wt4603 unit6 week8-24-10-2011
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Wood Dust and Risk AssessmentTRANSCRIPT
WT4603 Wood Processing Safety & PracticeAUTUMN 2011Lecture Unit 6 – 24/10/2011
WOOD DUST & RISK ASSESSMENT Lecturer: Mr. Joseph Lyster [email protected] Notes prepared by: Mr. Michael Brennan and Mr. Joseph Lyster Notes available on www.slideshare.net/WT4603
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• A hazard is anything which has the potential to cause harm to life, health, property or the environment
• Generally speaking, untreated timber in bulk is not classified as a hazard
• However, when worked and processed some of the wood is broken down into tiny dust particles which can cause severe health problems
• Traditionally, wood dust was seen as an inconvenience in the workplace. However, in recent years research has highlighted the dangers of wood dust
Wood Dust
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• Research , such as that of Greenberg (2003) found that “workers exposed to dust in occupations such as furniture making, sanding and wood machining may have an increased risk of nasal and paranasal sinus cancer. Thus in 1994 the International Agency for Research on Cancer designated wood dust as a known carcinogen”
• Hardwood and M.D.F. have been classified by the I.A.R.C. as a class 1 carcinogen
Hard wood dust air sampling
Wood dust and Cancer
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• Asthma is a chronic (long term) lung disease• Asthma affects the airways• A persons airway is made up by a system of small tubes which carries air in
and out of the lungs• Asthma causes the airways to become extremely sensitive• This sensitivity causes the airways to react to things which would not
normally cause a problem, for example, cold air and wood dust• As the airways react to these stimuli, the muscular walls of the airways
contract, making breathing difficult. The lining of the airways also gets swollen, which promotes the production of mucus. This mucus clogs up the airways, hence adding to the difficulty breathing
Occupational Asthma
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• Tightening of the muscles around the airways (an asthma attack) can happen very quickly and is the most likely cause of mild asthma
• Such an attack can be relived quickly using the correct inhaler. Swelling of the mucus however takes much longer to treat and is particular dangerous in a bad asthma attack
• The main symptoms of asthma include shortness of breath, tightening of the chest dyspnoea wheezing coughing.
• These symptoms may develop at any time in ones life and may be episodic or persistent
Occupational Asthma
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•In accordance with the 1995 London Hazard Centre Fact Sheet on Wood Based Boards, manufactured boards can be divided into three sub groups:
Laminated BoardsParticle BoardsFibre Boards
•These boards consist of wood particles which may be glued or bonded together by formaldehyde resin•Formaldehyde is a strong irritant and sensitizer to humans and animals. The two main routes of exposure are inhalation and dermal contact
Formaldehyde
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•The short term health effects of formaldehyde exposure include“When formaldehyde is present in the air at levels exceeding 0.1 ppm, some individuals may experience health effects such as watery eyes; burning sensations of the eyes, nose, and throat; coughing; wheezing; nausea; and skin irritation. Some people are very sensitive to formaldehyde, while others have no reaction to the same level of exposure.” (www.cancer.gov)
•Although there is a lot of research and evidence on the short term health effects of formaldehyde exposure, very little is known about the long term health effects. •Many carcinogenicity studies have been carried out, the most relevant being the IARCs (International Agency for Research on Cancer) 2004 reclassification of formaldehyde as a known human carcinogen.
Formaldehyde
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•Isocyanates are chemical compounds. When they react with compounds containing alcohol (Hydroxyl) they produce polyurethane polymers, which are the basis of all polyurethane products, for example, polyurethane paint and glue
•In the woodwork room, Isocyanates are used as binders in manufactured boards such as Orientated Strad Board (O.S.B.), Medium Density Fibre Board (M.D.F.) and Particle Board
•Isocyanates are very suited for this role as being a urethane adhesive they have very good bonding properties.
Isocyantes
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•Although very useful, Isocyantes can have ill effects on human health.
“Acute or chronic exposure to high concentrations of isocyanates can result in respiroratry health effects through a direct irritant action” (Davies, 1984)
•Isocyanates have been shown to cause occupational asthma through a sensitising mechanism
•Subsequently, Isocyanates are now deemed to be the number one cause of occupational asthma (Chun-Yeung and Malo, 1994)
Isocyantes
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•As with all occupational asthma triggers, asthma symptoms vary in development “Extended exposure to isocyanate vapour at barely measureable levels can cause asthma or asthma like conditions in some individuals. Alternatively, a single event involving a high exposure may have similar effects.”
(Steven et al, 1999)
•Once a person has become sensitised, the individual may develop asthma like conditions after exposure to very low concentrations of isocyantes, even less than the Occupational Exposure Limit (O.E.L.)
•In the Technology room, the main form of isocyanate exposure comes from inhalation of dust from manufactured boards. Another potential route of exposure is the use of polyurethane based paints and varnishes (evaporation and sanding).
Isocyantes
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•Dust explosions are not a new phenomenon. Records such as those of the British coal mines during the nineteenth century highlight the existence of such incidents.What exactly is a dust explosion? “The phenomenon named dust explosion is in fact quite simple and easy to envisage in terms of daily light exposure. Any solid material that can burn in air will do so with a violence and speed that increases with increasing degree of subdivision of the material”
(Eckhoff 2003, p.1)
•This can be simplified as illustrated in fig 1.1. If a combustible material such as wood is ignited in a large solid form it burns slowly, releasing heat and energy over a long period of time. If the same piece of timber is cut up, it burns quicker and releases more energy due to the increased surface area exposed to oxygen in the air.
Wood Dust Explosion
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Wood Dust Explosion
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•The effects of a dust explosion can include death or serious injury to workers, destruction of plant and building, a large fireball, secondary explosions and fire. Dust explosions in wood dust extraction systems can be very catastrophic as :
“When a dust cloud ignites in an enclosed volume it results in a very rapid rise in pressure within the container. Typical peak pressures in laboratory apparatus are in the range 8-10 bar. In normal circumstances the plant or building will not be strong enough to withstand the pressure from the explosion and it will fail in a sudden and uncontrolled manor. Anyone close to exploding plant or inside a room where an explosion occurs is likely to be killed or seriously injured
(Health And Safety Executive 2003)
Wood Dust Explosion
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•Processing wood results in the creation of airborne dust particles. •These particles vary in size•It is commonly acknowledged that there are two particle size ranges which are of concern when studying Local Exhaust Ventilation.
Respirable – Reach the depth of the lungs
Inhalable – Dust that can be breathed in but gets caught in the nose, mouth and upper respiratory tract
Creation of Wood Dust
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•The size of wood dust particles depends on various factors
Creation of Wood Dust
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•Local exhaust ventilation (L.E.V.) is the most common method of removing potential airborne wood particles from a class room
•L.E.V. involves having an extraction unit located in close proximity of a dust source (i.e., a machine), which, in turn, draws the dust away before it becomes airborne
•Although it is almost impossible to have complete dust extraction, extraction systems are of vital importance as they control dust levels to within the occupational exposure limit
•There are two different types of L.E.V. which are used in Irish post primary schools and are specifically highlighted in circular letter M45/01. They are (a) Local system and (b) Centralised system
L.E.V
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•Local system comprises a fan and filter collection unit mounted adjacent to the machine and connected to dust outlets or a fan and filter collection unit that forms part of the machine
L.E.V
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•A centralised system comprises one or more larger fans and filter collection unit that is situated remote to the machine. A system of ductwork is connected to the central unit and the machines.
L.E.V
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• An Occupational Exposure Limits (O.E.L.) is the concentration of a hazardous substance in the workplace air which most people can be exposed to without any negative effects.
• The Occupational Exposure Limit for wood dust is laid down in the Health, Safety and Welfare (Chemical Agents) Regulations, 2001 10mg/m³ for inhalable dust 5mg/m³ for respirable dust
Circular letter M45/01 D.E.S. Incentive for the provision of wood dust extraction
systems in Irish second level schools
Occupational Exposure Limits
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(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
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(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
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(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
WT4603
(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
WT4603
(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
WT4603
(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
WT4603
(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
WT4603
(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
WT4603
(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
WT4603
(Reproduced from: Australian Wood Panel Association, 2006)
Department of Manufacturing & Operations Engineering
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Introduction: (Page 1 – side 1)i. Outline the purpose of this bookletii. Outline the sections to be containediii. Outline the machines to be assessed
Risk Assessment
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Nature of Environment: (Page 1 – side 1)i. Outline location (Main work shop SR2-047)ii. Outline who uses the environmentiii. Outline activities carried out in the environment
Risk Assessment
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Health & Safety: (Page 1 – side 2)i. Outline risk assessment as in HSA act 2005ii. Outline risk assessment as in BS4163iii. Both articles are quoted in Unit 1 and Unit 2 lecture notes
Risk Assessment
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Machine Provision: (Page 2 – side 1)i. Simple floor plan sketch of the workshop and the position of each machine to
be assessedii. Note safe paths marked out on workshop flooriii. Also note main power control and isolator positionsiv. Note that machines are CE marked
Risk Assessment
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Hazards, Risks and Risk Control Measures (Page 2 – side 2)i. Define a hazard (Give an example)ii. Define a risk (Give an example)iii. Define a risk control measure (Give an example)
Risk Assessment
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Risk Assessment Procedure (Page 2 – side 2)i. Show HSA cyclical model (Briefly explain each part of model)ii. Risk Assessment (Show a blank risk assessment matrix template – explain
parts)iii. Risk Magnitude (Show a blank risk magnitude matrix template – explain
parts)
Risk Assessment
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Workshop Health & Safety Management (Page 3 – Side 1)i. Note any regulations, conditions of work etc… posted on the walls.ii. Outline the different types of safety signage in the workshop (Show images)
Risk Assessment
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Machine & Power Tool Risk Assessment (Page 3 – 10: Side 1 & 2)
i. Machines to be assessed – Rip Saw, Surface Planer, Thicknesser, Bandsaw, Morticer, Pillar Drill and Router.
Risk Assessment
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i. Machine a. Describe Machine purposeb. Max of 2-3 labelled imagesc. List Existing Hazards/Control Measures (Use a table – 2 columns x
No. of rows)d. Risk Magnitude matrix for each Hazard Identified (Can vary
depending on Machine)e. Complete Risk Assessment matrix table outlining all information
Risk Assessment
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Risk Assessment: HSA Model
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Risk Magnitude
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Risk Magnitude
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RISK ASSESSMENTLocation: SR2-047 Date: 24-09-2010 Assessment Carried out by: Mr. Joe Lyster
Assessment of: PILLAR DRILL CE Marking (Machines): Yes □ No □
Page 1 of 1 Assessment Review Date: 24-09-2010
HAZARDRISK MAGNITUDE PERSONS AT RISK EXISTING CONTROLS REQUIRED CONTROLS PERSONS RESPONSIBLE TARGET DATE
Risk Assessment
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More information can be found byconsulting manufacturer’s manual
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Health & Safety at Work Act 2005
Pg. 30 of Health & Safety at Work Act
2005
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Hazards Risk Control Measures
1 Entanglement Lab coats, securing of long hair and loose garments/Jewellery
2 Violent Ejection Secure work piece properly, lock tailstock to bed
3 Piece Spinning RPM/Material size
4 Electric Shock Ensure electrical casing intact for all components
5 Cuts Swarf ejection, hand jewellery
6 Inadvertent Starting Flush start, stop cap control system, isolator
7 Pinch Point Mechanical belt adjustment
8 Moving Tool Rest Lock/clamp handle
Wood Turning Lathe
Risk Assessment
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1. ENTANGLEMENTSEVERITY
Slightly Harmful
Moderately Harmful
Quite Harmful
Very Harmful
Extremely Harmful
LIKELIHOO
D
Highly Unlikely Trivial Tolerable Tolerable Moderate Moderate
Quiet Unlikely Tolerable Tolerable Moderate Moderate Substantial
Likely Tolerable Moderate Moderate Substantial Substantial
Quite Likely Moderate Moderate Substantial Substantial Intolerable
Highly Likely Moderate Substantial Substantial Intolerable Intolerable
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2. VIOLENT EJECTIONSEVERITY
Slightly Harmful
Moderately Harmful
Quite Harmful
Very Harmful
Extremely Harmful
LIKELIHOO
D
Highly Unlikely Trivial Tolerable Tolerable Moderate Moderate
Quiet Unlikely Tolerable Tolerable Moderate Moderate Substantial
Likely Tolerable Moderate Moderate Substantial Substantial
Quite Likely Moderate Moderate Substantial Substantial Intolerable
Highly Likely Moderate Substantial Substantial Intolerable Intolerable
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3. PIECE SPINNINGSEVERITY
Slightly Harmful
Moderately Harmful
Quite Harmful
Very Harmful
Extremely Harmful
LIKELIHOO
D
Highly Unlikely Trivial Tolerable Tolerable Moderate Moderate
Quiet Unlikely Tolerable Tolerable Moderate Moderate Substantial
Likely Tolerable Moderate Moderate Substantial Substantial
Quite Likely Moderate Moderate Substantial Substantial Intolerable
Highly Likely Moderate Substantial Substantial Intolerable Intolerable
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4. ELECTRIC SHOCKSEVERITY
Slightly Harmful
Moderately Harmful
Quite Harmful
Very Harmful
Extremely Harmful
LIKELIHOO
D
Highly Unlikely Trivial Tolerable Tolerable Moderate Moderate
Quiet Unlikely Tolerable Tolerable Moderate Moderate Substantial
Likely Tolerable Moderate Moderate Substantial Substantial
Quite Likely Moderate Moderate Substantial Substantial Intolerable
Highly Likely Moderate Substantial Substantial Intolerable Intolerable
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5. CUTSSEVERITY
Slightly Harmful
Moderately Harmful
Quite Harmful
Very Harmful
Extremely Harmful
LIKELIHOO
D
Highly Unlikely Trivial Tolerable Tolerable Moderate Moderate
Quiet Unlikely Tolerable Tolerable Moderate Moderate Substantial
Likely Tolerable Moderate Moderate Substantial Substantial
Quite Likely Moderate Moderate Substantial Substantial Intolerable
Highly Likely Moderate Substantial Substantial Intolerable Intolerable
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6. INADVERTENT STARTING
SEVERITYSlightly Harmful
Moderately Harmful
Quite Harmful
Very Harmful
Extremely Harmful
LIKELIHOO
D
Highly Unlikely Trivial Tolerable Tolerable Moderate Moderate
Quiet Unlikely Tolerable Tolerable Moderate Moderate Substantial
Likely Tolerable Moderate Moderate Substantial Substantial
Quite Likely Moderate Moderate Substantial Substantial Intolerable
Highly Likely Moderate Substantial Substantial Intolerable Intolerable
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7. PINCH POINTSEVERITY
Slightly Harmful
Moderately Harmful
Quite Harmful
Very Harmful
Extremely Harmful
LIKELIHOO
D
Highly Unlikely Trivial Tolerable Tolerable Moderate Moderate
Quiet Unlikely Tolerable Tolerable Moderate Moderate Substantial
Likely Tolerable Moderate Moderate Substantial Substantial
Quite Likely Moderate Moderate Substantial Substantial Intolerable
Highly Likely Moderate Substantial Substantial Intolerable Intolerable
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8. MOVING TOOL RESTSEVERITY
Slightly Harmful
Moderately Harmful
Quite Harmful
Very Harmful
Extremely Harmful
LIKELIHOO
D
Highly Unlikely Trivial Tolerable Tolerable Moderate Moderate
Quiet Unlikely Tolerable Tolerable Moderate Moderate Substantial
Likely Tolerable Moderate Moderate Substantial Substantial
Quite Likely Moderate Moderate Substantial Substantial Intolerable
Highly Likely Moderate Substantial Substantial Intolerable Intolerable
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RISK ASSESSMENT
Location: SR2-047 Date: 24-09-2010 Assessment Carried out by: Mr. Joe Lyster
Assessment of: WOOD TURNING LATHE CE Marking (Machines): Yes No □□̷�
Page 1 of 1 Assessment Review Date: 12-11-2010
HAZARD RISK MAGNITUDE PERSONS AT RISK EXISTING CONTROLS REQUIRED CONTROLS PERSONS RESPONSIBLE TARGET DATE
1. Entanglement Intolerable User of Machine Securing Clothes/HairLab coats, securing of
long hair and loose garments/Jewellery
Teacher/Students 12-11-2010
2. Violent Ejection Substantial All in Class Headstock/Tail stock – material preparation
Secure work piece properly, lock
tailstock to bedTeacher/Students 12-11-2010
3. Piece Spinning Substantial All in Vicinity Clamping/Speed Set up RPM/Material size Teacher/Students 12-11-2010
4. Electric Shock Hazards Moderate User of Machine Inspection of
EquipmentElectrical casing intact
for all componentsTeacher/Students 12-11-2010
5. Cuts Substantial User of Machine Training/PPESwarf ejection, hand
jewellery, tool handing, User PPE i.e.
face shieldTeacher/Students 12-11-2010
6. Inadvertent Starting Moderate All in Vicinity Lockable Isolator
SwitchFlush start, stop cap
control system, isolator
Teacher/Students 12-11-2010
7. Pinch Point Substantial User of Machine TrainingMechanical belt
adjustment, chuck removal, tool
handlingTeacher/Students 12-11-2010
8. Moving Tool Rest Substantial User of Machine Bed lock handle Bed lock handle Teacher/Students 12-11-2010
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Revised Drawer Detail
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Revised Drawer Detail