management of change 22.4.15
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Concept of safety (ICAO) doc 9859
• Safety is the state in which the risk of harm to
persons or property damage is reduced to, and
maintained at or below, an acceptable level through
a continuing process of hazard identification and risk
management.
SAFETY PERSPECTIVE
– Services given to the Airlines at AAI airports are safe– Government is satisfied with the safety levels of AAI– DGCA is satisfied with the safety levels of AAI– Commitment to provide continuous safe services or
improve safe services– Deploy right quantity and quality of manpower at
airports.– Assess training, advanced training, refresher training for
manpower at airports.
What is aSafety Management System
Safety Culture Leadership Commitment to resources Balanced decisions People Management Willingness to learn Willingness to share expertise ……………….
What is aSafety Management System
Methodology Documentation Regulatory Compliance Performance Indicators Measuring Progress Reviewing Processes ……………….
Change management is an element of the Safety Assurance component of the SMS framework.
Change management is considered a proactive hazard identification activity in an SMS.
A change management process is designed to ensure risk management is applied to any Change of infrastructure (e.g.
airport expansion), Change of Operation (e.g. implementation of bigger series of aircraft) or change of regulation (e.g. Annex-14/DGCA –CAR) that have the potential to affect established operational processes, procedures, products and services.
Change Management
Change Management
Changes made at airports most likely will impact Air Traffic Operations and Procedures
• Runway Extensions• Building Construction• Taxiway Changes or Additions
Changes need to be identified upfront and early and assessed in the design early to ensure proper mitigation are in place
Prior to implementing changes describe the arrangements to ensure safety performance
Change Management
Process to identify & manage changeIdentify potential hazards during
planning process
Assess & mitigate risk prior to change implementation
Legislation Rule 83(2) of Aircraft Rules 1937
While a license is in force, no alterations to the landing area or to the buildings or other structures on the aerodrome which may affect the safety of aircraft shall be undertaken save with the previous approval of the Director-General and application for such approval shall be addressed to the Director-General and shall be accompanied by full particulars with plans of any such alterations including alterations to surrounding obstructions which may affect the safety of aircraft.
DGCA Advisory Circular 1 of 2012Process for communicating with the DGCA on the planning, construction and commissioning of changes to airport infrastructure, and major maintenance programmes• Stage-I (Design/ Concept Level)• Stage-II (Execution Level)•Stage-III (Commissioning Level)
h DGCA CIVIL AVIATION REQUIREMENTS SECTION 1 – GENERAL SERIES 'C' PART I
a) identify changes within the organization which may affect established processes and services;
b) establish arrangements to ensure safety performance prior to implementing changes; and
c) eliminate or modify safety risk controls that are no longer needed due to changes in the operational environment
AAI Corporate Safety Management Manual
• AAI has developed a Corporate Safety Management Manual wherein procedures
a) to ensure safety during concept phase, while the change is in process and
b) At the time commissioning of a change in infrastructure and procedure have been explained.
Conceptual Safety Assessment• While doing concept level safety assessments
using SAF 103 for any change in infrastructure following are the major points are to be considered
i) Project designii) Process of Changeiii) Pre-Implementation phaseiv) Post Implementation phase
Change Management
Managing change is a constant and familiar factor in the ongoing expansion and development
Without change, there is no growth and no development.
With change, there is always risk, but also opportunity.
Adopting a formal change management process will help you achieve your objectives and maximise opportunity while minimising risk.
Change Management
Change can be regarded as a hazard Failure to consider how change would impacts, is a major source of problems The solution is to follow the established process to manage the desired and undesired consequences of change Safety magnitude of Change must be assessed by using Safety Case Assessment and Reporting System (SCARS)
Change ImplementationThe safety assessments required for change
management, by providing the minimum requirements for preparing:
Safety Statements; Safety Plans; and Safety Cases. All Safety Plans and Safety Cases must be sent to
and reviewed by Aviation Safety Directorate, CHQ prior to implementation of any change.
Change Management Process
Aviation organizations experience permanent change due to expansion, introduction of new equipment or procedures.
Changes can have the following output: Introduce new hazards. Impact the appropriateness of risk mitigation. Impact the effectiveness of risk mitigation
Change management and
risk managementWhether change is to be brought about through new projects, or through modifications to operating procedures, it will involve risks.
Strong link between change management and risk management—the two processes support each other and should be used in conjunction.
Risk ManagementRisk management - The identification, analysis andelimination (and/or mitigation to an acceptable or tolerablelevel) of those hazards, as well as the subsequent risks, that threaten the viability of an organisation.
Risk Management consists of the following three elements:
• Hazard identification• Risk assessment• Risk mitigation
RISK ASSESSMENT – PROJECT LIFECYCLE
• Project Phases Concept LevelDesign LevelImplementation/Execution LevelOperation/Commissioning Level
Risk ManagementUnderstanding the system and environment
Identifying hazardous conditions
Assessing risk
Applying risk controls
Risk AnalysisImportant to distinguish between:
Hazard – a condition Consequence – result Risk – likelihood & severity of the consequence
Analyzing risk involves the consideration of both the likelihood and the severity of any adverse consequences.
Hazard – Condition, object or activity with the potential to cause injuries to personnel, damage to equipment or structures, loss of material, or reduction of ability to perform a prescribed function.
Consequence– Potential outcome(s) of the hazard.A wind of 15 knots blowing directly across the runway is a hazard. The potential that a pilot may not be able to control the aircraft during takeoff or landing is one of the consequences of the hazard.
definition
Hazard Identification
A hazard is any real or potential condition… that can result in injury, illness, or death to
people; damage to, or loss of, a system (hardware or software), equipment, or property; and/or damage to the operating environment.
Examples of natural hazards
Severe weather or climatic events:
hurricanes, major winter storms, drought, tornadoes, thunderstorms lighting, and wind shear.
Adverse weather conditions:Icing, freezing precipitation, heavy rain, snow, winds, and restrictions to visibility.
Examples of natural hazardsGeophysical events:
earthquakes, volcanoes, tsunamis, floods and landslides.
Geographical conditions: adverse terrain or large bodies of water.
Environmental events:wildfires, wildlife activity, and insect or pest infestation.
Public health events:epidemics of influenza or other diseases.
Examples of technical hazards
Deficiencies concerning:aircraft and aircraft components, systems, subsystems and related equipment.an organization’s facilities, tools, and related equipment.facilities, systems, sub-systems and related equipment that are external to the organization.
Examples of economic hazards
Major trends related to:
Growth.
Recession.
Cost of material or equipment.
Etc.
Hazard identification
In order to identify hazards, consider:
Design factors, including equipment and task design.
Procedures and operating practices, including documentation and checklists.
Communications, including means, terminology and language.
Hazard identification
Organizational factors, such as company policies for recruitment, training, remuneration and allocation of resources.
Work environment factors, such as ambient noise and vibration, temperature, lighting and protective equipment and clothing.
Hazard identificationRegulatory factors, including the applicability and
enforceability of regulations; certification of equipment, personnel and procedures; and the adequacy of oversight.
Defences including detection and warning systems, and the extent to which the equipment is resilient against errors and failures.
Human performance, including medical conditions and physical limitations.
Sources of hazard identificationInternal
Flight Data Analysisvoluntary reporting systemAudits and surveys
ExternalAccident reportsState mandatory occurrence system
As a reminderPredictiveProactiveReactive
Hazard identification
By whom?By anybody By designated personnel
How?Through formal processesDepends on the organization
When?AnytimeUnder specific conditions
Hazard analysisABC of hazard analysis
A – State the generic hazard (hazard statement) Airport construction
B – Identify specific components of the hazard Construction equipment Closed taxiways
C – Naturally leading to specific consequence(s) Aircraft colliding with construction equipment Aircraft taking wrong taxiway
Hazard analysis
Efficient and safe operations or provision of service require a constant balance between production goals...
maintaining regular aerodrome operations during a runway construction project
...and safety goalsmaintaining existing margins of safety in aerodrome
operations during runway construction project
Aviation workplaces may contain hazards which may not be cost-effective to address even when operations must continue.
Common Airside HazardsTypes of Hazards we face:VehiclesPedestriansWeatherDangerous GoodsF.O.DRunway incursionsFuel spillagesOther Hazards
hazard: small foreign object debris (FOD) on runway
effect: FOD can interfere with normal airport operation
severity: minor (depends on the size and material of FOD) likelihood: frequent (several times per week)
risk: medium to pick up the FOD
Common Airside Hazards
hazard: jet blast Effect : damage to other vehicles, blows off various
debris to runways and taxiways Severity : major Likelihood : probable (once per month) Risk : high Mitigations : move parking spots of planes further from busy
roads so that planes can be placed on a safe distance from taxiways, runways, and roads used by other vehicles; clear territory and warn everybody in the nearby area before a plane starts engines
Common Airside Hazards
hazard: power loss Effect : system is down, lights are off, only visual
approach is used in assessment of situation on the airfield
Severity : hazardous Likelihood : extremely remote (once every 10-15 years) 12 Risk : medium Mitigations : have a reserve source of power not dependent
on the main source; mobilize all human resources to fix the problem as soon as possible and help in dealing with planes still operating in the air
and on the airfield
Common Airside Hazards
hazard: unauthorized vehicle on the airfield Effect : creates potential danger of runway incursion Severity : catastrophic Likelihood : extremely remote (once every 10-15 years) Risk : high Mitigations : require clearance before any vehicle can
enter the airfield; get the vehicle out of the airfield as soon as possible
Common Airside Hazards
Risk Definition of risk Risk management Risk probability Risk severity Risk assessment and tolerability Risk control/mitigation
RiskRisk is the composite of the predicted likelihood or
probability and the severity of each possible consequence of each identified hazard.
Risk LevelProbability Severity
Consequence
Active Failure
HazardIntolerable
Tolerable
Acceptable
Definition of riskRisk – The assessment, expressed in terms of predicted probability and severity, of the consequence(s) of a hazard taking as reference the worst foreseeable situation.
A wind of 15 knots blowing directly across the runway is a hazard. The potential that a pilot may not be able to control the aircraft during takeoff or landing is one of the consequences of the hazard.The assessment of the consequences of the potential loss of control of the aircraft by the pilot expressed in terms of probability and severity is the risk.
Risk managementWhat is it?
The identification, analysis and elimination, and/or mitigation to an acceptable level of risks that threaten the capabilities of an organization.
What is the objective?Aims at a balanced allocation of resources to address all risks and viable risk control and mitigation.
Why is it important?A key component of safety management systems.Data-driven approach to safety resources allocation, thus defensible and easier to explain.
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Levels of Risk High - Catastrophic hazards – Unacceptable level of risk –
Proposal cannot be implemented or activity continued without mitigation.
Medium Risk – Minimal acceptable level – Proposal may be implemented or activity can continue, but tracking and management are required.
Low Risk – Target level of risk – Acceptable without restriction or limitation. Hazards not required to be managed but are documented.
Risk management
Intolerable region class - I
Tolerable region
Acceptable region
The risk cannot be justified under any
circumstances
Drive risks toward the broadly acceptable region
Risk reduction not likely to be required as resources
likely to be grossly disproportionate to the
reduction achieved
AsLowAs
ReasonablyPracticable
Class - II
Class - III
Class - IV
Residual risk tolerable only if further risk
reduction is impracticable
Risk AnalysisRisk ProbabilityProbability – The chance that a situation of danger might occurRisk Severity Severity – The possible consequences of a situation of danger taking as reference that worst foreseeable situation.
Risk probability
Definition(s)
Probability – The likelihood that an unsafe
event or condition might occur.
Risk probabilityQuestions for assessing the probability of an
occurrence:
Is there a history of occurrences like the one being
assessed, or is the occurrence an isolated event?
What other equipment, or similar type components,
might have similar defects?
Risk probability… questions such as:
What number of operating or maintenance
personnel must follow the procedure (s) in
question?
How frequently is the equipment or procedure
under assessment used?
Risk CRITERIASeverity of occurrence
Meaning Value
Catastrophic Equipment destroyedMultiple deaths
A
Hazardous A large reduction in safety margin, physical distress or a workload that operator cannot be relied upon to perform their task accurately or completely.
Serious injury Major equipment damage
B
Major A significant reduction in safety margins, a reduction in the ability of operator to cope with adverse operating conditions as a result of increase in workload, or as a result of conditions impairing their efficiency.
Serious incident Injury to persons
C
Minor Nuisance Operating limitations Use of Emergency procedures Minor incident
D
Negligible Little consequences E
Risk probabilityProbability of occurrence
MeaningQualitative definition Value
Frequent
Occasional
Remote
Improbable
Extremely improbable
Likely to occur many times (has occurred frequently)
Likely to occur some times (has occurred infrequently)
Unlikely, but possible to occur (has occurred rarely)
Very unlikely to occur (not known to have occurred)
Almost inconceivable that the event will occur
5
4
3
2
1
Risk severityDefinition(s)
Severity – The possible consequences of an
unsafe event or condition, taking as reference
the worst foreseeable situation.
Risk severityDefine the severity in terms of consequences for:
PropertyFinanceLiabilityPeopleEnvironmentImagePublic confidence
Risk severityQuestions for assessing the severity of an
occurrence:How many lives may be lost?
Employees Passengers Bystanders General public
What is the environmental impact? Spill of fuel or other hazardous product Physical disruption of natural habitat
Risk severity… questions such as:
What is the severity of the property or financial damage? Direct operator property loss Damage to aviation infrastructureThird party damageFinancial impact and economic impact for the State
Are there organizational, management or regulatory implications that might generate larger threats to public safety?What are the likely political implications and/or media
interest?
Risk severity
A large reduction in safety margins, physical distress or a workload such that the operators cannot be relied upon to perform their tasks accurately or completely.
Serious injury. Major equipment damage.
Equipment destroyed.Multiple deaths.
A significant reduction in safety margins, a reduction in the ability of the operators to cope with adverse operating conditions as a result of increase in workload, or as a result of conditions impairing their efficiency.
Serious incident. Injury to persons.
Nuisance. Operating limitations. Use of emergency procedures. Minor incident.Little consequences
Meaning
Severity of occurrences
ValueAviation definition
Catastrophic
Hazardous
Major
Minor
Negligible
A
B
C
D
E
Risk assessmentRisk severity
Risk probability Catastrophic
AMajor
CMinor
DNegligible
EHazardous
BB
Frequent 5
Occasional 4
Remote 3
Improbable 2
Extremelyimprobable
1
5A 5B 5C 5D 5E
4A 4B 4C 4D 4E
3A 3B 3C 3D 3E
2A 2B 2C 2D 2E
1A 1B 1C 1D 1E
Risk tolerability
Assessment risk index
Suggested criteria
Intolerable region
Tolerable region
Acceptable region
5A, 5B, 5C, 4A, 4B, 3A
Unacceptable under the existing circumstances
3E, 2D, 2E, 1A, 1B ,1C, 1D, 1E Acceptable
5D, 5E, 4C, 4D, 4E, 3B, 3C, 3D,
2A, 2B, 2C
Acceptable based on risk mitigation. It might require
management decision
Risk management
Risk control/mitigation
Definition(s)Mitigation – Measures to address the potential hazard or to reduce the risk probability or severity.Risk mitigation = Risk control
(Mitigate – To make milder, less severe or less harsh)
Risk control/mitigation
StrategiesAvoidance – The operation or activity is cancelled because risks exceed the benefits of continuing the operation or activity.
Operations into an aerodrome surrounded by complex geography and without the necessary aids are cancelled.
Risk Control = Risk Mitigation
A major component of any safety system is the defenses (controls) put in place to protect people, property or the environment.
These defenses are used to reduce the likelihood or severity of the consequences associated with any given hazard or condition.
Risk control/mitigation
StrategiesReduction –The frequency of the operation or activity is reduced, or action is taken to reduce the magnitude of the consequences of the accepted risks.
Operations into an aerodrome surrounded by complex geography and without the necessary aids are limited to day-time, visual conditions.
Risk control/mitigation
StrategiesSegregation of exposure – Action is taken to isolate the effects of the consequences of the hazard or build-in redundancy to protect against it.
Operations into an aerodrome surrounded by complex geography are limited to aircraft with specific/performance navigation capabilities.Non RVSM equipped aircraft not allowed to operate into RVSM airspace.
Matrix-Based Risk CriteriaClass Action required and Sign off Authority
I Risk intolerable and cannot be justified on any grounds
II Risk must be reduced unless the cost of reducing the risk is grossly disproportional to the benefits gained. Only accepted in exceptional circumstances with the approval of the relevant Executive Director (ED)
III Risk must be reduced unless the cost of reducing the risk is disproportional to the benefits gained. May be accepted by the relevant General Manager (GM) or Airport Director (APD)
IV Acceptable, Maintain current system, monitor and review. Further risk reduction is warranted only if cost is insignificant, Signing off authority is relevant in-charge of ATM/CNS/Airport
AUTHORITY OF APPROVE ASSESSMENT
Aerodrome (Design change) ED (ARA Planning)
ATM (National Change) ED (ATM)
ATM (Local Change) GM (Aerodromes)/ATS in-charge
CNS (National Change) ED (COM)
CNS (Local Change) GM (CNS)/ CNS in-charge
Airports (Local Change) ED (Ops)/Airport Director/ Airport Incharge
RISK ACCEPTANCE AUTHORITY
Class AuthorityCat I Risk Unacceptable, action required to treat the
riskCat II Undesirable but may be accepted in exceptional
circumstances with the approval of the appropriate Executive Director
Cat III Tolerable, may be accepted by the appropriate General Manager
Cat IV Risk Acceptable with conditions with the approval of ATM/CNS/Airport In-charge
Safety Assessment Process
The SCARS form must be used to determine the safety magnitude of the change by assessing the likely impact of the change in terms of likelihood and safety outcome.If the safety magnitude is minor: a Safety Statement is completed in the SCARS
form by the initiator of the change and it is accepted (signed off) by the Manager having the safety accountability for that area
Safety Assessment ProcessIf the safety magnitude is assessed as
moderate : a) a Safety Statement is completed in the SCARS
form by the initiator of the change and it is accepted (signed off) by the Manager having the safety accountability for that area; and
b) a HAZLOG Register is also completed and the report from HAZLOG is attached to the SCARS form for sign-off by relevant Manager.
Safety Assessment Process
If the safety magnitude is assessed as major: a) a Safety Plan and a Safety Case must be
prepared and a HAZLOG Register for this change must be developed.
b) These documents are accepted by Managers at CHQ level.
Changes and Activities Requiring an Assessment
any change which has potential to impact safety; change of category in facilities or equipment; changes in a procedure documented in the Aerodrome
Manual; changes to organisational structure or staffing
arrangements; introduction of new entrant airlines; introduction of new aircraft types; and delivery of major projects
SAFETY PLAN Safety Plan preparation must commence early in the
project/ change life cycle, and be updated as appropriate during the course of the project/change implementation.
A Safety Plan may be written for each stage of the project lifecycle, for example a Design Safety Plan followed by an Implementation Safety Plan
A Safety Plan is used to communicate essential information to stakeholders about the proposed project or change.
Safety Plans must be reviewed by the Aviation Safety Directorate.
SAFETY PLANThe Safety Plan must detail the:
Scope of the change in operational and organisational context;
a)Description of the construction project: Provide a full description of the planned construction project.
Assumptions, constraints and dependencies influencing the safety outcome of the project/change;
a)Types & frequency of air traffic: List the types of aircraft and number of daily movements anticipated during the construction period.
b) Disruptions to air traffic: What will be the impact on and disruptions to the air traffic as listed above
SAFETY PLANC) Position and height of equipment (Relative to Runways &
Taxiways): Provide the location and maximum working height of the construction equipment or vehicles and where that equipment will be working in relationship to the taxiway or runway edges/ends. This information is required to asses the impact on Obstacle Limitation Surfaces and object is.
d) Work adjacent to Runway/Taxiway: Temporary hazards on runway strips. Which zone will you be working in, which restriction and operational conditions will apply to your project.
Responsibilities, titles and names of the people managing the project/change; List of person responsible for construction
SAFETY PLAN Consultation and communication arrangements for the
project/change;
Every construction project requires a Communication Plan. The Plan will cover communication with the airport’s clients/users, ATS and CHQ during all phases of the project; #1: Planning Phase, #2: Pre construction Phase #3: Construction Phase. ‐
a) Airport Ops ↔ ATS; b)ATS ↔ Construction Site; c) Airport Ops ↔ Construction Site; d)Airport Ops ↔ Users (Stakeholders; e)Airport Ops ↔ CHQ
SAFETY PLAN Safety management activities to provide the safety assurance of
the project/change;
a) Displaced and/or Relocated Thresholds: If the project will require a displaced or relocated threshold, provide an explanation as to why this is required, what percentage slope the calculations are based on, how will the new threshold be marked and lighted , what buffer is being provided for jet or prop blast, consideration.
b) Declared distance during all phases: Based on the above calculation what will be the revised declared distances.
c) Access control, vehicle operations and Escorts: How will vehicles and equipment access the construction site, will Airport Vehicle operator Permit be issued, will vehicles be escorted, whom will be providing escorts.
SAFETY PLANd) FOD control e) Stocking of construction material on the airside
Timelines and milestones; a)Stages/phases of the construction & schedules:
List the different stages of the construction activities with anticipated start and finish dates.
Resources and facilities required; a) Markings, barriers and lighting provided:
Describe all markings, barriers and lighting to be used to indicate unserviceable areas of the airport.
SAFETY PLAN Training and education requirements Arrangements for any training and education requirements
Mistakes are more likely to be mitigated by training and procedures. Review process
Arrange for a review of the Safety Plan by ASD, and send the approved copy to all stakeholders.
Approval authorities and requirements for the resultant safety documentation
SAFETY PLAN CHECKLIST• Scope of work to be performed, including proposed duration of work.• Runway and taxiway marking and lighting.• Procedures for protecting all runway and taxiway safety areas, obstacle-
free zones (OFZs), object-free areas(OFAs), and threshold citing criteria This includes limitations on equipment height and stockpiled material.
• Areas and operations affected by the construction activity, including possible safety problems.
• NAVAIDs that could be affected, especially critical area boundaries.• Methods of separating vehicle and pedestrian construction traffic from
the airport movement areas.• Procedures and equipment, such as barricades (identify type), to delineate
closed construction areas from the airport operational areas, as necessary.• Limitations on construction.
SAFETY PLAN CHECKLIST
• Required compliance of contractor personnel with all airport safety and security measures.
• Location of stockpiled construction materials, construction site parking, and access and haul roads.
• Radio communications.• Vehicle identification.• Trenches and excavations and cover requirements.• Procedures for notifying ARFF personnel if water lines or fire hydrants must
be deactivated or if emergency access routes must be rerouted or blocked.• Emergency notification procedures for medical and police response.• Use of temporary visual aids.• Wildlife management.
SAFETY PLAN CHECKLIST
• Foreign object debris (FOD) control provisions.• NOTAM issuance.• Inspection requirements.• Procedures for locating and protecting existing underground utilities,
cables, wires, pipelines, and other underground facilities in excavation areas.
• Procedures for contacting responsible representatives/points of contact for all involved parties.
• Vehicle operator training.• Penalty provisions for noncompliance with airport rules and regulations
and the safety plan.
SAFETY CASES A Safety Case is a report that presents a structured and
comprehensive argument, together with evidence, that a project or change proposal can be safely implemented into the ATS and Airports system.
Safety Cases must be reviewed by Aviation Safety Directorate prior to being approved.
Safety Cases must detail the: scope of the change in operational and organisational context; validation of any assumptions, constraints and dependencies affecting the safe
outcome of the project/change; responsibilities, titles and names of the people managing the project/change; consultation and communication arrangements for the project/change; and outcomes of the safety management activities prescribed in the Safety Plan
including the:
SAFETY CASES hazard identification and risk management activities, tools, procedures and
standards used to provide safety assurance, for normal and abnormal modes of operation;
HAZLOG Register Report detailing the identified hazards and risk controls/safety requirements, including their status;
acceptance by the appropriate level of management of the various levels of risk associated with each hazard;
arrangements for any training and education requirements; timelines and milestones for the ongoing safety management of the change
pre and post implementation; argument that, when implemented with the identified controls, the proposed
change will be adequately safe; and arrangements and timing for the Post Implementation Review (PIR) of the
change following implementation.
Post Implementation Review (PIR)
the review of the HAZLOG Register(s) relating to the change;
the arrangements for the ongoing management of hazards / controls;
details of any new safety issues identified resulting from the change; and
details of any safety lessons learnt. Eliminate/modify the safety risk controls that are no
longer needed or effective
STAKEHOLDER CONSULTATION
Stakeholder consultation should be designed to ensure that:The assessment of hazards and risks associated
with the proposed project is an accurate reflection of actual field practices; and
Personnel are aware of the potential risks to which they may be exposed and their role in controlling those risks.
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HAZARDOUS CONDITIONS: Tall but relatively low visibility units such as cranes
or drilling equipment in safety areas or approach zones.
Hazardous Condition - Excavation adjacentto runways, taxiways and aprons
108
Barricades/Red Lights
Barricades used to mark construction areas or closed pavement must be as low as possible to the ground; low mass; easily collapsible upon contact with an aircraft or any of its components; and weighted or sturdily attached to the surface to prevent displacement from prop wash, jet blast, wing vortex, or other surface wind currents. This particular barricade is designed to be filled with water.
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Barricades/Red Lights
Highway type barricades may be too high for use adjacent to movement areas.
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The use of concrete jersey barricades in the movement areas (adjacent to taxiways) is not acceptable.
Barricades/Red Lights
Non-movement Area
Movement Area
SPECIAL SAFETY REQUIREMENTS Temporarily closed runway/taxiway
Disconnect all lighting circuits. Obliterate threshold, designation, and touchdown
zone markings. Place a temporary cross at each runway end,
covering the numbers. Place a cross at entrances to each closed taxiway. Usually have NAVAIDs removed from service.
Airport Construction Is the work coordinated with other airport activities (air traffic, apron
management, security, etc.)? Is construction area clearly marked, signaled and isolated? Is the construction job going to affect airport operations? Will NOTAMs be required? Are temporary access routes identified? Are temporary threshold and operational areas clearly marked before
opening to operations? Are construction workers adequately trained and briefed regarding the
airport operations and hazards? Is the area cleaned and inspected before the area is opened to
operations Is there a safety coordinator in the contractor team? Has there been a pre-construction conference and safety issues for the
project were extensively discussed
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R a d o m e $ 1 9 , 7 1 2
M a i n E n t r y D o o r $ 1 7 1 , 2 2 0
C a r g o D o o r $ 5 8 , 3 2 7
I n l e t C o w l $ 3 2 9 , 2 0 3I n l e t C o w l S e g m e n t $ 5 , 1 5 1
A i l e r o n & T a b A s s e m b l y $ 1 8 3 , 5 4 5O u t b o a r d F l a p A s s e m b l y
$ 2 5 5 , 8 4 5
I n b o a r d F l a p A s s e m b l y $ 2 2 4 , 8 7 2
E l e v a t o r A s s e m b l y
$ 2 6 4 , 7 0 8
L . E . S l a t A s s e m b l y $ 5 2 , 8 6 3
W i n g t i p A s s e m b l y $ 2 8 , 8 7 2
R a m p D a m a g e H a s B i g P r i c e T a g F o r A i r l i n e s
T A T P r o b e $ 6 , 5 8 3
P i t o t S t a t i c P r o b e$ 5 , 1 5 7
A O A V a n e$ 4 , 3 0 0
S i d e c o w l$ 1 6 1 , 4 0 7
P a r t s p r i c e s o n l y
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