Emergency Response Planning and Implementation Dr Nik Nor Ronaidi bin Nik Mahdi
Aug 20, 2015
Emergency Response Planning and Implementation
Dr Nik Nor Ronaidi bin Nik Mahdi
Content
• Introduction• Emergency management process• Legislation• Emergency response planning• Steps for Emergency response planning• Important elements of ERP
Introduction
Emergency• Life threatening condition which requires the
administration of life-saving measures(German Red Cross)
• When there is an unexpected condition requiring specific action plans to normalise (i.e. fire, explosion, leak of products or gas, loss of containment or threats)
Introduction
Disaster• A disaster is an occurrence disrupting the normal conditions of
existence and causing a level of suffering that exceeds the capacity of adjustment of the affected community.
(WHO)
• “Disaster” is defined as an incident which occurs unexpectedly, which is complex in nature, causes loss of life, destruction to properties or environment and grind down the activity of the community (Emergency and Disaster Planning Manual, Laura G. Kaplan, B.S.E.E., McGraw-Hill, 1996).
• Disaster = Uncompensated Incident = catastrophe = major incident• An uncompensated incident occurs when the resources available
are inadequate to deal with the situation; load exceed capacity
Introduction
IntroductionDisasters• International– Bhopal– Chernobyl– Piper Alpha
• Local– Bright Sparklers, Sg. Buloh (1991)– Gas Processing Plant Fire, Kertih (2002)– Middle Distillate Plant Explosion, Bintulu (1997)
What is a workplace emergency?• It is an unforeseen situation that threatens
employees, customers, or the public; disrupts or shut down company’s operations; or causes physical or environmental damage.
• This can pose actual or potential hazard to life, environment, facility, production, and company’s image
• Emergencies may be natural or manmade.
Introduction
What is an emergency response plan?• It is an action plan to organize and employee
actions during workplace emergencies.• Well developed emergency plans and proper
employee training will result in fewer injuries and less structural damage to the facility during emergencies.
Introduction
Emergency management process
Preparedness Phase • Consists of activities carry out in advance before an
emergency strike to improve response to emergency
• E.g. hazard or risk analyses, training, drills and exercises, emergency plans and procedures, emergency communications, joint cooperation consensus, warning systems procedures and response planning.
Emergency management process
Response Phase• Consists of the immediate response to emergency by the
ERT • It is aim at containing the disaster so as to minimize loss of
life and destruction to property.• Includes measures such as – notification, – implementation of emergency plans, – activation of emergency operation centers,– mobilization of resources, – issuance of warnings and directions, – provisions of medical and social services assistance,– announcement of emergencies or disasters by the management.
Emergency management process
Recovery Phase• It refers to those measures undertaken following a
disaster that will return all systems to normal levels of service.
• includes measures such as: – physical restoration and reconstruction; – cleaning up contaminated areas; – eliminating and/or reducing any known hazards– restoring businesses.
Emergency management process
Mitigation Phase • It is the continuous ongoing endeavor to avert or
reduce the impact that a hazardous materials incident will have on people, property, and the environment
• Examples of mitigation activities would include the following: – Hazard Identification – Risk Analysis – Evaluation – Research – Education .
Emergency management process
Legislation
Legislation• The Malaysia government has recognized the need to regulate activities
with potential to cause major hazards.• Occupational Safety and Health (Control of Industrial Major Accident
Hazards) Regulations 1996.– It states the need for certain industries to create their own emergency response
programmes.• The National Security Council Directive No 20 (MKN 20)
– National policy on disaster mx – Industrial accidents such as explosions, fire, pollution and leaks of hazardous
material from plants are incidents covered under the directive.• The Fire Services Act 1988
– It states the need for premises to obtain a fire certificate– The elements required to obtain a fire certificate are those related to personal
safety facility, fire prevention, fire protection, fire fighting facilities, special needs and fire fighting team on site.
• The Uniform Building By-Laws, 1984 – It state the need for fire alarms, fire detection, fire extinguishment and fire
fighting access.
• Regulations apply to all industrial activities except:– Nuclear installation;– Installation under the armed forces; – Vehicle or vessel use in transportation; – Industrial activity which involves less than 10 percent of
the threshold quantity set out in Schedule 2 of the Regulations
CIMAH
• Industrial activity -
an operation carried out in an industrial installation referred to in Schedule 4 involving one or more hazardous substances, and includes on-site storage and on-site transport which are associated with the operation
CIMAH
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Installation for the production, processing or treatment of organic or inorganic chemicals using for these purposes amongst others, the followings : - alkylation - hydrogenation - extraction - hydrolysis - amination by ammonolysis - solvation - carbonylation - oxidation - mixing - codensation - polymerization - esterification - dehydrogenation - sulphonation - distillation - halogenation and manufacture of halogens - desulphurization, manufacture and transformation of sulphur-containing compounds - nitration and manufacture of nitrogen-containing compounds - manufacture of phosphorus-containing compounds - formulation of pesticides and of pharmaceutical products
INDUSTRIAL INSTALLATIONS
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Installation for distillation, refining or other processing of petroleum or petroleum products.
Installation for the total or partial of solid or liquid substances by incineration or chemical decomposition.
Installation for the production, processing or treatment of energy gases, for example light petroleum gas, light natural gas and synthetic natural gas.
Installations for the dry distillation of coal or lignite.
Installations for the production of metals or non-metals by a wet process or by means of electrical energy.
Installations for the bottling of flammable and toxic substances defined under paragraphs (a), (b) and (c) of Schedule 1, for example, light petroleum gas, ammonia, chlorine and acetylene.
(Back to Industrial Activity)
• Every manufacturer needs to identify an industrial activity within his control to the Director General– The authority will determine whether it is a
major hazard installation or not
• Major Hazard Installation - an industrial activity which produces, processes, handles, uses, disposes of or stores, permanently or temporarily, one or more hazardous substances equal of exceed the threshold quantity;
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Very Toxic Substances
(a) Substances which correspond to the line 1 of the table below; and
(b) Substances which correspond to the line 2 of the table below which, owing to their physical and chemical properties, are capable of producing major accident hazards similar to those caused by the substances mentioned in line 1 :
INDICATIVE CRITERIA
LD50 (oral) mg/ kg body weight
LD50 (cutaneous) mg/ kg body weight
LC50 mg/ l (inhalation)
1. LD50 5 LD50 10 LC50 0.1
2. 5 LD50 25 10 LD50 50 0.1 LC50 0.5
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LD50 (oral)mg/ kg body weight
LD50 (cutaneous)mg/ kg body weight
LC50mg/ l (inhalation)
1. 25 LD50 200 50 LD50 400 0.5 LC50 2
Other Toxic Substances
Substances with the following values of acute toxicity as shown in the table below and having physical and chemical properties capable of producing major accident hazards:
INDICATIVE CRITERIA
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Flammable Substances
• Flammable gases
- substances which in the gaseous state at normal pressure and mixed with air become flammable and the boiling point of which at normal pressure is 20 C or below;
• Highly flammable liquids
- substances which have a flash point lower than 21C and the boiling point of which at normal pressure is above 20 C and;
• Flammable liquids
- substances which have a flash point lower than 5.5 C and which remain liquid under pressure and where under particular processing conditions such as high pressure and high temperature, may create major accident hazards.
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Explosive Substances
- substances which may explode under the effect of flame or which are more sensitive to shocks or friction than dinitrobenzene.
Oxidizing Substances
- substances which give rise to highly exothermic reaction when in contact with other substances particularly flammable substances.
For the purpose of this schedule :
LD50 (oral) - a dose of a substance in mg/kg of body weight that produces death in 50% of a given experimental animal population;
LD50 (cutaneous) - a dose of a substance in mg/kg of body weight that produces death in 50% of a given animal population; and
LC50 - a concentration of a substance in air that is estimated to produce death after inhalation for four hours in 50% of a given experimental animal population.
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LIST OF SUBSTANCES AND QUANTITIES
The quantities set out below relate to each installation or group of installations belonging to the same manufacturer where the distance between the installations is not sufficient to avoid, in foreseeable circumstances, any aggravation of major accident hazards. The quantities apply in each case to each group of installations belonging to the same manufacturer where the distance between the installations is less than 500 meters;
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Part 1 : Named Substances
Where a substance or group of substances listed in Part 1 also falls within a category of Part 2 the quantities set out in Part 1 shall be used.
Substance Threshold Quantity
Group 1 - Toxic Substances (quantity 1 tonne)
Aldicarb 100 kilograms
4-Aminodiphenyl 1 kilogram
Amiton 1 kilogram
Anabasine 100 kilograms
Arsenic pentoxide, arsenic (V) acid and salts500 kilograms
Arsenic trioxide, arsenious (III) acid and salts 100 kilograms
Arsine (Arsenic hydride) 10 kilograms
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Manufacturer must demonstrate safe operations, by:• identify the possible major hazards;• take adequate steps to prevent any major accidents; • take adequate steps to minimise consequences to people and environment; • prepare and keep on-site emergency response plan; • provide evidence that the above is done when requested by the DG
• Prepare and submit Industrial Activity Report at least 3 months before commencing the activity;
• Not make any modifications in that is not consistent with the Industrial Activity Report until he consult a Competent person and resubmit a further report;
• Report to be updated every 3 years; • Prepare and submit on-site emergency plan 3 months before
commencement of industrial activity; • Emergency plan to be prepared in consultation with a Competent person• Emergency plan to be updated once every 3 years; • Prepare information on industrial activity and inform local authorities or
port authority for them to prepare off-site emergency response plan;• Provide information on hazards of the industrial activities to
persons/public who may likely be affected by a major accident around the site;
NSD 20• Level I disaster
– Confined and controlled• No potential for spread• Not complex
– Limited/ minimal effects– Does not halt daily activities– Can be handled at district level
• Level II disaster– More serious– 2 areas (districts) / potential spread– Large scale destruction/ death
• Destruction of infrastructure• Activities disrupted
– More difficult search and/ or rescue – Needs to be handled at State Level
• Level III disaster– Arises from Level II– More complex– Involves large areas (>2 states)– National level intervention required– +foreign help
Emergency Response Planning
Emergency Response Planning• Planning is a crucial component in any safety and health
program including emergency action.• Planning is prevention and preparedness!• A comprehensive emergency response programme
would cover not only on-site incidents but also off-site incidents, which may occur during the transportation of products.
• Important elements in a programme are the overall plans and the resources required to execute the plans.
• The emergency action plan should address emergencies that the employer may reasonably expect in the workplace.
Emergency Response Planning
Emergency Response Planning
• Policy and procedures to be developed should consider:– Hazards at site and worse case scenarios– Existing standards (guidelines) and legal requirements– Knowledge of the company operations background as
well as internal resources available such finances, manpower and equipment
– Information on external resources such as: • distance from nearest fire brigade and their incident
management capability• distance from nearest medical service, specialty service offered
and their ability to manage mass casualties
Emergency Response Planning
Steps for emergency response planning
Steps for emergency response planning• Step 1: Form a Health and Safety Committee• Establish a team to coordinate emergency planning
and preparedness activities• An existing health and safety committee can take on
this responsibility. • The committee may also want to consider including
outside organizations. These might include the Local Emergency Planning Committee (LEPC), emergency medical services (EMS), fire department, Malaysian Red Cressent.
Step 2: Develop (or Update) and implementing emergency response plans.
• An emergency response plan is a detailed written document that explains what emergencies an organization is likely to face, and WHO will do WHAT during a particular situation.
• A chain of command should be established• Writing the plan begins with assessing what
measures are already in place and determining adequacy of current resources and procedures by reviewing documents and seeing what has been put into operation.
Steps for emergency response planning
• Check available resources to review the strengths of the facility’s internal and external resources.– Internal resources include:
• First aid/CPR supplies and trained personnel • fire extinguishers and other firefighting equipment • heavy equipment available on-site • available shelters/ability to shelter in-place • transportation equipment • in-house emergency response teams • sprinkler and alarm systems and • security systems and personnel.
– External resources include:• fire department • police department • emergency medical services (EMS)• emergency response teams (ERTs) or hazardous materials (HazMat)
response teams
Steps for emergency response planning
• Research what laws apply to the facility.• Review any existing documents related to the facility’s
preparedness:– alarms and fire suppression systems – building diagrams and plans– evacuation routes– roles of key personnel– housekeeping practices– a list of hazardous materials used and/or stored in the workplace and– information on hazardous chemicals (material safety data sheets, or MSDSs).
• Walk through the facility to see what preparations have actually been put in place.
• Any differences between what is in written documents and what is actually occurring in the workplace should be noted.
Steps for emergency response planning
Step 3: Train All Staff• Every employee needs to know details of the
emergency action plan, including evacuation plans, alarm systems, reporting procedures for personnel, shutdown procedures, and types of potential emergencies.
• Additional training is needed – when new equipment, materials or processes are
introduced, – when the layout or design of the facility changes, – when procedures have been updated or revised, or – when exercises show that employee performance is
inadequate.
Steps for emergency response planning
• At a minimum, the training should include:– an overview of the emergency action plan – review of the evacuation procedures and routes for each
section of the workplace – practice drills of emergency evacuation and – basic first aid.
• Drills should be held at random intervals, at least annually, and should include outside police and fire authorities.– Drills will lessen confusion and panic should an emergency
situation take place. – The drills should reflect the actions taken for different
types of emergencies (e.g., fire, tornado, earthquake, depending on the vulnerability analysis).
Steps for emergency response planning
Step 4: Address Needs Following an Emergency• Physical and psychological effects
– The plan must specify what steps will be taken to ensure that all injured staff receive immediate first aid and follow-up medical care including any physical rehabilitation that might be necessary as the result of injuries.
– Counseling services are essential parts of responding to overcome severe emotional and psychological effects on victims.
• Financial support and services– The plan should identify resources that are available to affected workers such
as: – continuation of health care and other benefits – workers compensation – social services that can provide food, shelter or other needs, – federal aid if the area is declared a national disaster area.
• Workplace operations– process for recovery so that operations can continue.– E.g. Contingency plans should be developed for having backup systems to
protect documents, computer files and other critical data.
Steps for emergency response planning
Step 5: Evaluate and Modify the Plan• The committee should review the plan on a periodic
basis and after practice drills to make sure it reflects the current work situation.
• Names and numbers as well as emergency contacts need to be kept current.
• Any renovations or changes in floor plans must be reviewed to see how they will impact the emergency action and evacuation plans.
• Periodic drills give staff a chance to practice what to do in an emergency and provide valuable information on changes that need to be made.
Steps for emergency response planning
Important elements for ERP1. Vulnerability assessments2. Chain of command3. Emergency respond teams4. Alarms and communication systems5. Suppression Systems6. Evacuation planning7. Emergency medical facility
Vulnerability assessments• The first step is to find which hazards pose a threat to
any specific enterprise (list of hazards) • E.g. emergency planners need to determine if other
nearby facilities may pose a hazard or any toxic materials that may cause unsafe conditions.
• Important sources of information:– records of past incidents– occupational experience– knowledge of both technological (chemical or physical) and
natural hazards by consulting with external organizations such as fire departments, engineering consultants, and government departments.
Important elements for ERP
Chain of command• The employer should designate an emergency response
coordinator and a backup coordinator.• The coordinator should be drawn from management ranks,
possibly the engineering manager, safety manager or environmental compliance manager.
• Employees should know who the designated coordinator is.• Duties of the coordinator and employer include:
– Determining what emergencies may occur and seeing that emergency procedures are developed to address each situation.
– Directing all emergency activities including evacuation of personnel.– Ensuring that outside emergency services are notified when
necessary.– Directing the shutdown of plant operations when necessary
Important elements for ERP
Emergency respond teams (ERT)• ERT are the first lines of defense in emergencies. • ERT members should be thoroughly trained for potential crises
and physically capable of carrying out their duties• Team members need to know about toxic hazards in the
workplace and be able to judge when to evacuate personnel or when to rely on outside help
• One or more teams must be trained in:– Use of various types of fire extinguishers.– First aid, including cardiopulmonary resuscitation (CPR)– blood borne pathogens risk.– Shutdown procedures.– Chemical spill control procedures.– Search and emergency rescue procedures.– Hazardous materials emergency response.
Important elements for ERP
Alarms and communication systems• In a situation requiring evacuation, the first step is
to let all occupants know they must leave the building.
• Describe to the workers the alarm system used → Occupants must know which alarm means to evacuate.
• Alarms must be both seen and heard. There must also be an effective means to notify individuals with disabilities.
Important elements for ERP
Suppression Systems• Suppression systems are designed to put out fires. • There are many types of suppression systems, and
not all are suited for every situation. • Most common are automatic water-based sprinkler
systems (there are many different kinds) and dry chemical (carbon dioxide) systems.
• These may be connected to a detention/alarm system or may be separate.
• The systems must be inspected and tested on an annual basis to ensure they will work when needed.
Important elements for ERP
Evacuation planning• At the time of an emergency, employees should know
what type of evacuation is necessary and what their role is in carrying out the plan (partial or complete evacuation).
• The goal is to evacuate people and move resources (equipment, supplies, inventory) out of threatened areas.
• The designation of refuge or safe areas for evacuation should be determined and identified in the plan.
• Should establish methods of warning employees and customers
• Maps indicating evacuation routes from buildings and the facility site is important.
Important elements for ERP
Evacuation planning.. (cont)• Escape routes must meet the following criteria:
– There are enough exits. – Exits are not blocked. – Exits are clearly marked. (Many emergency situations involve smoke and fire
that make it difficult to see.) – The routes to the exits must be wide enough to accommodate the number
of occupants normally in the building. – Exits lead to a public thoroughfare (not to a closed area, like a courtyard). – Escape routes do not lead through any area that may cause more danger to
the evacuees (such as an area where hazardous materials are stored). – Secondary routes are available in case the primary route is blocked
• Assuring that all personnel know the evacuation routes, routines, and check-in procedures for both area and site evacuations
• An organized head count to ensure that all facility occupants have exited → establish a system for identifying missing persons
Important elements for ERP
Rescue and emergency medical facility• The employer should find out which medical facilities are
closest to them. • The committee should take a look at the workplace to
make sure that it is accessible to emergency services. • In certain cases it may be necessary to have emergency
medical and rescue services on site, for example:– employers in remote areas – high security situations or– employers with high hazard operations.
• It may help to coordinate an emergency action plan with the outsider responders such as the fire department, hospital emergency room, and EMS providers.
Important elements for ERP
THaNK YoU