CONTROL OF HAZARDOUS ENERGY
Types of Energy To Be Controlled Kinetic – Energy of motion Potential – Energy of position Electrical – From generated electricity, battery or static source Thermal – result of mechanical work, radiation, chemical reaction or electrical resistance
7 Basic Lockout Steps 1)Prepare for Shutdown 2)Shut Down 3)Isolate 4)Apply Locks 5)Verify Isolation 6)Control Stored Energy 7)Prepare for Startup
What is Isolation? Meaning – Prevention of the normal flow of energy. Blocking in the case of gravitational energy Disconnection in the case of electrical energy. Ether blocking or disconnection in the case of the flow of fluid through a pipe.
What Does “Apply Locks” Include? Apply Locks = Securing the Point of Control Preventing unauthorized persons from reactivating the flow of energy. Use of locks, tags or posting of qualified person(s).
What Does “Control Stored Energy” Mean? Cause Energy To Be Reduced to Levels Tolerable by Humans.
Mechanical Motion Can be linear translation or rotation Allow motion to stop before work. Can be turned off
Potential Energy Potential Energy – Pressures, springs, and gravity. Can be controlled, but can not be turned off
Electrical Energy Electrical power can be turned off Static Electricity cannot be turned off, but can be dissipated
Thermal Energy High or low temperature Result of: Mechanical work Radiation Chemical reaction Electrical Resistance Can’t be turned off – must be controlled or dissipated
Chemical Reaction Take heat in or give off heat Controlled by: Elimination, dissipation or control of chemically-reactive materials Control reaction so energy release doesn’t harm humans.
Example –Control Potential Energy by Removing Spring From Car Control gravity by blocking the car Control spring energy by blocking or dissipation of energy.
Example – Mixing Drum Rotating Blades Repair Switch off electrical source Lock out and/or disconnect mechanical linkages Tag switch (and mechanical linkages?)
Forms of Hazardous Potential Energy – As You Come Up With Examples Of These At Your Site, Raise Your Hand And Let’s Discuss How You Control Each One! Hydraulic or pneumatic pressure Vacuum systems Compressed or extended springs Gravity energy Energy of motion such as a flywheel Stored electrical energy – Battery, Capacitor Thermal Energy due to residual heat or low temperatures Residual chemicals in pipe which may cause thermal or pressure buildup.
Controlling Hazardous Energy Sources by De-energizing Thorough Inspection and Listing Of All Potentially Hazardous Energy Sources Include adjacent equipment
Controlling Hazardous Energy Sources by De-energizing Stored or residual energy that constitutes a personnel hazard shall be isolated, blocked or dissipated. Isolate, block or dissipate at points of control that cannot, with reasonable effort, be overridden or by-passed Isolation or blocking is adequate when unplanned event would not reactivate the flow of energy
Applying Locks or Securing The Point of Control Use of physical means such that re- energizing requires special equipment routinely available only to the person who applied the control or. Post warning at the point(s) of control saying why controlled, date, person(s) responsible for control and for work to be done. Limit access to control point(s) or Post Qualified personnel at the point of control with specific responsibility of protecting against unauthorized actuation (used primarily for short duration work..
Verify Effectiveness of Controls Ensure that all hazardous energy has been isolated, blocked or dissipated in areas where personnel will perform required tasks. Verification may need to be continuous if there is a potential for re-accumulation of energy.
Controlling Hazards With Energy Present Identify hazardous energy sources including residual energy sources Document procedures and assign responsibility and accountability for controlling personnel hazards Qualify personnel who perform maintenance by education, experience and/or training and certification
Example - Controlling Mechanical Motion Remove segments of operating mechanical linkages such as dismantling push rods, removing belts, removing flywheels. Secure Point of Control Tag linkages and place in locked cabinet Attach warning tags where linkages removed & restrict access Post person to protect against unauthorized reinstallation of linkages
Example - Controlling Mechanical Motion Use blocking devices Secure point of control by: Chain and lock or use metal pins driven or welded in place Attach warning tags and restrict access Post person(s) to protect against unauthorized removal of blocking devices
Example - Controlling Mechanical Motion Remove Power or energy by disconnecting main electrical source or closing hydraulic or pneumatic valves, bleed. Padlock in the “off” position (check for alternate sources of power)
Example - Controlling Mechanical Motion Close hydraulic or pneumatic valves, bleed. Disconnect pneumatic and hydraulic lines and tag or attach warning tags at control points and restrict access to trained personnel or post a person Check for residual pneumatic and hydraulic energy.
Example - Controlling Electrical Energy Place the main electrical disconnect switch in the “off” position Secure by padlock, clip and padlock or bar and padlock (check for alternate sources of power and programmed controllers) or Attach warning tag and restrict access to trained personnel or Post a person
Example - Control of Electrical Energy Remove segments of electrical circuit, such as printed circuit modules. Tag module and lock in cabinet away from control center; Tag control center door or Attach a warning tag at the module location and restrict access or Post person at control center
Example - Control of Thermal Energy (Steam) Close valves and maintain an open bleed. Chain and padlock valve or use blind flanges or slip blinds or Attach warning tags to the valves and restrict access or Station person at valve locations
Example - Control of Pressure Energy Close valves and maintain open vent to relieve Secure, block, blind flange, slip blind, or valve with locking device or Attach warning tags and restrict access Station a person at the valves
Example - Control of Gravity Energy Block in place using metal or wood blocks under the mechanism or pin the linkages in position where gravity won’t cause the mechanism to fall. Energy could be dissipated by lowering to floor or other secure surface or Secure, block or pin with a locking device or Attach warning tags to blocks, linkages and pins and restrict access or Station a person to restrict access
Example - Controlling Spring Energy Block in safe position by pinning or clamping Dissipate energy by release or dismantling of the mechanism or Secure pin or clamp in place with locking device or Attach warning tags to pins and clamps and restrict access or Station person at control point to protect against pin or clamp removal