Principles of Industrial Maintenance PDF

Summary

This document is a lecture on principles of industrial maintenance. It covers case studies, such as the Piper Alpha oil platform and F-111 deseal and reseal maintenance, to explore occupational hazards and aircraft maintenance errors. It also provides an introduction to the Occupational Health and Safety (OHS) framework in Australia, and discusses safety performance measures. The document is from Edith Cowan University in 2018.

Full Transcript

Course materials provided for personal study only and subject to the disclaimer on the ECU website
http://www.ecu.edu.au/supplemental/disclaimer

Principles of Industrial
Maintenance

Lecturer: Dr Ana Vafadar
[email protected]
 This lecture

Coverage in this lecture will be largely derived from …
Richardson, S. (1995). Piper alpha: the event. IChemE Loss Prevention Bulletin. 122, 3-6.
Richardson, S. (1995). Piper alpha: the event. IChemE Loss Prevention Bulletin. 123, 3-8.
Department of Defence [n.d.]. Air force to put people first following inquiry.
Department of Veterans Affairs [n.d.]. Background to the development of Study of Health Outcomes
in Aircraft Maintenance Personnel (SHOAMP).
Lind, S., & Nenonen, S. (2008). Occupational risks in industrial maintenance. Journal of Quality in
Maintenance Engineering, 14, Issue 2, 194-204.
Hobbs, A., & Williamson, A. (2003). Associations between errors and contributing factors in aircraft
maintenance. Human Factors, 45, 186-201.
Robinson, R. M., Francis, G., Hersan, A., Kanga, M., Robinson, J., Stoks, F., & Wallis, J.(2008). Risk
& reliability: an introductory text (7th ed). Melbourne: R2A Pty Ltd. (ISBN 9780958524155)
Content from other sources will be indicated where applicable
 This lecture – the plan

This lecture material is largely based on …

Case studies
Piper-Alpha oil platform (Richardson, 1995)
F-111 deseal and reseal maintenance (Dept of Veterans Affairs, Dept of
Defence, Australia)

Occupational hazards during (on-site) industrial maintenance (Lind &
Nenonen, 2008)

Aircraft maintenance errors and their contributing factors (Hobbs &
Williamson, 2003)

OH&S (CHP 16) (Robinson et al, 2008)
Brief introduction to the OHS framework (in Australia)
 This lecture in a nutshell

This lecture will basically …
Highlight potential relationship between maintenance operations
and safety related issues. To achieve this, several case studies
will be used. Themes covered include:
The role of maintenance work permits and wider operational
awareness for the status of maintenance work.
Case: Piper Alpha oil platform explosion (UK)
Potential exposure to harmful substances during maintenance
operations.
Case: F-111 deseal/reseal operations (Australia)
Identifying major occupational hazards during industrial
maintenance.
Case: Database of incidents (Finland)
The relationship between aircraft maintenance errors and their
contributing factors.
Case: Study into data base of (CASA licensed) maintenance
professionals and a large group of unlicensed airline
mechanics (Australia)
Provide an insight into Occupational Health and Safety
 Safety & Maintenance
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Source: https://www.thechemicalengineer.com
Case:Piper Alpha oil platform
Source: Richardson (1995, Issue 122)
Location of platform is North Sea (UK)
Piper oilfield, ~193km north east of Aberdeen (Scotland)
Piper oilfield, deep water (~140m)
Platform (initially) exported oil only
Later gas condensate was also incorporated (propane)
Total oil export: ~10% of UK North Sea output
Total gas export: ~0.6% of UK North Sea output
Evening of 6th July 1988 explosions occurred
Flames estimated to have reached 200meters
Fire extinguished only on 29 July 1988
Human life losses
166 (on day) and 1 later in hospital. Most of the platform collapsed into the
sea including the main (four story) accommodation module.
Financial losses
£2000million
Richardson, S. (1995). Piper alpha - the event. IChemE Loss Prevention Bulletin. 122, 3-6.
Principles of Industrial Maintenance Edith Cowan University
2018
 Safety & Maintenance
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Case:Piper Alpha oil platform Refer to figures in the original
Source: Richardson (1995, Issue 122) article(s) for schematics
showing pump configurations.
Causes (probable) … quoted from Richardson:
In trying to establish the cause of the disaster, considerable difficulties were
encountered because so little physical evidence remained and there were so few
survivors who could give essential information … The most probable original
cause almost certainly lay in the condensate separation and injection area … On
the evening of 6 July 1988, injection pump A was isolated for maintenance of its
motor drive coupling. In addition, its safety valve was removed for maintenance
and a blind flange almost certainly fitted in its place. The flange was not, however,
leak-tested or pressure-tested. When pump B tripped at about 21.45, the
operators initially sought to restart it. They were not successful in this endeavour:
pump B kept tripping… The evidence suggests that what they in fact did was to
try and restart pump A. They would have been aware that pump A was out of
commission for maintenance – but that maintenance had not yet started and the
problem with pump A was not essentially serious. Because of the way in which
work permits were organised on Piper, it is almost certain that the operators
would have not been aware that the safety valve for pump A was missing … The
most probable thing that happened next is that the condensate, after flowing
extremely rapidly into the pump [i.e., pump A] and then into it safety valve line,
leaked at the flange fitted in place of the safety valve (Richardson, 1995, p. 5-6)
Principles of Industrial Maintenance Edith Cowan University
2018
 Safety & Maintenance
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Case:Piper Alpha oil platform
Source: Richardson (1995, Issue 122)
Causes (probable) … quoted from Richardson:... The most likely scenario … is that the blind flange was incompletely tightened.
The evidence of gas alarms noted by the surviving control room operator and the
strength of the initial explosion suggests that the leakage hole had an area of
about 50 square millimetres. … 50 square millimetres corresponds to lifting of the
flange by only about 0.15 millimetres … Perhaps 90 kilogrammes of condensate
would have escaped over a period of around 30 seconds. (Richardson, 1995, pg
6).

Source: Richardson (1995, Issue 123)
Lessons
A follow-up article by Richardson (1995, Issue 123) summarised that the accident
had lessons to be learned. These included: design, plan (equipment) isolation,
operational procedures, communication (and its breakdown) and evacuations.
There were also lessons to be learned in Maintenance and work permits.

Richardson, S. (1995). Piper alpha - the lessons. IChemE Loss Prevention Bulletin. 123, 3-8.

Principles of Industrial Maintenance Edith Cowan University
2018
 F-111 aircraft. Image: Dept of Defence , Australia
http://www.defence.gov.au/media/download/2008/aug/20080808/index.htm
 Safety & Maintenance

Case: F-111 deseal and reseal maintenance
Source: Dept of Veterans Affairs (Australian Government)

Royal Australian Air Force (RAAF) receives F-111 aircraft from US
Fuel tanks chemically sealed
Sealant degrades with time
Need to remove damaged sealant and place new sealant (deseal/reseal)
Timelines of Deseal/Reseal
Started in Australia Oct 1977
Concluded 2000

Source: Dept of Defence (Australian Government)
F-111 fuel tanks
Airplanes do not have ‘bladders’ to hold fuel
Instead, spaces within fuselage act as integral fuel storage tanks
Spaces need to be sealed for integrity
 Safety & Maintenance

Case:F-111 deseal and reseal maintenance
Source: Dept of Defence (Australian Government)
Maintenance Work (deseal/reseal)
“ … each aircraft was subject to RAAF maintenance workers entering the
fuel tanks, setting up apparatus to spray a softening agent (SR51),
laboriously removing the sealant by hand and then preparing the surface for
new sealant. This sealant consisted of two coats of a putty-like substance
which had to be applied by hand. In all of this, RAAF staff had to wear
protective clothing as the chemicals and sealant were known to be toxic”

F-111 aircraft. Image: Dept of Defence , Australia
http://www.defence.gov.au/media/download/2008/aug/20080808/index.htm
 Safety & Maintenance

Case:F-111 deseal and reseal maintenance
Source: Dept of Veterans Affairs (Australian Government)
RAAF Board of inquiry
“A RAAF Board of Inquiry found that since 1977, some 400 ADF personnel
and civilians had suffered health effects, allegedly because of the chemicals
and solvents used while working on the F-111 Deseal/Reseal fuel tank
maintenance programs”.
Study of Health Outcomes in Aircraft Maintenance Personnel
(SHOAMP)
Commissioned in 2001, completed and declared Oct 2004.
Findings … “The study concluded that, on the balance of probabilities, there
was an increased risk of cancer associated with having participated in the
F-111 Deseal/Reseal program”
Source: Dept of Defence (Australian Government)
Media Release
“The Board’s [Board of Inquiry] principal finding is that the health symptoms
that DSRS [Deseal Reseal] workers currently experience or demonstrate
are reasonably attributable to their earlier exposure. It is on this basis that
the Board estimates there to be in excess of 400 workers who have
suffered long-term damage to their health”
 Safety & Maintenance

Case:F-111 deseal and reseal maintenance
Source: Dept of Defence (Australian Government)
Media Release
“The Board found that there were a number of systemic failures, described in the
Report as the ‘causal pathways to the outcome’. The Air Force medical service
was seen as failing in particular by the low priority given to occupational medicine.
A second factor identified as an immediate cause was the relative powerlessness
of maintenance workers. Complaints were effectively ignored”
“At the level of immediate causes, exposure to toxic chemicals was the main
focus of the Inquiry. Exposure was possible, the Board found, as the Air Force
was relying totally on personal protective equipment (PPE) to protect its workers
from the many hazards involved in working with toxic substances in confined
spaces”
“Given the reliance on personal protective equipment, problems arose with the
appropriateness of protective equipment for the tasks at hand, the availability and
control of that equipment through the supply network, and the failure of some
workers to wear the equipment, coupled with an inadequate compliance system”
“A final failure, and in some respects, most fundamental of all failures, was that of
the chain of command to operate optimally …”
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Case: Occupational hazards during (on-site) industrial maintenance
Source: Lind & Nenonen (2008)
Two pathways of investigation utilised in this study:
First: Public databases of maintenance incidents (Finland)
Severe accident reports (1994-2004): total: 90 persons
Fatal accidents (1985-2004): total: 37 persons
All data reported related to full-time maintenance workers
Second: Risk assessment surveys...Conducted in companies to identify
hazards, estimate their likelihood of occurrence and what the expected
consequences might be. Companies surveyed:
Three companies (15 sites)
Two of these companies are maintenance service providers
The other company is a machine manufacturer, with after sales service
This makes all these companies essentially render maintenance services in
others work sites (similar to a sub-contracting work to customers).

Lind, S., & Nenonen, S. (2008). Occupational risks in industrial maintenance. Journal of Quality in Maintenance Engineering, 14, Issue 2, 194-204.
Principles of Industrial Maintenance Edith Cowan University
2018
 Safety & Maintenance
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Case:Occupational hazards during (on-site) industrial maintenance
Source: Lind & Nenonen (2008)
Accident data: Common causes of severe injury and fatal incidents
Severe accident Fatality Total
Crushing or entrapment 39% 27% 36%
Falls 21% 27% 23%
Falling items 12% 15% 13%
Electricity 7% 6% 7%
Splashing of dangerous substances 6% 0% 4%
Touching or entanglement 3% 3% 3%
Suffocation or poisoning 0% 9% 2%
Others 12% 12% 12%

Principles of Industrial Maintenance Edith Cowan University
2018
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Case:Occupational hazards during (on-site) industrial maintenance
Source: Lind & Nenonen (2008)
Accident data: Factors contributing to severe injury and fatal incidents
Severe accident Fatality Total
Working on machine in motion 25% 15% 24%
Dangerous work practices 11% 48% 21%
Ignoring instructions and rules 18% 13% 16%
Machine malfunctions 10% 15% 11%
Inappropriate walking or working surface 14% 0% 10%
Human Error 9% 4% 7%
Hurried work 9% 4% 7%
Others …% …% …%

Principles of Industrial Maintenance Edith Cowan University
2018
 Safety & Maintenance
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Case:Occupational hazards during (on-site) industrial maintenance
Source: Lind & Nenonen (2008)
On site risk assessments: mostly under three headings
Ergonomic associated risks: poor ergonomics during maintenance
operations
Lack of worker awareness of appropriate work postures or methods
Machines and processes not designed with maintenance in view

Work environment risks
Work that needs to be done outdoors (weather, seasonal effects, travel to site)
Planning and scheduling should ideally take this into account
Workplace tidiness and cleanliness

Risks of injury
Slips, trips, climbing and falls (all affected by seasonal variations too: cold, hot,
light levels)

Principles of Industrial Maintenance Edith Cowan University
2018
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Case:Occupational hazards during (on-site) industrial maintenance
Source: Lind & Nenonen (2008)
Remarks from this study …
“The occupational safety of workers is the duty of management also while
workers are on unfamiliar sites. Sites may be stable or temporary. Thus, safety
management must be flexible and constantly take into account changing work
environments. Also on stable sites maintenance crew members may change, e.g.
due to varying work loads. The time for work planning (including safety planning)
may also be limited. This may be problematic, especially on new sites and in the
case of new maintenance tasks”.

Promoting safety from this study …
Maintenance crew personnel should have relevant safety related information.
Workers should be instructed on safe work methods before working
independently at customer work sites.
Work should be appropriately planned and workers should be advised on
conducting independent identifications of potential hazards.
Work conditions need to be taken into account so as to promote working in a safe
manner.

Principles of Industrial Maintenance Edith Cowan University
2018
 Safety & Maintenance
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Case:Aircraft maintenance errors and their contributing factors
Source: Hobbs & Williamson (2003)
A study into the potential links between specific maintenance work errors
and the factors that contribute to them was conducted by Hobbs and
Williamson (2003). If these causing factors are identified, accidents might be
averted.

Questionnaires: those surveyed
Total of 4,900 aircraft maintenance personnel (holders of CASA issued
maintenance licenses)
About 300 mechanics (unlicensed) who work for airlines in Australia.
Response rate of respondents: 28%

Principles of Industrial Maintenance Edith Cowan University
2018
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Case:Aircraft maintenance errors and their contributing factors
Source: Hobbs & Williamson (2003)
Maintenance related errors on aircraft are serious:
Major accidents might result
Financial repercussions due to flight delays or cancellations

Maintenance work on aircraft can potentially be subject to errors, arising from:
Inadequately designed maintenance documentation
Communication breakdown
Inadequate supervision
Time pressures
Shift type work
Environmental conditions (extremes)

Unlike errors that are caused by aircrew (flight personnel), errors made by
maintenance personnel can remain unnoticed (dormant) for longer times. This makes
tracking their causes more difficult.
Unlike aircrew (pilots) or traffic controllers, maintenance personnel do not find
themselves being subject to voice recording. This also complicates subsequent
investigation.
Hobbs, A., & Williamson, A. (2003). Associations between errors and contributing factors in aircraft maintenance. Human Factors, 45, 186-201.
Principles of Industrial Maintenance Edith Cowan University
2018
 Safety & Maintenance
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Case:Aircraft maintenance errors and their contributing factors
Source: Hobbs & Williamson (2003)
Questionnaires: Analysis of the outcomes
Some of the highest reported occurrences which were attributable to maintenance
personnel errors were
Systems operated unsafely during maintenance 13% Read “Nature of the
Installations that were incomplete 8% Occurrences” in the
Contact between maintenance workers and hazards 7%
article on pg 192.

Incorrect assembly processes or locations 7%
Towing event 7%
Questionnaires: Events contributing to occurrences
To better understand the factors which lead to occurrences taking place, the
highest contributing factors were found to be …
Memory lapses 20.1%
Violations 17.2%
The single highest reason used to explain why these events took place was
attributable to pressure (23.5%).

Principles of Industrial Maintenance Edith Cowan University
2018
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Introduction to OHS frameworks (Robinson et al, 2008)
In the Australian context, Occupational Health and Safety (OHS) is subject
to regulation by the states and territories. These states and territories are
responsible for drafting and enforcement of OHS laws.
OHS laws take the form of acts and regulations.
Each state and territory will have specific OHS Acts
OHS Acts provide for the structure and responsibilities of how to achieve
OHS goals.
Main objectives of OHS legislation:
To ensure safety, health and the welfare of working individuals
Elimination of risks that can affect the health and safety in the workplace.
Extend duty (duty of care) to persons who also occupy the workplace (other than
the employees).
Retailers … also have duty to customers
Educational institutions … also have duty to students
Robinson, R. M., Francis, G., Hersan, A., Kanga, M., Robinson, J., Stoks, F., & Wallis, J.(2008). Risk & reliability: an introductory text (7th ed). Melbourne:
R2A Pty Ltd..
Principles of Industrial Maintenance Edith Cowan University
2018
 Safety & Maintenance
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Introductionto OHS frameworks (Robinson et al, 2008)
Regulations are also drafted to support the OHS Acts
Regulations provide more detail on what kind of steps must be applied for
the control of specific hazards, and who should undertake these steps.
Examples:
Asbestos regulations
Noise regulations
Regulations may be supported by codes of practice
Codes of practice “are basically ‘how to comply’ documents with a lot of
useful advice on assessment and control”
(Robinson et al, 2008, pg. 179)
Other steps in the legal framework include:
National standards (drafted by the National Occupational Health and
Safety Commission, NOHSC)
Codes, standards and guidance notes issued by authorities, professional
bodies and industry associations.
Principles of Industrial Maintenance Edith Cowan University
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Introduction to OHS frameworks (Robinson et al, 2008)
Compliance: “mandatory”

OHS Acts

OHS
Regulations

Codes of Practice

Standards (Australian,
NOHSC)

Industry standards or guidance
notes
Compliance: “… generally not mandatory unless the document is called up by an act or regulation.
However codes and Australian standards can be used as evidence in court to demonstrate what could
have been done, that is, a form of good/best practice” (Robinson et al, 2008, pg 180)
Adapted/modified from figure on pg 180: Robinson et al (2008)
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2018
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Introduction to OHS frameworks (Robinson et al, 2008)

Breaches, Penalties and interventions
Breaches: might mean the imposition of fines.
Improvement Notices: employers are required by this to undertake
specific steps within specific time periods.

Prohibition Notices: cessation of work until such a time by which
specific remedial actions are applied.

Principles of Industrial Maintenance Edith Cowan University
2018
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Introduction to OHS frameworks (Robinson et al, 2008)
Controlling risks
“The legislation requires that risk control must be
based upon the Hierarchy of Controls which is
typically, in order of most to least preferred:
Elimination
Substitution
Isolation
Engineering controls
Administrative controls
Personal protective equipment and clothing
There are small variations to this in other
states/territories. Because of the legislative
requirement to carry out risk assessments, which must
be documented to prove that they have been
conducted, this can result in an extremely large list of
controls that need to be implemented”
(Robinson et al, 2008, pg 182)
Principles of Industrial Maintenance Edith Cowan University
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 Safety & Maintenance

Introductionto OHS frameworks
@
General hierarchy of hazard control (at ECU) and their descriptions
Most Elimination: is the first choice and this is a permanent solution and should be
preferred
attempted in the first instance.
Substitution: if elimination is not possible the next preferred option involves
replacing the hazard by one of lower risk.
Isolation (enclose the hazard): this choice is to isolate the hazard so that
people do not come in contact with it.
Engineering: controls involve physical barriers or structural changes to the
environment or process.
Administrative: controls reduce hazard by altering procedures and providing
instructions. eg:
(i) Written Safe Operating Procedures.
(ii) Job rotation to restrict hours worked on difficult jobs.
Least
(iii) Staff trained in the correct operating procedures.
preferred Personal protective equipment: last resort or temporary treatment to deal
with the hazard, where the hazard cannot be removed or reduced by any other
means, eg:
(i) Handling of chemicals – gloves, safety glasses, aprons.
(ii) Protecting eyes from flying particles.
(iii) Protecting feet – safety boots. Hazard and Risk Management Guidelines (ECU). Retrieved January, 12, 2010 from
http://www.hr.ecu.edu.au/osh/resource/Risk%20Management%20For%20Risk%20Assess%20Procedure%20R1.doc
 Safety & Maintenance

Introductionto OHS frameworks
@
General hierarchy of hazard control (at ECU) and their descriptions
“There is a legal requirement to address each of the control criteria from
elimination through to personal protective equipment and to substantiate
and document why each criteria is not reasonably practicable for the
solution of the hazard”

“Administration and the use of personal protective equipment are the
lowest priority on the list of controls. These treatments should NOT be
relied on as the primary means of risk control. The higher option in the
control priorities must have been exhausted. These treatments require
management, enforcement, and commitment, together with behavioural
modification.”
Hazard and Risk Management Guidelines, ECU (pg 9-10)

Hazard and Risk Management Guidelines (ECU). Retrieved January, 12, 2010 from
http://www.hr.ecu.edu.au/osh/resource/Risk%20Management%20For%20Risk%20Assess%20Procedure%20R1.doc
 Safety & Maintenance
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Introduction to OHS frameworks (Robinson et al, 2008)
Safety performance measures
Some indicators might be used to assess risks and
reliability (associated with safety).
Such indicators may be expressed over different periods
(daily, weekly, monthly, annually). These include:

Fatalities (total numbers and the frequency of occurrence)
Injuries (total numbers, severity and the frequency of
occurrence)
Statutory breaches (number and severity)
Days gained or delayed (especially for projects and
contracts)
Dollars (gained or lost)
Availability (% time operating).

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2018
 Safety & Maintenance
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Tasks (self study materials)

There are a number of required Audio Visual items
and readings which constitute part of the content
for this lecture.

Information included in this lecture is only a
summary of the articles cited. Access the original
sources of information and read these please. Self
study reading list has been posted on the
Blackboard under Learning Materials tab in the
module 7 folder.

Piper Alpha (1 video)
RAAF F-111 (2 articles)
Incident data base in Finland (1 article)

Principles of Industrial Maintenance Edith Cowan University
2018
Component Life Time
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Thank you

Principles of Industrial Maintenance Edith Cowan University
2018