Eliment-1
Workplace Hazards And Risk Control
Health & Safety Effects Of InadequateLighting:- Eye Strain Headaches Poor Posture
Tripping Over Unseen Objects Increased Likelihood Of Error Increased Time To Evacuate
Factors To Consider In The Provision Of Adequate Lighting:- The Task Being Undertaken
The Layout And Size Of Work Area The Equipment Being Used Availability Of Natural Lighting Suitability Of Artificial Lighting The Shift Patterns
Glare From Computer Screens Areas In Shadow
Maintenance/Replacement Of Faulty Lighting Requirement For Emergency Lighting
Working In Hot Environment:-Health Effects Skin Burns Dehydration Heat Exhaustion Heat Cramps Heat Cataracts Heat Strokes Heat Stress
Radiant Heat Burns Protective Measures
Medical Pre-Selection Acclimatisation Cold Drinks
Mininise Exposure Shielding And Refuges Regular Work Breaks Ventilation
Control Of Humidity Suitable Clothing Heat Surveillance
Reducing Hot/Cold At Source Mechanical Aids
Working In A Cold Environment:-Health Effects Onset Of Fatigue Shivering Loss Of Dexterity Cold Burns Frostbite Hypothermia Precautions Thermal Clothing Reduced Exposure Monitoring
Follow Safe Mechanisms Alarms For Cold Stores
Workstations And Seating The Health Effects Of Working In A Seated
Position:- Vertebral And Muscular Damage High Blood Pressure
Circulation Problems E.G. Thermobasis Suitable Seat For Sedentary
Work:- Good Lumber Support
Ability To Adjust The Seat Back And Seat Height Provision Of Foot Rest
Stability Of The Seat Base Swivel Ability
Provision Of Arms Rest
Suitable Seat Material For The Environment Welfare Requirements
Sanitary Conveniences Washing Facilities Drinking Water
Accomodation For Clothing Facilities For Changing Clothing Facilities For Eating Meals
Working Environment Factors That Can Cause Stress:- Inadequate Lighting
Cramped/Dirty/Untidy Conditions Poor Layout(Privacy/Security) Glare,Temperature/Humidity Inadequate Ventilation/Stale Air Noise,Viberation
Inadequate Welfare Facilities Inclement Weather Conditions
Violence At Work Hse
Definition:-Any Incident In Which A Person Abused,Threatened Or Assulted In Circumstances Relating To Their Work.
Areas Of Violence At Work Internal
Violence:-By Fellow Employees And This Can Involve Bullying. External
Violence:-Physical,Verbal Aggressionand Assult By People Outside The Organisation. Persons At Risk(Violence)
Work Involving Direct Contact With Public(Hospitals/Shops) Work Where Money Or Valuables Stores
Stressful And Emotive Circumstances Exist
Work With People Suffering Mental Impairments(Illness,Injury) Working Alone(Taxi Drivers,Police And Security Guards)
Preventing
Measures:- Queue Management And Information Less Face To Face Contact
Use “Cashless Systems” I.E. Direct Debit Or Card Payment Check Credentials And Locations
Avoid Lone Working In High Risk Areas
Call In Systems For Lone Workers,Video Cameras,Alarms Arrangements For Staff Working Late And Employee Training Change Public Waiting Areas,Wider Counters
Provide Staff With Escape Routes And Protective Screens/Security Codes Signs Of Drug Misuse Which You Might Look For
Include:- Sudden Mood Changes
Unusual Irritabilit Or Aggression A Tedenvcy To Become Confused
Abnormal Fluctuactions In Concentration And Energy Impaired Job Performance
Poor Time Keeping
Increased Short Term Sickness Absence
A Detrioration In Relationships With Collegues,Customers Or Management Dishonesty And Theft
Establing Drugs And Alcohol Policy At Work:- All New Applicants Will Be Screened
Random Testing Will Be Applied Automatically Test Will Apply To All Staff
Testing Will Be Carried Out After Specific Incidents Training For Supervision To Recognise The Problem
What Help The Employer Will Make Available To The Employee
If An Employee Brings To The Attention Of The Employer They Have A Problem It Will Be Treated With Confidence
What Are The Disciplinary Actions The Employer Will Take Movement Of The People In
Workplace:- Falls From Height Falls On The Same Level
Factors Contributing To
Slips,Trips:- The Floor Surface:-Slippary Surface,Holes,Uneven Surface Etc. Contaminations:-Spillages,Leakes
Obstructions:-Rubbish,Trailing Cables,Rugs Etc. The Task:-Carrying Loads,Space To Work Enironment:-Lighting
Footwear:-Unsuitable Foot Wear The People:-Unaware Of The Dangers Slips And Trips
Precautions:- Designated Walkways Where Possible Ensure Walkways Are Level
Ensure Walkways Are Non Slip
Well Lit And Clearly Marked Walk Ways Procedures To Identify Problems Quickly Eliminate Need To Carry Loads
Make Employer Aware Of The Hazards Employees Precautions To Avoid
Slips:- Follow Designated Walking Routes Wear Appropriate Footwear Avoid Walking On Uneven Surfaces
Avoid Areas Where Spillages Have Occured Avoid Poorly Lit Areas
Report Any Problems Immediately Causes Of Slips On
Stairs:- Inadequate Design Poor Housekeeping Poor Lighting
Slippary Surfaces Or Unsuitanle Footwear Damaged Flooring Or Coverings
Manual Handling/Rushing Action To Prevent Slips On
Stairs:- Adequate Width Of Walkways/Stairs And Handrails Fitted Remove Obstructions/Trailing Cables
Improve Lighting Level And Install Emergency Lighting Non Slip Surfaces/Spillages Procedures/Covered Stairs
Maintenance/Repair And Report Defects Use Lifts For Loads/Site Rues
Working At Height
Precautions:- All Work At Height Is Properly Planned And Organised Those Involved In Work At Height Are Competent
Work At Height Is Risk Assessed And Appropriate Work Equipment Is Selected Risk From Fragile Surfaces Are Properly Controlled
Equipment Is Properly Inspected And Maintained
Working At Height Hierarchy Avoid Working At Height Wherever Possible
Use Work Equipment Or Other Measures To Prevent Falls Where Working At Height Cannot Be Avoided
Where The Risk Of Falls Cannot Be Eliminated Use Work Equipment Or Other Measures To Minimise The Distance And Consequences Of A Fall Should One Occur
Hazards To Pedestrains
Struck By Moving,Falling Or Flying Objects Striking Against Fixed Or Stationary Objects Housekeeping Issues
Housekeeping A Place For Everything,Everything In Its Place.
Hazards:- Someone Could Trip Or Fall Increased Risk Of Fire Fire Exits Could Be Blocked There Is A Risk Of Infection Chemicals Are Being Used
Infestation(That Allows Breeding Of Rats,Cockroaches Etc) Vehicle Collosions
Falling Materials
Responsibilities For Housekeeping Resources For Good Housekeeping Train Staff In Use Of Equipment Regular Inspections
Controlmeasures For Pedestrain Hazards:- The Floor Surface
Contamination Obstructions The Task Environment Footwear The People Construction-Effective
Management:-Management Of Significant Construction Project The Five Key Parties
Are:-1. The Client 2. Consultants 3. Designers
5. Other Contractors Client’s
Duties:- Appoint Competent Consultant Appoint Competent Designers
Appoint Competent Principal Contractor
Ensure Those Appointed Have Adequate Resources Consultant’s
Duties:- Advise Client On Selection Of Designers,Contractors Etc Collect Pre-Construction Information
Ensure Co-Operation Between Different Designers Give Advice To Clients And Contractors
Provide Client With Relevent Documentation Designer’s
Duties:- Ensure Clients Kept Informed
Structures Designers To Avoid Risks To Health And Safety While Being Built And Maintained Ensure To Avoid Or Minimise Risks
Provide Information About Materials Co-Operate With Other Designers Provide Information To Consultants Principal Contractor’s
Duties:- Provide Information To Client And Consultant Consider Health And Safety When Preparing Tender Develop Safety Plan For Construction
Co-Ordinate Activities Of All Contractors
Ensure All On Site Company With Health And Safety Rules Take Steps To Ensure Only Authorised Persons On Site Provide Health And Safety Information To All Necessary Sub-Contractor’s
Duties:- Must Co-Operate With Principal Contractor
Provide Relevent Infotrmation To Principal Contractor Comply With Directions Given By Principal Contractors
Should Provide Principal Contractor With Information On Accidents Other Requirements (Client/Management)
Pre Construction Information Construction Phase Of The Project The Project File
Site Precautions
Additional Precautions For Children Site
Security:-Precautions For Preventing Children To Gain Access Include:- Fencing Hoardings Warning Signs Security Boards Visiting Schools Viewing Panels
Precautions To Be Taken Should Access Be Gained By Unauthorised Trespassers:- Covering Or Fencing Excavations
Removing Ladders
Immobilising Plant/Machinery Locking Away Chemicals/Tools Reducing Height Of Materials Isolating Services
Clearing Away Rubbish And Debris Construction
Hazards:- Falls From Height Fragile Roofs Falling Objects,Slips,Trips Excavations Demolition Explosives Working In Or On Water Working In Tunnels Vehicles Traffic Movements Plant And Equipment Doors And Gates
Lighting And Weather Stability Fire
Material Storage Methods Of Demolition:-1. By Hand 2. By Machine Pusher Arm Demolition Ball Impact Hammer 3. By Chemical Agent Demolition By Explosives Hydraulic Bursters Hot Cutting
Expanding Demolition Agents High Pressure Water Jetting Hazards Of
Demolition:- Falling Debris,Masonary Premature Collapse Of Building Falls From Height Or On Same Level Services E.G. Gas And Water Explosion And Fire
Chemical Contamination E.G. Lead Dust,Silica Dust Asbestos
Biological Hazards Manual Handling The Use Of Explosives Collision With Heavy Plant
Noise E.G. Neumatic Drills,Power Tools Safe System Of Work
(Demolition):-1. Protection Of Public Restricted Areas Safe Distances Airbone Contamination 2. Protection Of Workforce Sequence Of Demolition Permit Systems Existing/Temporary Services Flammables Segeration
Ppe
Precautions During
Demolition:- Identification And Isolation Of Services Barriers,Fences Restricted Access Means Of Preventing Falls Means Of Suppressing Dust
Identification/Removal Of Hazardous Substances Competent Staff-Clear Responsibilities
Preventing Premature Collapse Sequence Of Demolition Followed Properly Maintained Equipment Hazards Of Roof
Work:- Fragile Roof Materials Roof Edges
Slippary Sloping Roof Surfaces Materials Falling From Roof
Contact With Overhead Electricity Cables Hot Bitumen
Liquified Patroleum Gases Manual Handling Types Of Roofs:- Pitched Roofs Flat Roofs Fragile Roofs Roof Work Falling Off Falling Through
No Edge Protection Fragile Materiaals Slippary Surfaces No Crawling Boards Handling Materials
Precautions:- Carry Out Survey Safe Means Of Access Roof Edge Barriers
Roof Ladders/Crawling Boards
Facilities To Raise And Lower Materials Protection For Persons Below
Provision Of Harness No Work In Severe Weather Competent Workers
Bitumen Flat Roof Precautions:- Safe Use Of Bitumen Boilers Safe Use Of Burning Gases Training In Manual Handling Fragile Roof
Precautions:- Crawl Boards
Running Line And Safety Harness Barriers Or Covers To Roof Roof Edge Protection Covers To Roof Lights Fall Arrest
Equipment:- Harness And Running Line Netting
Safety Belt Fall Arrester Full Body Harness Ladder’s
Hazards:- Over Reaching From Ladder Unsecured/Unstable Ladder
Ladder Not Extended Above Step Off Point Using A Damaged/Worn Ladder
Metal Ladder Contact With Electrical Cables Falling Material Being Carried Up Ladder Vehicle Collision With Base Of Ladder Manual Handling
Ladder:- Don’t Use Maake Shift Ladder
Don’t Use A Ladder Which Is Too Short
Don’t Stand A Ladder On A Drum,Box Or Other Unsteady Base Don’t Overload A Ladder
Over Reaching
Don’t Use Ladders With Cracked Or Broken Rungs Minimise Hazards Of Ladder Use:-(Preventions)
Ladder Rested On A Firm Level Base
Use Of Stabilization Devices Or Otherwise Footed Secure Ladder By Correct Angle 75* Or 1:4 Ratio Tied Off At Top
Extend Suitable Distance Above Step Off Point (1 Metre Min) The Top Of The Ladder Against A Solid Surface
Use Wooden Ladder Near Overhead Cables Provide Equipment Raise Materiaals Provide Holsters To Carry Loads
Only One Person At One Time On A Ladder
Rungs Should Be Clear Of Grease,Oil Or Other Slippary Substance Barriers Of Base And Display Warning Signs
Use Of Ladder By Only Trained Users Assistance When Moving/Erecting Ladder Inspection And Maintenance Of Ladders Ladder Register
Step Ladder
Precautions:- Inspected For Defects Before Use Correctly Positioned On Even Ground Suitable For Task
Footed If Necessary Avoid Over Reaching Not Overloaded
Positioned On Even Ground No Work Carried Off Top Step
Worker Maintains Three Point Contact Properly Errected And Legs Fully Extended
Through Tie Reveal Tie
Scaffold Types And
Spacings:-Duty Use Of Platform Max. Bay
Very Light Duty Inspection,Painting,Stone Cleaning,
Access 2.7m
Light Duty Plastering,Painting,Glazing,Pointing 2.4m General Purpose General Building
E.G. Brick Work 2.1m
Heavy Duty Block Work,Brick Work,
Heavy Cladding 2.0m
Masonary Or Special Duty Masonary,Concrete,Block,Very Heavy
Cladding 1.8m
Reasons For Scaffold Collapse:- Wrong Materials Unstable Foundations Improperly Designed Improper Irection Overloading Modified Incorrectly Undermined By Excavations Hit By Machinery Excessive Winds/Rain Inspection Of
Scaffold:- Base-Firm Ground And Sole Plates Line Of Standards And Ledger
Spacing Of Transoms To Support Boards Boards Good Condition
Guardrails And Toe Boards Bracing
Means Of Access
Ties-Number And Position Correct Couplers
Joint Staggered
Hazards
Overturning Collapse
Fall From Height Falling Objects
Overhead Obstructions Scaffold Tower Stability Affected
By:- Sheeted In Strong Winds
Overload With Equipment Or Materials
Used To Hoist Heavy Materials Or Support Rubbish Chutes Used For Operations Such Ass Grit Blasting Or Water Jetting Climbed From The Outside
Used To Support Ladder Precautions Scaffold
Tower:- Mobile Towers Only Be Used On Firm And Level Ground Towers Only Be Moved By Pulling Or Pushing At Base
Working Platform Be Clear Of Men And Materials When Scaffold Is Being Moved Wheels Be Turned Outwards And Locked When Tower Being Used
Correct Height To Width Ratio Diagonal Bracing
Platform Must Be Fully Boarded With Guardrail And Toe Boards Not Overload
Access Be On The Inside Of The Narrowest Side Inspected Every 7 Days
Mobile Elevating Working Platforms
Hazards
Equipment Failure
Unsuitable Ground Conditions Defective Or Unused Outriggers Overloaded Carrier
Mewp Struck By Another Vehicle
Precautions:- Trained And Competent Guardrails And Toeboards Firm/Level Ground Not Overloaded
Clear Of Overhead Obstructions Area Cordoned Off
Outriggers Extended Procedures If Machine Fails Well Fit
Self Propelled Awp (Arial Work Platform) Will Pass Through Standard Door Ways 1.36 M Long 0.76 M Wide Turns 360* In 1.5 M Radius Max. Height 5.8 M Swl 227 Kg Do Not (Awp)
Work Close To Overhead Cbles
Allow Arm To Portrude Into Traffic Route Move With Platform Raised
Check Lomitations
Suspended Access Equipment
Precautions:- Regular Inspection Safe Working Load Competent Staff
Safety Equipment Working Platform Edge Protection
Guard Rails And Toe Boards Fitted Adverse Weather Rules
Protected Electricity Supplies Communication
Excavation Hazards
Collapse Of The Sides Over Running Of Vehicles
Persons Falling Into The Excavation Materials Falling Into Excavations Underground Services
Access And Egress Hahardous Atmospheres
Undermining Adjacent Structures Flooding
Buried Services
Excavation Assessment Soil Types And Conditions
Existing Structures And Tools Underground Services Flooding
Protection Of Public Depth-Support Surcharge Loads Access And Egress Lighting
Experienced Operations Ppe
Precautions To Prevent Trench
Collapse:- Slope Or Bench The Sides Of The Excavations
Support The Sides Of The Excavation,Or Place Ashield Between The Side Of The Excavation And The Work Area
Construction Health Hazards Noise
Vibration
Solvent And Cleaners Fumes And Radiation Biological Hazards
Dusts:- Saw Dust Lead Dust
Silica Dust Asbestos Fibres
Cement:- Irritant Dermatitis Allergic Dermatitis Skin Burns And Ulcers Storage Of Materials
Sand And Aggregate Bricks,Blocks,Rooftiles Roof Trusses
Various Pipes
Hazards:- Falling From Lorries Tripping Hazards
Obstructing Traffic/Walkways Materials Falling From Piles Causing Dust Hazards Precautions
Minimum Quantities Effective Storing Low Or Possible Clearly Marked Areas Ensure Good Housekeeping
Storage Of Flammable Materials (Precautions) Keep Quantities To A Minimum
Secure Storage Area
Storage Area Properly Ventilated
Containers And Cylinders Returned To Storage At End Of Day Prohibit Smoking And Other Ignition Sources From Storage Area Suitable And Properly Labelled Containers For Decanted Materials Protection Of Storage Area From Vehicle Impact
Inspection Of Gas Cylinders To Ensure Valves Fully Closed Correct And Right Number Of Fire Extinguishers
Safe Practices For The Use,Collection And Removal Of Skips From Site:- Suitable Skip From Reputable Supplier/Contractor
Hazardous Waste Stored Separately Skip In Good Condition
Skip Not Overloaded
Located On Firm Level Ground
Adequate Room For Delivery/Removal Chutes For Filling
Netting Or Sheeting For Removal Ppe For Staff
Safe Use Of Portable Tools On Site:- Ensuring Suitable Equipment
Reduced Voltage 110 Volt Supply System Extra Low Voltage For Wet Locations Use Of Residual Current Devices (Rcds) Double Insulated Tools
Battery Operated Tools Suitable Connections Pre-Use Inspections
Inpection,Testing And Maintenance Competence Of Workers
Precautions For Electricity On Construction
Site:- Use Cat Scanner (Cable Detector Scanner Upto 3m) Use Of Crossing Parts
Use Of Goal Posts
Overhead Power Cables
The Minimum Recommended Safe Working Distance Is 6 Metres From The Nearst Part Of The Crane.If The Minimum Distance Cannot Be Maintained The Electricity Supply Should Be Disconnected.
Overhead Electrical Services(Precautions):- Isolation Of Power If Possible
Safe Path Marked (Use Of Barriers,Fencing) Height Restrictions Marked By Goal Posts Working Notices
Ban Equipment Cabable Of Reaching Overhead Lines Limiters Fitted To Cranes
Supervision
Underground Services Controls:- Planning The Work Locating The Services Identifying The Services Safe Digging Practices Plid
All Services Should Be Assumed Live Unless Proven Otherwise. Safe Digging
Practice:- Trial Holes Using Suitable Hand Tools
Special When Digging Above Or Close To The Line Of A Service
No Non-Held Power Tools Or Mechanical Excavators Close To Underground Services Excavtions Along Side The Service Rather Than Directly Above It
Final Exposure By Horizontal Digging Using Hand Tools Shovels With Curved Edges/Gentle Foot Pressure Proprietary Air Digging Tools
Element-2
Transport Hazards And Risk Control Workplace Transport Accidents
Majority
Involve:- People/Vehicle Collision Collisions With Other Vehicles Falling From Vehicles
Being Struck By Insecure Loads Vehicles Overturning
Associated Activities,Battery Charging Site Vehicles (Qualities)
Suitable For The Environment Suitable For The Task
Provided With Warning Aids Protection From Falling Materials Checked Daily
Properly Maintained
Precautions When Organising Traffic Routes:- Segeration If Possible
Seperate Routes High Visibility Clothing
Clearly Marked/Signed Routes
Gangways Suitable Width And Clearance Speed Limits
Adequate Lighting
Clear Direction Signs And Door Marking Sharp Bends Avoided
Good Floor Conditions/Gentle Gradients Sufficient Parking
Avoid Reversing
Alerting People To Hazards
Precautions When Pedestrains Working In Areas Where Vehicles Are Moving:- Segregation Of Vehicles And Pedestrains
Appropriate Road Markings
Maintaining Good Visibility (Mirrors/Lighting) Audible Warning On Vehicles
Drawing Up And Enforcement Of Site Rules Wearing Of High Visibility Clothing
Training And Supervision Reversing Of
Vehicles:-Avoid Reversing
One-Way Systems Drive Through Systems Turning Circles If Must Reverse Seperation Suitable Design Audible Alarms Mirrors Adequate Lighting Banksmen
High Visibility Clothing Site Rules/Training Driver
Selection:- Reliable And Mature Pre-Employement Medical Physically Fit
Routine Medicles Licensed
Trained And Competent Supervised And Monitored Given Refresher Training
Training Programme For Vehicle Drivers In Workplace:-Should
Include:- Personal Responsibilities Safe Working Load Estimations Pre-Use Vehicle Inspection Suitable Maintenance Safe Parking And Security Speed Restrictions Safe Rules And Signs Floor Conditions
Vehicle Reversing Vehicle Fuels
Hazards:- Petrol,Diesel,Lpg Hazards Flames Or Sparks
Exhaust Fumes Including Carbon Monoxide
Surface Temperature Of Exhaust System/Hot Surfaces Noise
Manual Handling Of Lpg Cylinders Battery
Charging:-Hazards
Give Off Hydrogen Gas Electrical Short Circuits Corrsive Effect Of Acids Manual Handling Precautions
Ensure Good Ventilation No Sources Of Ignition/Smoking Suitable Ppe
Insulated Tools Lifting Equipment Long Distance Delivery Vehicles
1. The Job:-Duration Of Journey,Road Condition,Means Of Communication,Security 2. The Driver:-Physical And Psychological Capabilities,Level Of Training
3. The Vehicle:-Suitable For The Load,Design And Layout Of Cab,Maintenance 4. The Load:-Properly Labelled If Hazardous,Spillages Procedures,Weight,Value Fork Lift Truck Mounted Working
Platform:- Small As Possible
Not To Carry More Than Two People Edge Protection
Locked Gate
Guard To Protect Against Moving Parts Safety Harness And Fitting Points Reasons Of Fork Lift Truck’s
Overturn:- Travelling On Gradients Too Steep
Travelling Towards When Descending Slopes
Being Overloaded,Unevenly Loaded Or Carrying Unsuitable Loads Travelling On Soft/Uneven Ground
Travelling Too Fast Especially Arround Corners Travelling Over Curbs,Steps Etc
Poor Maintenance Of Trucks/Roads Poor Driving/Driver Training Not Suitable For The Task
Carrying Loads At Dangerous Heights Hazards To
Drivers:- Fumes (Diesel/Petrol) Fire/Explosion
Collision With Building Manual Handling Falling Objects Noise Vibration Ergonomics Electrical Hazards
Pre-Use Check On Fork Lift Trucks:- Condition And Pressure Of Tyres Functioning Of Lights,Horns,Brakes Warning Devices Working
Suitable Mirrors Engine For Oil Leaks Water Leaks
Seat Securely Fixed/Suitable Restraints Damage To Bodywork/Lifting Mechanisms Security Of Equipment Fitted I.E Lpg Tank Parking Of Fork Lift
Trucks:- Designated Parking Area Applying Brakes
Controls In Neutral Position Switch Off Engine
Forks Resting On Floor Mast Titled Slightly Forward Not Obstructing Walkways
Not Obstructing Fire Exits/Fire Points Examination Of Fork Lift
Trucks:-Fork Lift Trucks Should Be Inspected:- Before Its First Use
Daily By The Driver
12 Monthly Intervals (6 Months If Carrying Persons) By A Competent Person Comply With Schedule
Circumstances That May Compromise Safety Of The Truck
Element-3 Fire Safety Fire Triangle Of Fire
Oxygen Heat (Source Of Igniion) (Smothering) (Cooling) Fuel (Starving) Sources Of Ignition:- Naked Flames Electricity (Overheating/Arcing) Smoking Materials
Hot Work (Welding,Burning) Chemical Appliances (Hot Surfaces) Friction (Inadequate Lubrication) Static Electricity
Lightning
Improper Storage Of Flammable Materials Lack Of Supervision And Inspection Harm To Persons From
Fire:-Main Effects Being Burnt
Inhaling Toxic Fumes Effects Of Smoke Inhalation Deplemention Of Oxygen Supply Other Effects
Collapse Of Building
Some Important Definitions:- Flash Point
Fire Point
Auto-Ignition Temperature:-Temperature At Which Gasses Or Vapour Will Ignite Without Any External Source Of Ignition.
Flammable:-Which Flash Point B/W 32 Degree Celcius And 55 Degree Celcius Highly Flammable:-Liquids With A Flash Point Below 32 Degree Celcius Principle Causes Of Spread Of
Fire:-1)Conduction 2)Convection
Movement Of Heat Movement Of Hotter Gasses Up Through Materials Through The Air
3)Radiation 4)Direct Burning
Transfer Of Heat Through Combustial Materials In Contact The Air With Naked Flame
Causes Of
Fire:- Deliberate(Arson) Electrical Faults
Misuse Of Electrical Equipment Smoke Materials
Smoking In Prohibited Areas Loss Of Control Burning Rubbish Heating Equipment
Unsafe Storage Of Materials Flammable Liquids/Gases Welding/Hot Work Mechanical Heat(Friction) Classification Of
Fires:- A:-Combustible Solids
B:-Flammable Liquids Or Liquified Solids C:-Flammable Gases
D:-Flammable Metals
F:-Combustible Cooking Media Fires Involving Electrical
Electrical Classified According To The Source Of Ignition Rather Than Fuel Source.
Class Types Of Extinguishers
A Water,Dry Powder, Co2, Foam
B Foam,Co2,Dry Powder
C Dry Powder,Water Mist,Foam
D Sand,Soda Ash,Talc
F The Foam Congeals On The Top Of The Oil Electrical Co2,Dry Powder
Minimising Risk Of Electrical Fire:- Pre-Inspection By Users Suitability Of Equipment
Inspection/Maintenance By Competent Person Avoid Misuse Of Equipment
Prevent Overloading Of Circuit Correct Design And Rating For Task Isolate If Not In Use
Improved Means Of Protection E.G. Rcd High Standards Of Housekeeping Staff Awareness Training
Fire Risks
Assessment:-1. Identify Hazards:- The Three Elements Of Fire Triangle.
2. Identify Who Could Be Harmed:- Persons At Risk Particularly The Disabled Etc.
3. Evaluate The Risk And Adequacy Of Precautions:- Considering Prevntion,Protection And Precautions.
4. Record Finding:- Prepare An Emergency Plan 5. Review:- If No Longer Valid.
Factors To Consider In Fire Risk Assessment:- Construction And Use Of Building Flammable Materials
Work Activities Generating Heat Methods Of Control
Means Of Fire Detection Means Of Raising The Alarm
Means Of Fighting Fire/Maintenance Of Equipment Evacuation Routes/Protection Of Routes
Numbers Of Persons At Risk Pre-Prevention Trailing/Fire Drills.
Terms:- Fire Prevention:-Control Measures To Reduce The Risk Of Fire.
Fire Protection:-Structural Measures To Reduce The Risk Of Fire Spreading. Fire Precautions:-Measures Taken To Reduce The Risk In The Event Of Fire. Fire
Preventions:-Aim To Keep The Three Sides Of The Fire Triangle
Apart:- Eliminate Or Reduce The Storage Of Flammable Materials Control Of Ignition Sources
Control Smoking Materials Good Housekeeping
Lubrication Of Machinery To Prevent Friction No Overloading Of Electrical Systems
Ventilation Outlets Not Obstructed Controlling Hot Work With Permits Etc Proper Storage Of Flammable Materials Segeration Of Incompatible Chemicals Security To Prevent Arson
Regular Inspection And Supervision
Storage Of Highly Combustible (Flammable) Liquids And Gases:- Minimum Quantities
Suitable Fixed Storage Tanks
Keep Upright In Well Ventilated Area Clear Making Of Containers
Clearly Marked Storage Area Spillage Controls
Adequate Ventilation
Suitable Fire Fighting Equipment Trained Competent Staff
Adequate Warning Signs Fire
Protection:-Compartmentation:-Splitting A Building Into Separate Sealed Areas Made Of Fire-Resisting Materials. Restricts The Spread Of Fire And Smoke Within A Building Depends
Upon:- The Use Of The Building Building Height
Floor Area
Compartment Volume Fire Resistant
Materials:- Primary Construction:-The Main Fabric Of The Building. Secondary Construction:-Internal Partitioning
1. Bricks 2. Concrete 3. Structural Steel Fire Precautions:- Fire/Smoke Detection Fire Alarms Means Of Escape
Means Of Fighting The Fire
Emergency Evacuation Procedures Fire
Alarms:- Gongs,Bells Etc -Break Glass Points
Automatic Systems -Continuous Detection -Alarm Sounding
Call The Fire Brigade -Indicate Location Of Fire -Trigger Extinguishers
Means Of EscapeDefinition)
A Means Of Escape Is A Continuous Path Along Which A Person Can Travel From Wherever He/She May Be In The Building And Reach Safely By His Own Unaided Efforts.
Suitability Of A Means Of Escape:- Number Of Employees To Use It Any People With Special Needs Fire Resistance Of Structure Position/Number Of Escape Routes Contents Which Are Readily Ignitable Open Weels,Open Staircases
Use Of Building
Means Of Escape-Main Requirements:- Multiple Exits
Fire Resistance Of Structure Adequate Size Of Numbers Travel Distance
Clearly Marked Exits Emergency Lighting Exit Free Of Obstructions Final Exit Door
Unblocked Openings Outwards Fire Smoke Doors Self Closing Fixed Stairs To Upper Floors Exit To Safe Place
Suitable Assembly Point Fixed Fire Fighting Equipment
Hose Reel Sprinkler Hose
Reel:-Permanently Connected To The Main Water Supply.Should Be Sitted In A Location Which Covers The Whole Area.
Advantages:- Inexpensive,Effective Harmless To Health
Unlimited Supply Of Water At Good Pressure Greater Force Than Sprinkler
Operators Need Not To Be Too Close To The Fire
Disadvantages:- Only Suitable For Class A Fires
Poor Sitting May Cause Inadequate Coverage Hose Could Be Kinked
Could Stop Fire Doors Closing May Create Trip Hazards Automatic Sprinkler
Systems:-A Network Of Water Pipes With Spray Heads Normally Systems:-At Ceiling Height Is Installed In Vulnerable Systems:-Areas.
Advantages:- Large Coverage Of Water To Prevent The Spread Of Fire In Large Open Plan Buildings Where Compartmentalisation Is Not Practical.
Disadvantages:- Only Suiatable For Class A Fires
Causes Damage To Equipment And Furnishings Total Flooding
Systems:- A High Concentration Of An Extinguishing Gas (Usually Co2) Is Automatically Dumped In An Enclosed Area.
Advantages:- Exxtinguishes Fire Without Causing Unnecessary Damage To Important Equipment Such As Electrical Equipment And Computer Rooms
Disadvantages:- Harmful To Health
System Must Be Disconnected When People Enter The Protected Area Fire
Extinguishers:-1. Water:-Class A
Lowers The Ignition Tempertature Prevents Re-Ignition
2. Foam:-Class B
Excludes Oxygen-Blanket Effect Suitable For Class B Fires Aqueous Film Forming Foam 3. Dry Powder:-Class A,B,C
Powder Has A Smothering Effect But No Cooling Properties Can Be Used On All Types Of Fire
4. Carbondioxid:-Class B,E
High Pressure Cylinder Containing Liquified Co2 Liquid Vapourises In Contact With Air
Safe To Use On Electrical Fires And Burning Liquids Inspection And Maintenance Of Fire Extinguishers
Inspection:-Routine (Perhaps Monthly) Visual Check To Ensure Extinguishers Are Place,Not Been Discharged Or Damaged.
Maintenance:-Involves An Annual Examination By A Competent Person With The Removal And Replacement Of Equipment Found Faulty And The Date Af The Inspection Recorded.
Daily Checks (Fire Warden) Weekly Inspection (Fire Warden) Annualy Serviced (Competent Person) Five Yearly Extended Service/Discharge Sitting Of Fire
Extinguishers:- Accessibility
Proximity To Exits/Escape Routes Visibility And Signage
Locate Off Ground With Adequate Support Suitable Type
Protection Against Damage And Weather Emergency Evacuation
Procedured:- Means Of Raising The Alarm Contacting The Emergency Services Fire Evacuation Routes
Who Are And The Role Of Fire Marshals Type Of Fire Extinguishers
Not To Use Lifts
Evacuation In An Orderly Fashion Practice
Drills:-Practice Drills Should Be Undertaken
To:- Checking Alarm Can Be Heard Throughout The Premises Testing The Effectiveness Of Evacuation Procedure Familiarising Employees With The Alarms Etc Giving Fire Awards To Practice Their Roles Satisfy A Legal Requirement
Element-4 Electrical Safety Ohms
Law:-The Higher Law:-The Electrical Pressure (V) Or Law:-The Lower Law:-The Circuit Resistance (R),Law:-The Higher Is Law:-The Current That Flows In An Electric Circuit.
I=V/R
I=Is Measured In Ams (A),Which Is The Electron Flow Or Current V=Is Measured In Voltas (V),Potential Difference Or Pressure R=The Resistance Is Measured In Ohms
Electrical Power=Voltage*Current Main Dangers Of
Electricity:-1. Electric Shock:-Contact With Live Parts. Direct
Contact:-Coming Into Contact With A Conductor That Is Supposed To Be Live. Indirect
Contact:-Coming Into Contact With A Conductor That Is Not Live In Normal Conditions But Has Become Live Due To A Fault.
2. Arcing
3. Fire And Explosion 4. Burns
Severity Of Electric Shock:- Current In Amperes Length Of Contact Time Path Through The Body
Conductivity/Resistance Of The Body The Voltage
Conductivity Of The Environment Nature Of The Current
Nature Of Contact
Age And Health Status Of Victim If A Person Hass Received An Electric
Shock:- Don’t Touch Injured Person Until The Current Is Switched Off
If The Current Cannot Be Switched Off,Stand On Some Dry Insulating Material And Use A Wooden Or Plastic Implement To Remove The Injured Person From The Electric Source Administer First-Aid If Qualified
Call Professional Help Causes Of Electric
Fire:- Inadequate Circuits For The Current Overloaded Circuits
Incorrect Fuses
Damaged Wiring And Insulation Loose Connections
Overheating Of Cables
Overheating Due To Thermal Insulation Overheating Due To Lack Of Ventilation
Flammable Materials Too Close To Electrical Equipment Effects Of Electricity On
Body:- Damage To The Nervous System Fibrillation (Irregular Heartbeat) Tissue Burns At Entry And Exit Damage To Internal Organs Muscular Contractions Physical Trauma Stopping Breathing Stopping The Heart Secondary
Effects:- Falls From Height
Unintentional Movement Of Machinery
Failure Of Control Measures And Security Systems Corporate Reputation
Throw Off Electricity Protection
Devices:- Fuses
Circuit Breaker Earthing Isolation
Reduced Voltage Battery Operated Tools Residual Current Devices (Rcd) Double Insulation
Fuse:-A Specialy Designed Weak Link Which Is Designed To Melt Fuse:-At Fuse:-A Predetermined Value Of Current.
Advantages:- Cheap And Rapidly Available Protects Equipment
Disadvantages:- Will Not Protect Individuals Slow To Operate
Inaccurate
Unsuitable Or Wrong Fuse May Be Used Easy To Overwide
Needs Tool To Replace Circuit
Breakers:-Electromagnetic Devices Which Perform The Same Function As Fuses But Operate Faster.
Advantages:- Automatically Trip Under Fault Conditions No Tools Required To Reset
Not Easy To Defeat
Protects Equipment From Overload
Disadvantages:- May Be Mistaken For An Rcd Do Not Protect The Individual
Earthing:-Electricity Will Always Try To Reach Earth And Earthing Is Means Of Providing A Low Resistance Path To Earth.
Advantages:- Prevent Indirect Electric Shock Readily Identified
No Protection If Removed
Isolation:-Shutting Off The Electric Supply To An Item Or Equipment And Preventing The System From Being Mistakenly Reconnected.
Advantages:- Safest Option As It Eliminates Electricity May Be Physically Locked Off
Disadvantages:- May Be Isolate Other Equipment May Be Reconnected Without Lock Off Prevents Live Fault Finding
Reduced Voltage
System:-Reducing The Mains Voltage By Means Of A Transformer To A Lower Safer Voltage E.G. 110 Volts Or 55 Volts.
Advantages:- At 55v-Injury Is Highly Unlikely
Colour Coded Cabling System For Easy Recognition
Disadvantages:- Specialist Equipment E.G. Transformer Required
Lead From Supply To Transfer At Highr Voltages,Needing Protection With Rcd Battery Operated
Tools:-
Advantages:- Little Risk During Normal Use Not Restricted By Cable Not Trailing Cable
Disadvantages:- Limited Use Low Power Output
Residual Current Device
(Rcd):-Compares The Electricity Flow To The Equipment With The Return Flow And If A Difference Is Detected The Equipment Is Isolated.
Advantages:- Rapid And Sensitive Difficult To Defeat
Easy To Use,Test And Reset
Cannot Be Reset With A Fault On The Circuit
Disadvantages:- May Isolate Crucial Equipment If One Rcd Covers A Number Of Distribution Points E.G. Freezers And Computers
Mechanical Device Which Could Fail No Overload Protection
Double
Isolation:-Two Separate Layers Of Insulation Are Provided Which Allows For Fault Detection Where One Layer Has Failed The Other Still Provides Protection.
Advantages:- Two Layers Of Insulation Prevent User Contact With Any Live Parts No Earth Required
Disadvantages:- Physical Damage May Defeat Double Insulation
No Earth Therefore No Protection If Used With Equipment That Requires Earth Portable Electrical
Equipments:-Accidents Caused
By:- Using Unsuitable Apparatus
Inadequate Maintenance Or Misuse Using Defective Apparatus
Modifications By Unauthorised Person Modifications Whilst The Appliance Is Live Using Equipment In Unsuitable Environments
Precautions (Portable Equipments):- Reduced Voltage Operation
Use Of Residual Current Circuit Breakers Protected Against Overload
Cables Insulated
Sufficient Socket Outlets Use Of Cable Drums Properly Trained Staff
Regular Inspections And Checks Correct Sheathing
Types Of Inspection:- User Checks
Formal Visual Inspection
Combined Inspection And Test (Pat) Frequency Of Inspections And
Test:- Manufacturer’s Recommendations Age Of Equipment
Robustness Of Equipment Double Insulated Or Earthed Type Of Cable Extent Of Use Users Of Equipment Environment Abuse Or Misuse History Of Equipment
Reasons To Keep Records Of Inspection And Testing Of Electrical Equipment:- Inspection By Authorised Person
In Case Test Label Removed Test Frequencies Maintained Record Actions Of Faults Rectified Electrical Safety In Office
Environment:- Equipment Of Approved Standard
Maintenance Of Fixed Electrical Installations There Is A Means Of Isolation
Correct Fuses
Plugs Correctly Wired No Overloading Of Sockets
Appliances Switched Off When Not In Use Pat Testing In Date
Cables Correctly Routed Rcds Used
System For Reporting Of Defects Precautions For On Working Live
Parts:- Trained And Competent Staff Accompanied By Another Person Adequate Information About The Risks Suitable Insulated Tools
Insulated Barriers On Screens
Suitable Instruments And Test Probes Ppe
Permit To Work Restricted Access
Element-5
Musculaskeletal Hazards And Risk Control
Ergonomics:-Study Of Relationship Between A Worker And The Working Environment. People Vary Enormously In Height,Weight,Strength Etc.
The Equipment Designed To Avg. Man This Leads To Physical Injuries
Ergonomic Assessment
Organisation:-Supervision,Procedures,Breaks,Shift Patterns. Equipment Or
Process:-Human Limitations,Analyse Task Etc. The
Individual:-Physical Capabilities,Knowledge Attitude. Environment:-Temperature,Noise,Space,Lighting Etc. Causes Of Wrulds:-W=Work R=Related U=Upper L=Limb D=Disorders
Wrulds Are Caused
By:- Repetitive Finger,Hand Or Arm Movements,E.G. Assembly Line Work,Keyboard Operators Twisting Movements,E.G. Meat And Poultry Preparation
Squeezing,E.G. Using Pliers,Scissors
Pushing,Pulling,Lifting Or Reaching Movements,E.G. Assembling Packing Boxes Work On A Production Line
Bricklying Symptoms Of Wrulds
Numbness Or Tingling In Fingers Etc. Pain
Restriction In Joint Movement Saft Tissue Swelling
In Addition To Symptoms:-Redness,Swelling And Limitation Of Movement. Wrulds
Prevention:- Identify Of Risk Jobs
Reduce The Force Frequency And Duration Design Of The Equipment
Automate The Process Design Of The Work Station Job Rotation
Regular Breaks
Training Employees In Correct Use Of Tools Medical Surveillance
Assessment Of Individual For The Task Health Effects Of
Dse:-D=Display S=Screen E=Equipments
Musculoskeletol Disorders (Hand,Arm,Shoulder) Eye And Eyesight Problems
Fatigue And Stress Epilespy
Facial Dermatitis Radiation
Effects On Pregnant Women D.S.E Assessment Organisation:-Job Rotation,Breaks. Individual:-Physical Characteristics,Training. Environment:-Noise,Lighting,Glare,Temperature,Space Etc.
Equipment:-Height/Position Of Keyboard And Screen,Seating Posture,Design Of Chair,Screen Definition And Colour,Adjustibility Of Equipment.
Dse Workstation Layout Good Lighting
No Glare,Distracting Reflection Noise To Minimum
Aple Legroom To Allow Postural Movement Minimise Glare (Windows)
Suitable Software Screen Suitable Position Ample Work Surfaces Suitable Chair/Adjustable Footrest If Necessary Suitable Environment Other D.S.E Requirements
Plan Work With Breaks
-Provision Of Eye/Eyesight Test Training And Information
-Risks From Dse Work
-Importance Of Good Posture Laptops(Design,Usage)
The Mouse(Good Posture And Technique) Manual Handling
Supporting Or Any Transport Of A Load By Hand Or Body Force,Including:- Pulling Putting Down Pushing Lifting Carrying Moving Holding Manual Handling Aids
Pallet Jack
Pallet Jack Scissor Lift Coil Lifting Jig
Tilting Barrel Lifting Hydraulic Jack Conveyer
Causes Of Accidents From Manual Handling Slips,Trips And Falls
Poor Lifting Techniques
Loads Which Are Too Heavy For The Individual Undertaking The Task Unexpectedly Heavy Loads
Poor Posture The Environment
Employees At Risk Of Manual Handilg Injuries Construction Workers
Ware House
Care And Health Workers
Postmen,Refuse Collectors,Furniture Movers Etc. Types Of Injuries Caused By Manual Handling
External
Cuts And Abrasions,Mostly Involving The Upper Body And Libs Bruises,Crush Injuries,Lacerations
Internal
Fractures,Either As A Result Of Falls Or Dropping Heavy Objects Onto The Body Strains And Muscle Injuries Involving The Spine
Strains And Muscle Injuries Involving Other Parts Of The Body General Guidelines On Safe Manual Handling Of Loads
1. Filters
Guidance Weights Should Be Reduced By10% If Thee Work Involves A Twisting Action Through 45 Degree Or More By 20% If A Twist Through 90 Degree Or More Is Involved.A Seated Person Should Not Attempt To Lift More Than 5kg.
Pushing/Pulling Motion Men Women Starting A Load 20kg 15kg Keeping The Load In Motion
(But Not Exceed To 20m) 10kg 7kg Manual Handling Assessment
L=Oad I=Ndividual T=Ask
E=Nvironment Load
Factors:- Physical Weight (Heavy) Size (Bulky)
Shape (Difficult To Grasp)
Rigidity (Contents Liable To Shift) Outside Surfaces (Sharp)
Stability Of Contents (Unstable) Other Hazards (Hot/Cold/Sharp Etc) Individual
Factors:- Sex
Physical Health
Stature (Physique,Height Etc) State Of Health
Level Of Training
Hazards To Prgnant Women Person’s Perception Of Their Ability Task
Factors:- Holding Loads Away From Trunk Twisting/Stooping/Reaching Large Vertical Movements Distances Involved
Strenuous Pulling And Pushing Loads Repetitive Handling
Insufficient Rest Or Recovery Period A Work Rate Imposed By The Process Environment
Factor:- Lighting (Poor)
Ventilation (Strong Air) Obstacles
Height Of Work Surface Temperature (Hot/Cold) Floor Conditions
Space Available
Practical Measures To Avoid Manual Handling Injuries:- Avoid Manual Handling
Risk Reduction
Automation And Mechanism Team Handling
Training
Smaller/Lighter Load
Selection (Individual And Mechanical Aid)
Good Environment (Spacing,Flooring,Temperature) Elements Of Mechanical Handling And Lifting
Equipment:- The Load The Workplace
The Handling Equipment The Employees Involved Precautons In Mobile
Crane:- Crane Suiablity For The Task Stable Ground Conditions Outriggers Fully Extended Avoid Obstructions
Consider Overhead Power Lines Assign Designated And Protected Area Properly Tested And Maintained Lifting Tackl Use Of Correct Slinging
Competenc Of Personal Load Near Ground If Travelling
Good Vivibility,Communications Monitoring Wind Speed
Main Hazards In Crane Operations:- Crane Overturning
Overloading
Collision With Other Crane,Overhead Cables
Crushing B/W The Load And Another Object Or B/W The Sling And The Load Or The Sling And The Hook
Failure Of Support I.E. Outriggers Not Fully Extended Loss Of Load Due To Rope,Chain Or Sling Failure Failure Of Load Bearing Part I.E. Jib Breaking Heavy Wind And Rain
Precautions Needed For Employees Safety During Lifting:- Not Exceed Safe Working Load
Trained Person (Operator,Slinger)
Good Communication B/W All Operatives Properly Maintained Equipment
Equipment Has Undergone Statutory Inspection All Lifting Accessories Free From Defect
Make Sure Load Is Secured And Lifted Vertically Up To Correct Hight Warning Of Lift Taking Place
Moved At Appropriate Speed Ensuring Path Free From Obstacles Consider Overhead Power Lines
Put Down In Safe Position And Tension Released Under Close Supervision Wear Your Helmets,High Visibility Cloth
Lifting Accessories (Tackle) Hazards:- Overloading
Incorrect Slinging Arrangements Damaged Attachments
Textile Slings Damaged,Cut,Abraded Or Stretched Chains-Deformed,Cracked Or Streched Links Broken Wires Or Kinks
No Examination Or Pre-Use Inspection Damage To Accessories During Use Lack Of Training
Hazards:- Types:- Belt Roller Screw Conveyors Hazards:- Trapping Contact Entaglement Striking Impact
Items Falling Off Slips
Manual Handling Noise And Vibration Sharp Edges
Precautions When Using Lifting Accessories:- All Accessories Properly Certified/Tested Properly Inspected By A Competent Person Safe Working Load Clearly Marked
Inspection Prior To Use
No Repair To Accessories On Site
Not To Be Used For Unintended Purpose Packing B/W Accessory And Load Properly Stored After Use Training For Staff In Safe Use Hazard Control Measures (Conveyor)
Fixed/Interlocked Guards On Drum
Side Guards,Enclosing Items To Be Conveyed Trip Wires With Conveyor For Full Length Emergency Stop Buttons
Safe Access At Regular Intervals Avoiding Loose Clothing,Rings Etc
Restricted Access To The Running Conveyor Head Protection
Safety In Lifting Operations:-Lifting
Equipment:- Sufficient Strength,Tested Through Examination
Inspected At Regular Intervals Suitably Marked
Lifting
Operations:- Planned And Supervised Correctly Positioned
Loads Not Carried Over Persons Good Visibility And Communication
Hoist:- Chain Hoist Goods Hoist Patient Hoist
Control Measures On Use Of Hoist:- Regular Maintenance
Training And Refresher Training For All Operators Carry Out Hoist Operation From One Position Driver Must Have Good Visibility Of Landings
Clear Signals/Audible Warning Be Given Prior To Lifting Operation Goods Properly Secured,No Loose Items Of Material In Goods Lift Gates Correctly And Properly Secured Before Lifting
Precautions When Using
Hoist:- Controls Only Operated From One Position Clear Visibility Of Landings
Clear Signals
Secure Objects Being Carried On Goods Hoists Items Not Overfilled
Do Not Carry Loose Items No Passengers On Goods Lift Safe Working Loads Clearly Marked Hoist Properly Examined And Tested Suitable Fancing And Gates At All Levels
Training Staff In Use Of Hoists
Element-6
Physical And Psychological Health Hazards And Control
Noise:-Sound Is Propagated By Compressions And Rarefactions In The Air. Pressure Changes Are Detected By The Human Ear
Speed Of Sound Is Around 330m/S In Air Unwanted
Sound:-Sound Travels A Pressure Wave Which Has Two Characteristics. Intensity
Frequency
Db (Decible)=Unit Of Measure Of Loudness Lepd=Daily Personal Noise Exposure Health Effect Of
Noise:-Chronic
Tinnitus
Permanent Threshold Shift Loss Of Frequency
Acute
Trauma From Loud Noise Temporary Threshold Shift Short Term Tinnitus Secondary Effects How Does Noise Get To
Us:- Direct:-Through The Air From Noise Source To Receiver. Reflected:-Via Walls,Ceilings And Other Structures.
Ground And Structure:-Structure Borne Through Wall Or Floor. Noise Control
Techniques:-1. Source:-Design,Maintenance/Lubrication,Reduce Speed,Energy.
2. Path:-Location,Enclosure,Silencers,Absorption,Damping,Isolation,Screens. 3. Receiver:-Ear Protection,Job Protection.
Source Reduction On Plant:- Tighten Loose Equipment Regular Lubrication
Eliminate Unnecessary Leaks Properly Adjust Machinery
Padded Containers For Catching Components Switch Equipment Off Especially Fans
Use Rubber Or Plastic Bushers
Specify Noise Emissions Levels In Orders
Check Conditions And Performance Of Installed Noise Control Equipment Path Of Noise Prevention
Techniques:- Location Enclosure Silencers Absorbers Damping Isolation Lagging Screens
Practical Measures To Reduce Eposure To Excessive Noise:- Lubrication And Maintenance
Change The Process/Design Reduce Energy Isolation Silencing Enclosure Absorption Damping
Reduce Time Of Exposure Ppe
Types Of Hearing Protection:- Ear Plugs -Comfort -Hygiene Ear Defenders -Comfort -Reusable
Reasons For Lack Of Wearing Ofhearing Protection:- Poorfit Resistance To Use Uncomfortable Incompatibility Interfence Hygiene
Supervision Deterioration Abuse
Health Effects Of Vibrating Tools
1. Acute:-Tingling Or Pins Needles In Hands And Extremities 2.
Chronic:- Numbness And Balancing Of The Fingers Swollen Painful Joints
Reduction In Manual Dexterity Reduction In The Sensation Of Touch Risk Factors Of Vibrating Tools
Frequency Of The Equipment Magnitude Of The Energy
Strength Of The Grip And Other Forces Time Of Exposure
Frequency Of Exposure Low Temperature Individual Factors
Control Measures For Vibrating Tools Eliminate The Use Of Vibrating Tools Selct The Low Vibration Equipment Maintenance Of Equipment And Tools Reducing Grip Force Required
Reducing Exposure Time Introducing Health Surveillance Orovision Of Gloves And Heated Pads
Information And Training On Risks And Indication Of Injury Types Of Ionising Radiation
Alpha Beta Gamma X-Ray Neutron
Skin Or Paper Stops Alpha Thin Alluminium Stops Beta Thick Lead Stops Gamma Why Is Radioactivity So Useful?
Easy To Detect
Radiation Can Be Very Penetrating Radiation Can Destroy Living Cells Harmful Effects Of Ionising Radiation Acute Effects
1.
Somatic:- Mild Nausea To Severe Illness Diarrhoea
Headaches Hair Loss Redness Of Skin 2.
Genetic:- Damage To Reproductive Cells Chronic Effects
1.
Somatic:- Complete Hair Loss Lungs Cancer Etc 2.
Genetic:- Damage To Offspring Of Exposed Protection Against Ionising
Time-Reduce Exposure Distance-Increase Distance Shielding-Use Barriers Ppe
Environmental And Personal Monitoring Training And Supervision
Correct Disposal Of Radiation Material Good Hygiene Practices
Employer May Have To Appoint Radiation Protection Advisor
Radiation Protection Supervisor Non-Ionising Radiation Ultra-Violet Infra-Red Lasers Microwave Ultra-Violet
Welding,Sun Rays.Two Main Hazards Effects On Skin And Eyes. Infra-Red
Hot Metal E.G. Foundaries.Heat And For Eyes Risk Of Cataracts. Lasers In Use
Cutting Surgery Hazards
Eyes Are More Vulnerable To Damage From Mild Retina Burns To Permanent Blindness Protection Against Non-Ionising Radiation
Shielding
Distance B/W Suorce And Person Reducing Duration Of Exposure Ppe
Protective Creams Stress
Stress Is Defined As The Reaction People Have To Excessive Pressures Or Other Types Of Demands Placed Upon Them.
Home:- Sickness Children Marital Financial Travel
Work:- Kind Of Work Physical Conditions Uncertainty Conflict Kind Of Jobs Health Effects Of Stress
1. Physical Effects Raised Heart Rate Increased Sweating Headaches Dizziness Blured Vision Arching Neck Skin Rashes
Lower Resistance To Infection 2. Behavioural Effects
Increased Anxiety
Irritability And Sudden Mood Changes Drink Or Smoke More
Difficulty Sleeping Poor Concentration
Inability To Deal With Tasks Work Problems Of Stress Results
Lack Of Motivation Lack Of Commitment Poor Time Keeping Increases In Mistakes Poor Decision Making Poor Planing
Increases In Absense
This Reflects In Relationships At Work As Tension B/W Collegues And Supervisors Poor Service To Clients
Individual Relationship Problems Increase In Discipline Problems
Problems That Lead To Stress Culture Of The Organisation
Shift Work,Unsociable Hours,Excessive Overtime Job Insecurity
Repetitive /Monotonous Work Lack Of Breaks And Control Over Job Work Rate Too High Or Too Low The Working Environment Relationships
Harassment And Bullying Fear Of Violence
Lack Of Communication Personal And Social Factors Management Action To Avoid Stress
Clear Company Objectives Good Communication Realstic Work Schedules Close Employee Involvement Training And Development Of Staff Impartial Investigation Of Stress
Policies To Recognise And Deal With Stress Good Management Support
Consistency Of Treatment Welding Hazards Electric Shock Oxygen Enrichment Manual Handling Fire Risk Eye Damage Burns Fume Inhalation Tripping Over Cables Hazards Of Busy Hotel Kitchen
Electrical And Mechanical Hazards Associated With Machinery Such As Food Mixers And Processors
Sharp Implements
Wet Or Obstructed Floors Increasing The Risk Of Slips,Trips And Falls Boiling Water And Hot Cooking Oils Causing Burns
Manual Handling Hazards
Hot,Busy Environment Of A Commercial Kitchen Health Hazards
Element-7
Working Equipment Hazard & Risk Control Suitability Of Work Equipment
Initial Integrity And Properly Designed Fit For Purpose For Which It Is Being Used Meets Safety Requirements
Used For Purpose Manufacturer Indeeded Factors To Be Considered When Installing New Machines
1. Hazards
Chemicals Biological 2. Suitability Guarded 3. The Location
4. Cable Of Being Isolated/Lock Off 5. Safe Access And Egress
6. Personnel Trained And Competent 7. Any Other Specified Risks
Safe Operation Of Work Equipment Appropriate Protection People Not Come Into Contact Clear Layout Of Controls Means Of Isolation Stable Adequate Lighting Maintenance Appropriate Markings Warning Devices Responsibilities Of Users
Information And Instructions Training
Not Put Them Or Others At Risk Because Of Their Actions
Making Use Of Any Safe System Of Work And Precautions Provided For Them,E.G. Machene Guards,Eye Protection Etc
Reporting Any Problems With The Work Equipment To Their Employer Safety In Maintenance Operations
Safe Working Procedures Should Be Planned Personnel Should Receive Training
Suitable Safety Equipment To Be Provided Management Organisation
Adequate Sources Maintenance Hazards
Entry Into Vessels,Confined Spaces/Machines Hot Work Which May Cause For Or Explosion
Cutting Into Pipework Carrying Hazardous Subtances
Mechanical Or Electrical Work Requiring Isolation Of Power Or Fuel Supplies Fumes,Gas,Liquids Or Steam
Machinery Hazards
Unintentional Starting Of Machinery Release Of Stored Energy
Movement To Gravity
Residual High Or Low Pressure Restricted Access/Egress
Residues E.G. Toxic,Flammables,Corrosives Mechanical Hazards
Heat Or Cold Biological Hazards Confined Spaces Working At Heights
Factors To Consider Prior To Maintenance Location Of Equipment
Capable Of Being Isolated? Can Stored Energy Be Dissipated? Can We Segeregate?
Is There Safe Access And Egress? Is Ppe Required?
Are Personnel Trained?
Are There Heat Or Cold Problems? Are There Chemical Residues? Are There Biological Hazards?
Precautions When Undertaking Machinery Maintenance Isolate Electrical Power
Permit To Work Isolate Pipelines Release Loads
Allow Hot Machinery To Cool Provide Adequate Lighting Means Of Access
Providing Suitable Ppe Provide Barriers Ventilate Work Area
Adequate Supervision Hand-Held Tools
Hand Tools:-Tools Which Are Entirely Powered Manually. I.E.Axes,Wrenches Etc.
Portable Power Tool:-Tools Which Have An External Power Sources Such As Electricity,Compressed Liquid,Air Etc. I.E. Pneumatic Drill,Electric Screw Driver.
Hazards Of Hand Held Tools
Hitting Hammer On One’s Thumb Using A Chisel As Screw Driver Flying Particles
Sharp Edges
Hazards Of Portable Power Tools Mechanical Hazards:- Entanglement Cutting Abrasions Ejected Material Non-Mechanical Hazards:- Dust Electricity Ergonomics Manual Handling Noise Vibration
Precautions Portable Power Tools
Do Not Use Power Tools You Are Not Trained On Do Not Lift Or Carry Power Tools By Their Power Cord Keep Power Cords Out The Paths Of The Power Tool Do Not Leave Tools Unattended
Do Not Stand In Water Or Wet Surfaces When Running A Power Tool Hold All Power Tols By The Plastic Hand Grips Or Other Conductive Areas Do Not Plug Multiple Electrical Cords Into A Single Outlet
Do Not Use Power Tools Or Extension Cords With A Missing Prong Ground All Tools Unless Double Insulated
Mechanical Hazards (Acronym-Entice) En=Entanglement
T=Traps:Shearing,Crushing,Drawing In I=Impact
C=Contact:Cutting,Friction And Abrasion,Puncture E=Ejection (Flying Particles)
Entanglement:-Where Hair,Clothes,Jewellary Etc. Are Caught In Parts Of A Revolving Machine. Traps:-Where Parts Of The Body (As Hands Or Finger) Are Caught Or Trapped In Parts Of Moving Machines.
Impact:-Where The Body Is Impacted By Moving Parts Or Processed Items. Contact:-Contact Lead To Following
Injuries:- Burns Lacerations Abrasions Puncture Cuts
Ejection:-Where The Parts Of The Machine Or Materials Being Used Fly Out And Hit The Body. Other Machinery Hazards
Office Machinery Common Hazards:- Electrical Ergonomic Noise Stability
Trap B/W Moving Parts Chemicals
Uv Light/Heat Manual Handling Document
Shredders:- Drawing Into Cutters Contact With Cutters Dust
Manufacturing/Maintenance Machinery Bench Top Grinder Hazrds
Contact With Rotating Wheel Drawing Into Trap
Ejection Of Parts Of Wheel Fire And Sparks
Vibration/Noise Pedestal Drill Hazards
Entanglement (Hair/Clothing) Contact (Stabbing/Puncture) Impact (Unsecured Workpiece) Cutting From Swarf
Ejection (Drill Bit/Material)
Agricultural/Horticultural Machinery Hazards (Note-Same Mechanical Hazrds)
Cylinder Mover Hazrds
Contact With Rotating Blades Entanglement In Blades Strimmer/Chainsaw
Contact With Cutter/Saw Entaglement Cutter/Saw
Waste Compactor Hazards Impact
Crushing
Noxious Substances And Fumes Biological Infection
Check Out Conveyor Drawing In Traps Non-Ionising Radiation Crushing
Spillages And Breakages Of Material Construction Machinery Associated Hazards Circular Saw Hazards
Drawing Into Blade Contact
Ejection Of Materials Vibration
Saw Dust Cement Mixer Hazards
Entaglement Chemicals Noise
Manual Handing
Methods Of Machine Safe Guarding The Features Of Guards
Includes:- Suitable For Purpose And Compatible With Process Good Construction,Sound Material,Adequate Strength
Maintained In Efficient State/Working Order And Good Repair Not To Be Easily By Passed Or Disabled
At Sufficient Distance From The Danger Zone
Not To Unduly Restrict The View Of The Operating Cycle Of The Machinery,Where Such A View Is Necessary
Continue,If Poosible,To Protect Even When Maintenance Is In Progress I.E. Allow Maintenance Without Guard Removal
Hierarchy Of Control For Machinery Guards Fixed Enclosing Guards
Other Guards Or Protection Devices
Protective Appliances Such As Jigs,Holders,Push Sticks
Provision Of Information,Instruction,Training And Supervision Order Of Guarding
(Remember-Fiat) F=Fixed
I=Interlock A=Automatic
T=Trip (Safety Devices)
Methods Of Machine Safeguarding 1. Guards Fixed Interlocked Adjustable Self-Adjusting 2. Devices Presence Sencing
Safety Controls(Trip Wire Cable,Two Hand Control) Gates
Pullback
3. Location/Distance
4. Feeding And Ejection Methods 5. Miscellaneous Aids
Awareness Barriers Protective Shields Hand-Feeding Tools Fixed Guard
