clean vessel. Soil can cause tainting and can often be
smelt. It can be visible (scale, foreign bodies,) or invisible in the form of bacte-
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ria, such as E Coli, or Yeast spores. The time needed to remove soil is at least
15 minutes using a suitable chemical (strength dependent on chemical supplier and product) at
temperatures above
50 degrees C, but
no greater than 75
degrees C because
there is no advantage to be gained
above this temperature.
Cleaning agents
Commonly used
chemicals for soil
removal include
In der Pharmazeutik werden hohe Anforderungen an CIP gestelllt
Caustic Soda, Phosphoric and Nitric
acids, Sodium Hypochlorite (Hypo) and Peracetic Acid (PAA). Caustic Soda is
an alkali typically used at 0.5% - 2% volume. It reacts with the fats in the soil
and softens it for removal. One downside is that Caustic Soda is not effective
for removing scaling. In addition, sequestriants are often added to keep soiling
in solution.
Phosphoric and Nitric Acids are used in detergent formulations for scale removal, often at lower temperatures than Caustic. These acids must be used with
care as they can attack valve and pump seals. They are often used in dairies
for one week in every 6 weeks to remove milk scale, and can be used after
commissioning to remove installation debris.
Sodium Hypochlorite (Hypo) offers the advantage of a very low cost. It is used
primarily for disinfection because its ability for soil removal is poor. The active
ingredient of Hypo is Chlorine (Bleach). This can corrode Stainless Steel in
high concentrations and will attack seals and personnel. It will also taint if not
rinsed out; and is dangerous if mixed with acid, forming Chlorine gas, which is
poisonous.
PAA is an equilibrium mixture of acetic acid and hydrogen peroxide. It is a
powerful oxidising agent with an oxidation capacity higher than sodium hypochlorite and chlorine dioxide, and is comparable to the oxidative capacity of
ozone. PAA at 75 mg/L is reported to successfully kill 100% of a 10(7) cell/ml
yeast or bacterial population in 30- seconds.
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CIP Line & Vessel Cleaning
When cleaning lines in process equipment using CIP, the correct fluid velocity must be achieved to obtain good cleaning. Laminar flow, from velocities
below 1.5m/sec does not give good cleaning characteristics. What is required
is turbulent flow at velocities between 1.5-2.1 m/sec. There is no gain at velocities above 2.1 m/sec.
In the cleaning of vessels two main
methods are generally employed. The
first uses high pressure cleaning heads
to remove soil by mechanical action:
the vessel surface being contacted in a
series of passes. The second method
employs low pressure cleaning heads
that rely purely on chemical action to
remove the soiling.
CIP Return
The majority of problems with CIP can
be attributed to poor CIP return. This
causes excessive CIP times, excessive use of detergent and heat with high
effluent discharge.
To overcome these problems the system for Return must quickly and efficiently return the cleaning solutions back
to the CIP Set. Critical in this respect is
the choice of scavenge pump.
Zuleitung von einem CIP-System zu dem Bereich der
Anlage, in dem die Reinigung durchgeführt werden
soll
Poor scavenge allows back up of
cleaning solution and poor cleaning
of the lower part of the vessel. In contrast, effective scavenge allows fresh
cleaning solutions to contact the vessel walls and carry away soil effectively.
CIP Optimisation
Most CIP sequences are never altered from post installation settings; these
are usually a set of “defaults” which are set on commissioning. However CIP
operators can optimise their systems by monitoring a number of key parameters. These are:
• What temperature and concentration (conductivity) are the Caustic tanks set
to? - often set too high with no added benefit.
• Consider the Pre-Rinse – does it run clear and then keep going?
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• Caustic Fill – how high are the Return Conductivity and Temperature Transmitters set?
• Intermediate Rinse – is it removing caustic solution and temperature prior to
sterilisation?
• Sterilisation – what strength is the sterilising agent and how long is the contact time?
Finally all changes resulting from the CIP monitoring process should be documented and validated to meet any statutory regulations, and/or specific client
requirements.
Case study
Burkert Saves £120,000 per
annum - or 40% - in CIP costs for
major pharmaceutical manufacturer
Converting a manual CIP process
to automatic across 80 reaction
vessels, using pressure transmitters, condition sensors and
flow meters, has enabled Burkert
to achieve savings of £120,000
per annum for a major UK pharmaceutical manufacturer.
Prior to the installation of the
Burkert system, the reaction tanks
were each cleaned for 6-hrs,
constantly flushed to drain with hot
Beispiel eines kompakten CIP-Systems, hier komplett ausgestattet mit Komponenten von Bürkert
water at 700C. This was a purely
manual process based upon operator experience, rather than positive
signals from the process that the cleaning procedure was complete.
The weekly costs for the manual cleaning procedure were substantial: energy
costs were running at around £4000, with water at approximately £1,000 and
effluent costs approaching the same figure. In total, the combined weekly figure across all activities included in the cleaning was £5,900; or a considerable
£295,000 per annum.
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Keen to reduce these costs, engineers at
the pharmaceutical manufacturer contacted Burkert. This resulted in a site visit to
view the manual CIP process. Following
the visit Burkert suggested a solution for
each reaction vessel based upon a Type
8311 pressure transmitter, a Type 8222
condition sensor and a Type 8041 flow
sensor. These products were installed on
a test group of the vessels and linked the
plant SCADA system. The CIP process
was then undertaken in an automatic
mode, with the 8222 condition monitor
providing effective feedback of when the
water in the vessel was clean – and hence
the vessel itself – to the SCADA system,
which terminated the process.
Der Einsatz des Bürkert-Systems wird beim Anwender vorraussichtlich zu jährlichen Einsparungen bei
der CIP-Reinigung von 40 % führen
equipment.
On the basis of the initial tests, engineers
at the pharmaceutical plant calculated that
their CIP costs would be reduced by 40%,
or £120,000 per year using the Burkert
“This application highlights the savings that can be achieved on even the
simplest of processes, as a result of consulting our specialist engineers,” said
Burkert UK Sales Manager, Neil Saunders. “All business sectors today are
incredibly competitive, so all opportunities to exploit so-called ‘low hanging
fruit’ have to taken and optimised upon. With our specialist knowledge and
leading edge product range this is exactly what we do: and the results speak
for themselves, as evidenced by this application.”
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Contact
How can we help you to optimise your CIP systems?
Any further questions? Then just contact us:
Timo Bleschke
Product management pneumatic and Process interfaces
Bürkert Fluid Control Systems
Bürkert Werke GmbH
Christian-Bürkert-Straße 13-17
74653 Ingelfingen
Tel: +49 7940 10-0
E-Mail: [email protected]
Website: www.buerkert.com
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