C2769 - Barclay Engineering Ltd - Wellington Region
Summary
As a result of a number of no and low costs CP options, Barclay
Engineering saves over $10,000 per year.
Business Profile
Barclay Engineering Limited manufactures plant of electrical
and plumbing fasteners and fittings and employs 40 staff.
The company designs and manufactures a range of 2000 to 3000
products by metal stamping and pressing. Products are manufactured
from brass, copper, aluminium, steel and stainless steel.
Type of Project
Water-based coolant, recycling of metalworking fluid through
centrifugation, bath lids to control evaporation, water-based
cleaning of aluminium parts, recycling of 111-trichloroethylene,
treatment of sludge with cement.
Reasons for Project
Barclay Engineering Ltd was interested in improving the environmental
performance of the business, by formally addressing CP opportunities.
The Project
Water-based coolant
| Details |
A working fluid is required
for cooling and lubrication. A water-based metal working
fluid rather than an oil-based fluid is used for the machining
of brass, copper and aluminium. This green coolant consists
of 60-80 parts water (acting coolant) and 1 part oil (acting
lubricant). Oil consumption is reduced with 1,400 L per
year (1,600 oil based coolant used previously compared
to 200 L green coolant base oil now). Chemical consumption
in subsequent metal cleaning steps is also reduced but
could not be quantified. Note that water-based fluid is
only used for metals that are machined on capsums. The
machining of steel, stainless steel and aluminium takes
place automatically and requires straight cutting oil. |
| Economics |
Economics Savings are $ 1,793
($2,080/1,600 L oil based coolant - $287/200 L green coolant).
No costs involved. |
| Benefits |
Benefits Reduced coolant consumption.
Reduced chemical consumption in cleaning phase. |
Recycling of metalworking fluid through centrifugation
| Details |
Cutting oil is used for metals
fabricated on automatic machines. Some oil attaches to
metal fines. As the metal fines are contaminated with
oil they are not accepted for metal recycling. A centrifuge
was purchased from a drycleaner and is used to centrifuge
the oil from the fines. A timer was installed to standardise
centrifugation times. The oil is reused and the metal
fines are recycled off-site. Annual oil consumption is
reduced by 4,095 L or thirty six 25 gallon drums (from
5,460 L to 1,395 L). Metal waste reduction was not determined. |
| Economics |
Savings: cutting oil 36 drums
X $220/drum = $7,920 per year. Reduced waste disposal
costs (metal fines) One-off costs: $450 for purchase centrifuge,
$150 for timer. Ongoing costs: electricity for centrifuge
8,831 X $0.10/kWh = $883 per year. |
| Benefits |
Reduced cutting oil consumption.
Reduced metal waste |
METAL CLEANING PROCESSES
Water-based cleaning of aluminium parts
| Details |
Water is used for the cleaning
of aluminium instead of kerosene, after it was determined
that the same results were obtained. The consumption of
200 L kerosene per year is eliminated. |
| Economics |
Economics Savings of kerosene
are approximately $800 per year. |
| Benefits |
Elimination of kerosene consumption
and emissions. Improved health and safety conditions for
employees |
Bath lids to control evaporation
| Details |
Evaporation takes place from
cleaning baths, especially 111-trichloroethylene and caustic
soda, because the chemicals are volatile and baths are
heated to 80-90oC. A lid was already used for the 111-trichloroethylene
bath and has now also been installed on the caustic soda
and chromic acid baths. |
| Economics |
Savings of cleaning bath chemicals
could not be determined. One-off costs: $10 ($5 per lid).
|
| Benefits |
Reduced emissions to the atmosphere.
Reduced chemical and water consumption for cleaning baths.
Improved health and safety conditions for employees. |
Recycling of 111-trichloroethylene
| Details |
As a result of metal cleaning,
111-trichloroethylene (111-tri) baths become contaminated
with metal fines, dirt and water from previous rinsing.
Each year 300 L of 111-tri is recycled onsite through
distillation. Less chemicals are used and disposed of
as trade waste. |
| Economics |
Savings on 111-tri are $961
per year. Costs for the distillation system are $460.
The payback period is 6 months |
| Benefits |
Reduced 111-tri consumption
and costs. Reduced trade waste. |
Treatment of sludge with cement
| Details |
Approximately 3 kg of sludge
is accumulated annually from the metal cleaning baths.
Amounts of less than 5 kg can be disposed of as solid
waste at the landfill. However, it is likely that the
sludge contains metals and acids, even though concentrations
have not been determined. Sludge used to be rinsed with
water prior to disposal to remove contaminants, creating
a contaminated wastewater stream. To treat the sludge
prior to disposal one shovel of cement should be mixed
with each kg of sludge to fix metals and neutralise acids.
This will work effectively where the pH is higher than
3. |
| Economics |
Costs: $10 year for 40 kg
bag cement. |
| Benefits |
Reduction of chemicals discharged
to trade waste. Compliance with trade waste bylaws. |
For additional information contact:
Arthur Barclay,
Barclay Engineering Ltd,
PO Box 35019,
Naenae,
Wellington
Ph 04-5676500
Fax 04-5679345
For further information about Cleaner Production in the
Metal Industry see:
Opus International Consultants (September 1997): Cleaner
Production Guide for the Metal Industry- Minimising waste,
reducing costs and caring for the environment.
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