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Going Green with Purging Compounds |
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Andrew Reeder, Moulds Plus International |
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Energy Savings
Summer
2010 |
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A company going green is not only socially responsible but also, financially
responsible. The best way for plastic processing companies to go green is by
reducing waste. The two most common forms of waste are scrap resin and wasted
energy. Hence, using an effective purging compound will reduce both scrap resin
and energy waste.
Purging
Purging a plastic processing machine can be financially and
environmentally expensive. Using resin to purge a machine requires a large
amount of energy due to the extended period of time it takes to clean the
machine. Purging a machine with resin also produces a substantial amount of
scrap because a large amount of resin is required to pass through the machine in
order to clean it. Therefore, in order to reduce waste and make purging more
efficient, companies should use a commercial purging compound. It is true that a
purging compound costs more per pound when compared to natural resin. However,
in comparison to the higher price per pound for a commercial purging compound,
using resin to purge results in excessive amount of scrap produced, unnecessary
energy consumed, and production time lost. All these factors result in a much
larger monetary and environmental loss.
Recyclable Purging Compounds
It also is important to note that not all purging compounds are equal.
Conventional purging compounds may reduce scrap and energy, however, very few
are recyclable. The scrap produced by recyclable purging compounds may be either
included with regrind and made into parts or sold to the plastic processor’s
scrap dealer. Purging compounds that are not recyclable must be thrown out; this
then ends up in a landfill and results in a less environmentally friendly method
of purging. Throwing out purging scraps also lowers profits because funds are
not recouped by selling them to the plastic processor’s scrap dealer or
including them with regrind to make parts. Check with a purging compound
supplier to see if recyclable grades are available.
Areas to Use a Purging Compound
There are three different areas in production where scrap and energy may be
reduced when using a purging compound. Traditionally, the largest factor
contributing to waste for processors is dark to light color changes. Using resin
to purge a machine will require many press barrel capacities to remove the dark
color, resulting in greater waste and more downtime. On the other hand, using an
efficient purging compound will require only one press barrel capacity to clean
the dark color from the machine.
Excessive waste also is common during material changes. Custom molders commonly
need to address this issue because of the many different resins they work with
on a daily basis. In many situations, the previous production resin will remain
in the machine and be a source of contamination. In these situations, using
resin to purge the machine will take much longer than a commercial purge
compound. Therefore, companies that work with a wide range of resins should
invest in a multi-purpose grade of purging compound that will be effective at
purging a wide spectrum of resins.
The third common need for a purging agent is when carbon (which shows up as
black specks) becomes a contamination issue. The best way to battle carbon
problems is to use a purge compound in a preventative maintenance fashion. If
the build-up of carbon becomes excessive, the only viable way to clean the screw
is to pull it apart and clean it manually. Thus, using a purging compound in the
beginning stages of carbonization will result in reduced scrap and energy and
ultimately will increase production. Therefore, it is highly recommended to use
a purge compound on shut-downs and start-ups in order to prevent carbon from
forming on the screw.
Measuring the Benefits
It is understandable that businesses need to justify the investment
involved with using a purging compound. Thus, data needs to be collected over a
large span of time in order to quantitatively demonstrate the environmental and
monetary savings from using a purging compound. Data should be collected on the
present purging procedures (without commercial purge compound) and on the
perspective commercial purging compound. The data collection should include
downtime, scrap resin produced, and the amount of purging compound needed. Every
plastic processing piece of equipment is unique in terms of power usage.
Therefore, downtime will have to be interpolated into power usage for each piece
of plastic processing equipment because of this variance.
Adjacent is a graph comparing the cost of using resin to purge a machine versus
the cost of using a commercial purging compound. The trial was performed on a
300 ton injection molding machine (with hot runners) going from red HDPE to
white HDPE. Using the Ultra Purge compound resulted in a 55 percent reduction in
material costs and a 75 percent reduction in downtime (machine time = $300/hr).
The total savings for this trial was $1,001.00. Please note: the energy
consumption was not estimated because the hourly power usage for this particular
injection molding press was unknown.
Conclusion
As the global population grows and technology advances, it becomes more
important that companies take action in order to reduce their carbon footprint.
A collective effort to decrease scrap resin and energy consumption by plastic
processing companies will equate to a large global effort in conserving
energy/resources and reducing pollution. Reducing a company’s carbon footprint
not only will be good for the environment but also, good for business.
Moulds Plus International is the manufacturer of Ultra Purge, a purging compound
for thermoplastic injection molders, blow molders, and extrusion companies.
Moulds Plus International has offices and distributors located around the world
to assist customers on a global level. Moulds Plus International offers free
samples of Ultra Purge and in-plant consultations. For more information, call
(877) 884-3129 or visit www.ultrapurge.com. |
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