Chapter 4 - Australian Naval shipbuilders
4.1
The previous chapter traced the development of Australia's naval
shipbuilding industry to the mid-1980s. This chapter concentrates on how Australia's
prime contractors have developed their capacity over the past 20 years. It
looks closely at the build of six Collins class submarines by the Australian
Submarine Corporation (ASC) at Osborne, ten ANZAC frigates by Tenix at
Williamstown and six Huon class minehunters by ADI at Newcastle. It notes the
niche naval markets of two highly successful commercial aluminium shipbuilders
in Austal and Incat. Finally, the chapter looks at the air warfare destroyer
(AWD) and amphibious ship (LHD) projects, which are now in their early stages.
4.2
These past and current projects were referred to by a majority of
witnesses to explain Australia's current capacity to construct large naval
vessels. The projects will be mentioned throughout this report, particularly in
connection with the role of small and medium sized enterprises (chapter 5), the
pattern of infrastructure development (chapter 6), the productivity of the
Australian naval shipbuilding industry (chapter 9) and the wider economic
benefits from naval shipbuilding in Australia (chapter 11).
The prime contractors
4.3
Australia's major naval shipbuilders face the challenges of their
counterparts worldwide. Their survival depends on finding the most
cost-effective way to produce modern warships with highly sophisticated and
expensive systems. They must keep pace with the rapid advances in technology in
the face of falling demand for ships, escalating costs associated with the
increasing pressure for improved capability and the need to develop and retain
highly skilled workers. As noted in Chapter 2, shipbuilding is no longer about
metal shaping or fabrication: shipbuilders need specialist skills to integrate
modules in the final assembly. Australian naval shipbuilders have the added
problem of servicing a relatively small market. The following section looks at
the recent performance of Australia's three major primes—ASC, Tenix and Thales
(ADI).
ASC and the Collins-class
submarines: high achievement and high risk
4.4
The Australian Submarine Corporation (later ASC) was established in 1985
and chosen in 1987 as the prime contractor for the design, manufacture, upgrade
and delivery of the Collins class submarines.[1]
The Collins class project was the most ambitious and highest profile naval
shipbuilding project in Australia in the past two decades.[2]
It was ultimately a success on four key counts.
4.5
First, the May 1987 decision to award the $A5 billion Collins class
contract to ASC established a highly capable prime contractor. The decision
reflected Navy's view that considerable benefits would accrue from having one
organisation build and maintain the vessels.[3]
An Australian build with close access to the building yard promised reduced
operating and maintenance costs and increased length of service between refits.[4]
In addition, it was argued that building the vessels in-country would economise
on the high initial capital outlay on the integrated logistics support needed
to bring the submarines into military service.[5]
ASC delivered on these benefits.
4.6
As a result of the Collins class project, ASC was the likely choice for
the 25 year, A$5 billion contract for the through-life support of the
submarines, announced in 2003.[6]
There had been some concern prior to the completion of construction on the
submarines that Australia would lose the skills and design capabilities that
had merited the decision to build in-country. Writing in 1998, for example, Dr Paul
Earnshaw commented:
If a further two submarines are not acquired and there are no
follow on submarine projects, the design development capabilities established
are likely to diminish over time...Consequently, if Australia wishes to design
and build the next generation of submarines in about 20 to 30 years time, we
will likely again need to import key skills and capabilities, probably pay a
substantial premium, and experience a significant learning curve that will ultimately
pose a high level of risk in terms of capability performance, project schedule
and project cost.[7]
4.7
Despite earlier well-publicised problems, ASC's ultimate success in
completing the six vessels and securing the through-life support contract means
that these concerns were successfully resolved. The company's expertise in the
construction and repair of the Collins class submarines means it is well-placed
to develop the next generation of submarines. As the Executive Director of the
Australia Defence Association, Mr Neil James, told the committee:
If the next generation of Australian
submarines are not to be nuclear powered then it is highly likely they will
have to be built in Australia because there will be no-one else to build them. Therefore the
capacity of ASC to continue to build submarines is in a different setting to
the capacity of the rest of the industry to build surface ships...[8]
4.8
Furthermore,
in 2004 ASC secured access to the intellectual property rights for the submarines,
ending a series of long-running legal disputes with the Collins class designer
Kockums.[9] Although Kockums still owns the
intellectual property (IP), ASC has full access to it. As Chapter 8 discusses,
this access is crucial to ASC's long-term viability as a constructor and repairer
of the RAN's submarines.
4.9
A second gauge of the Collins class project's success is that it proved
and improved the capacity and productivity of the Australian industrial base to
build complex warships to a high quality, from scratch.
- All six vessels, with the exception of the bow of the lead boat,
were constructed in Australia to a high standard of workmanship. In terms of
poor construction work, the main fault was with welding done in Sweden on the
bow of the first ship.[10]
- The Collins class project achieved 73.5 per cent Australian
industry content for the new platforms, exceeding the government's minimum
target of 70 per cent.[11]
In so doing, the project promoted the establishment and development of many
second and third tier Australian companies. As ASC's Managing Director Mr Greg Tunny
told the committee: 'I think there are something like two-and-a-half thousand
significant suppliers on the Collins and over 1000
substantial suppliers'.[12]
- The Collins class project greatly enhanced the skill base of the
naval construction and design industry. Institutions such as the defence science facility and the local TAFE at Port Adelaide
were important in the training process.[13]
The project has provided the design and engineering skills that will assist in
ASC's development of the three air warfare destroyers and will be crucial
should Australia commit to a new generation of submarines.
- The project indicated that ASC was more productive than its
overseas counterparts. It produced one submarine per year, a faster rate of vessel
construction than in Dutch and British yards.[14]
4.10
A third measure of the success of the Collins class project was its
final product—a technologically and strategically important asset. The June
1999 report by Mr Malcolm McIntosh and Mr John Prescott on the
problems with the Collins project acknowledged that the submarines 'constitute,
on the one hand, probably Australia's most important strategic asset for the
decades starting 2000, and on the other, Australia's most ambitious and
technically advanced defence project ever'.[15]
4.11
ASC, in cooperation with the Defence Science and Technology Organisation
(DSTO), developed submarine technology that in some cases led that of the U.S.
and British navies.[16]
Most notably, DSTO developed sound-absorbing anechoic tiles which exceeded the
performance of those used by the northern hemisphere navies.[17]
Moreover, the Collins class vessels are now acclaimed as world class. Mr John
O'Callaghan, Head of the Australian Industry Group Defence Council, told the
committee:
...you would only have to ask the current
commander-in-chief of the Pacific fleet and a number of his predecessors what
they think about the Collins class submarine and there would be the unanimous
view coming out of Pearl Harbor that it is the best conventional submarine in
the world.[18]
4.12
In similar vein, Professor Gregory Copley, Director of Future
Directions International, wrote in his submission to this inquiry:
Despite the media's desire to repeatedly transform developmental
challenges into "problems", and repeat them, ad nauseum, as
clichés, the Collins-class built by ASC has proven to be almost
unparalleled in terms of its silence of operation...[and] repeatedly proven its
capability to defeat even US anti-submarine warfare sensors in rigorous fleet
exercises.[19]
4.13
A fourth—albeit indirect—measure of the Collins project's ultimate
success is that its well-publicised difficulties led to important changes in
Defence's procurement procedures.[20]
The creation of the Defence Materiel Organisation (DMO) in 2001 was partly a response
to the project's poor management. As the McIntosh–Prescott report had
recommended, the new procurement agency prioritised the recruitment of
experienced professionals and provided the basis for the vetting process
established in the Kinnaird reforms. These issues will be discussed in detail
in Chapter 16. The difficulties with the Collins class build are discussed
below.
Contractual problems
4.14
The Collins class project demonstrated the capacity of the Australian
industrial base to construct complex naval vessels, but exposed serious flaws
in Defence's procurement processes. The contract was framed:
-
to fix the project’s technical specifications;
- to fix the project's cost; and
- within an inflexible procurement strategy.
In combination, these conditions significantly increased the
project's risk and cost.
4.15
The project's key technical specification was for a world-class combat
data system (CDS). An early decision was made to prioritise a CDS independently
of the vessels' design, 'rather than the traditional procedure of selecting
from contending boat designs with whatever system was fitted as standard'.[21]
Navy rejected a commercial off-the-shelf (COTS) design for the CDS and insisted
on its multi-source specification. The CDS was to have a series of smaller computers,
instead of a large mainframe computer, which would enable several (rather than
one) crew stations to acquire and process data.[22]
4.16
This choice—to develop a unique product to match the RAN's ideal
specifications rather than acquiring a proven overseas design—has been
described as 'the most important single decision of the program'.[23]
The McIntosh–Prescott report noted: 'by including the combat system with the
platform in the single prime contract, with a unique military specification,
Defence left itself wide open to...technological problems'.[24]
The authors argued that the main problem with the development of all combat
systems is the rapid rate of technological change, giving rise to new
technologies during the course of the contract.[25]
4.17
The Collins class project had the added difficulty of working within a
'fixed cost' contract. The fixed cost of $3.9 billion (in June 1986 prices) was
the Labor government's response to the cost over-runs on past defence
procurement projects.[26]
It aimed to prevent suppliers from receiving compensation for changes in the
cost of inputs and specifications as they had done under 'cost-plus' contracts.[27]
However, as the difficulties with the CDS became apparent, project costs
inevitably inflated. In 2001 prices, the project's cost as at December 1999 was
$5.1 billion.[28]
The McIntosh–Prescott report identified the 'fixed cost' contract as a major
shortcoming of the Collins class project:
For a large, complex and new project, for which a design does
not exist in detail, and for which generous up-front payments are made, its
effect can be deleterious. Particularly in the later stages, it can encourage
the supplier to contest the specifications...to avoid responsibility. Conversely,
it can encourage the buyer to incorporate everything possible into the
contract...Difficulties in these areas epitomise the submarine project...[29]
4.18
The problems arising from the project's fixed specifications and fixed
costs were compounded by an inflexible procurement strategy. By 1993, it had
become clear that Rockwell, the combat system designer, was unable to comply
with Navy's specifications for the CDS. In keeping with the terms of the
contract, however, Defence did not allow a replacement COTS technology and ASC
effectively lost control of the Rockwell sub-contract.[30]
In 1996, when first ship HMAS Collins was provisionally accepted into
service, the CDS remained uncompleted. In 1998, these difficulties forced the
last of the Oberon class submarine to be held over past its original
commissioning date. Writing in September 2001, Mr Derek Woolner, a
Visiting Fellow at the Strategic and Defence Studies Centre, concluded:
The most compelling lesson that can be learnt from the Collins
submarine program is the importance of selecting the procurement strategy to
suit the nature of the project. In hindsight, at the point where it was decided
to develop a unique design for the new submarines, was the time to change the
procurement strategy.[31]
4.19
The McIntosh–Prescott report concluded that the CDS should be replaced,
preferably with a COTS option.[32]
Although a COTS-based combat system was (again) rejected, the Coalition
government did pursue the report's recommendation for a new CDS contractor
through open competition. However, in July 2001, the government scrapped the
tender process and awarded the contract for the tactical command and control
system to Raytheon. In September 2001, the RAN and U.S. Navy signed an
agreement maximising submarine interoperability, equipment production and
logistic support. STN Atlas was later awarded the contract for sonar and
navigation equipment.
4.20
Ironically, according to Mr Patrick Walters, the delays and
difficulties experienced with the CDS over the past decade ‘will now result in
an even more advanced system being progressively fitted into the Collins Class
boats by 2010’.[33]
Navy is currently replacing the system at a cost of A$500 million.[34]
The Managing Director of ASC Pty Ltd, Mr Greg Tunny, told the committee
that:
...Defence itself has essentially primed that [the combat data
system replacement] program...finding the information from overseas, taking
delivery of the FMS provided software and working with ASC, Raytheon, Atlas
Electronics and Thales Underwater Systems to bring it all together. They have
not had all the answers from day one but they have been very diligent in
seeking them out and pulling it together. I think that is a demonstration of
Defence being able to not only work very closely with industry but take the
lead on a program which had a lot of difficulties and a lot of challenges.[35]
4.21
Indeed, in terms of contract management, both Defence and ASC have
learnt valuable lessons from the Collins class experience. This is evident from
the alliance contract model for the AWDs and the staggered selection of key
contractors (discussed later in this chapter).
Tenix and the ANZAC class frigates:
on time and on budget
4.22
The ANZAC Frigate Project established Tenix as a leading Australian
prime contractor. The project was developed in the mid-1980s to replace the
RAN's River class frigates (see Appendix 7). As with the Collins class project,
an early decision was made to build the ships in-country. The original
objective was to build twelve ships; eight for the RAN and four for the Royal
New Zealand Navy (RNZN). The final contract was for ten ships, with only two
for the RNZN. At a total cost of $7 billion, it remains the largest single
defence contract awarded in Australia.[36]
4.23
The ANZAC project was based on a design and a construction contract,
with two companies competing for each tender. In December 1987, the Australian
and New Zealand defence ministers announced that Australian Warships Systems
Pty Ltd (AWS) and Australian Marine Engineering Corporation (AMEC) would
compete for the construction contract.
4.24
In 1989, the Australian government announced that the AMEC–Blohm+Voss
teaming had been successful. The frigates were to be built to the Bholm+Voss
MEKO 200 design at AMEC's newly acquired yard at Williamstown. The government
supported Navy's confidence in the MEKO 200 design and the capability of the
frigates.[37]
The sale of the Williamstown dockyard and AMEC's early launch of Australia's
first naval ship in more than 20 years indicated that the company was capable
of delivering the ANZACs. Still, there has been some indication that the German
designer had early concerns about AMEC's lack of construction experience.[38]
Even the prime's founder and Chairman, Mr Carlo Salteri, acknowledged: 'we
had never even built a rowing boat, let alone ten super sophisticated modern
naval frigates'.[39]
4.25
AMEC's ownership of the Williamstown dockyard came through a
series of takeovers associated with the ANZAC frigate tender and enabled by the
dockyard's privatisation. In 1989, AMEC changed to Australian Marine
Engineering Consolidated Limited (AMECON) and, in 1993, to Transfield Shipbuilding
Ltd. In 1997, following a reorganisation of the Transfield Group, the ownership
of the dockyard and the frigate project was in the name of Tenix Defence Marine
Division.[40]
The key features of Tenix's role in
the ANZAC build
4.26
The ANZAC Ship Project was a 15-year contract to design, construct, test
and trial ten vessels.[41]
All ten ships were delivered on time and on budget, with some of the frigates
delivered ahead of schedule.[42]
The ships were commissioned between March 1996 and June 2006 (see Appendix 7). Mr Salteri
reflected on the success of the project in the following terms:
We had faith in ourselves, and in the faith that some
people—especially people in the Government and the Navy—had in our Company. We
won their trust and support by running the Project so that it met international
best practice in terms of quality, price and adherence to schedule.[43]
4.27
In constructing the ships to this schedule, Tenix's main challenge was
to develop and integrate the sensor, weapons and communications systems.[44]
The key to overcoming this challenge was the technique of constructing modules
in different locations before final assembly (see Chapter 2). The modules for
the ANZACs were fabricated by Transfield at Newcastle and by Tenix at
Williamstown and at Whangarei in New Zealand.
4.28
Several sources corroborate the importance of Tenix's construction
techniques to the ANZAC project. Notably, a 2005 Allen Consulting Group report
to the Victorian government stated:
One issue where Tenix took the lead was in making substantial
advances in the modular build concept in what was the first surface combatant
to be constructed in this way in Australia. Not only were modules for the
ships' hulls and superstructure built in other parts of Australia, but some
were also constructed in New Zealand by Tenix. This sharing of the work allowed
ten ships to be delivered in a much shorter period of time than otherwise would
have been the case; at one stage of the project ships were being completed
almost every year.[45]
The committee inspected the ANZAC frigate HMAS Perth at
Tenix's premises at Williamstown on 27 April 2006.
Commissioned in June 2006, HMAS Perth was Tenix's tenth and final ANZAC ship.
4.29
Another crucial factor in the success of the ANZAC project was the
decision to test the combat system prior to installation. The Allen Consulting
report and a 2000 Tasman Asia Pacific report by Ms Denise Ironfield both
highlighted this decision. The Tasman Asia Pacific report noted that the
construction of a combat support centre to refine and test the combat system
prior to its installation 'played an important role in the delivery of the
first ANZAC frigate on time with a fully functional combat system'.[46]
The Allen Consulting report noted that 'the cooperation between Tenix and SAAB
in designing and installing the combat system has been one of the keys to
success in this project'.[47]
4.30
Tenix's success in delivering the frigates to schedule must also be
attributed to the availability and expertise of Australian subcontracting
companies. Chapter 5 elaborates on the role of small and medium sized
enterprises (SME's) in the project. Their involvement was aided by an effective
Australian Industry Involvement (AII) program. The program was a key element in
the ANZAC contract and part of the government's broader objective 'to foster
Australian prime contractors able to achieve high levels of local content
without subsidies'.[48]
Senator David Johnston aboard HMAS Perth at Williamstown, 27 April 2006
4.31
In 1989, Tenix (then AMEC) established an Industry Development Unit
which assigned companies a clearly defined role. Tenix was also assisted to
subcontract and maximise local industry content through the role of the
Industrial Supplies Office (ISO). Tenix has noted that the ISO's role in
identifying Australian subcontractors enabled the prime to secure local content
at a lower cost and over a shorter timeframe than would otherwise have been the
case.[49]
At the same time, Tenix's ability to meet Defence's high quality standards
influenced subcontractors down the supply chain to implement best practice
programs.[50]
4.32
Tenix and SAAB are responsible for the in-service support of the ANZACs.
In July 2001 Defence signed a long-term alliance agreement with both companies
covering the development of all future capability change packages for the ANZAC
class.[51]
This was the first time that Defence had pursued an alliance arrangement for a
through-life support contract.[52]
The alliance underlines the benefits that local construction offers for through
life support for Defence, the prime and its sub-contractors.
Tenix and HMAS Sirius
4.33
Tenix's credentials as a successful prime contractor have also been
evident in the A$60 million project to convert the commercial auxiliary oil
tanker Delos into an underway-refuelling ship. Tenix performed all the
conversion work at the Australian Marine Complex's Common User Facility in Henderson,
south of Perth. It was awarded the contract in February 2005. The ship was
commissioned on 16 September 2006, nearly three years ahead of schedule
and on budget.[53]
4.34
Lieutenant General David Hurley described the project to the committee
as 'one of [Defence's] most successful shipbuilding projects in 50 years'.[54]
Mr Kim Gillis, the DMO's project manager for HMAS Sirius, partly
attributed this success to the contractual incentives that DMO offered. He told
the committee:
We proposed a scheme that would indicate that if Tenix delivered
four weeks ahead of schedule they would receive $1 million and if they
delivered three weeks ahead of schedule the bonus was $750,000. So it was
$250,000 a week.
One of the reasons why we went through this task is that
traditionally naval vessels, especially first of class, do have considerable
blow-outs in time and there is a propensity to make lots of changes. With a
time constraint, it meant that Tenix had no incentive to make changes to the
vessel.[55]
4.35
Defence places importance on companies being able to meet its deadlines.
In the case of Tenix and HMAS Sirius, the bonus scheme reflected the
imperative of delivering on schedule. Apart from a decision to de-gas the
vessel, Defence did not waiver from its original requirements.[56]
Mr Robert Salteri, CEO of Tenix Defence, noted:
The program has again demonstrated Tenix Defence’s capability to
successfully modify an existing ship design to meet Navy’s needs within tight
schedule and budget constraints. The successful completion of this complex
project is a tribute to our outstanding workforce, and a positive and effective
working relationship with our Customer, as well as a clear demonstration of
what can be achieved with the facilities at Henderson.[57]
Thales Australia (ADI)
4.36
In October 2006, the French military company Thales increased its 50 per
cent share in Australian Defence Industries (ADI) to full ownership.[58]
This acquisition is discussed shortly. As a prime contractor in the Australian
naval shipbuilding market, ADI's main projects were the build of six minehunter
vessels and the ongoing upgrade of the FFG-7 Adelaide class frigates.
ADI and the Huon class minehunters
4.37
In May 1989, Australian Defence Industries (ADI) was created as a
government-owned corporation to take over the major defence industry facilities
still in government ownership.[59]
Its four operating divisions were naval engineering at the Garden Island
dockyard, ammunition and missiles, weapons and engineering and military
clothing. The Defence Minister explained that the launching of ADI was part of
broader process to 'step away from the bureaucracy and politics' and make
government factories and dockyards 'an integral part of Australian industry'.[60]
The Minister went on to detail the government's approach of managed competition
in the naval shipbuilding sector:
Defence, like the economy at large, is best served by an
industry structure that can hold its own in the world market...We have not
abandoned the idea of nurturing particular capabilities in special
circumstances, but government support of that kind is no longer an easy way out
for firms unable to compete in the commercial area...Our objective is to foster
Australian prime contractors able to achieve high levels of local content
without subsidies. The ship building, ship repair and engineering industries
exemplify this approach.[61]
4.38
ADI's key project was as the prime contractor for the Huon class
Minehunter contract. Defence awarded the $917 million project to ADI in 1994 to
build six Minehunter coastal vessels. ADI built the vessels at the greenfield
site of Carrington in Newcastle, employing 'a completely new greenfield
workforce for the...project'.[62]
It delivered all six ships on schedule.
A model of the Huon class Minehunter, ADI
Headquarters, Garden Island
4.39
ADI's achievement in keeping to schedule was all the more impressive
given it had design authority and pursued a concurrent design and build
program. It was the first Australian-sourced naval defence project in which the
prime contractor was given design authority. A January 2002 report by Tasman
Economics noted that ADI had estimated that 80 per cent of the design work had
been undertaken in Australia. ADI and its subcontractors modified the Italian
design to include an upgrade to the sonar, a new combat system, an upgraded air
conditioning system, improved accommodation and an extension of the upper deck.
The first composite hull was manufactured in Italy; all subsequent hulls were
completed at the new Carrington facility.[63]
4.40
A key to ADI's success in the project was its investment in an onshore
integration facility to integrate the combat system. This facility was able to
simulate the CDS technology in the environment that the ships would encounter.
The 2002 Tasman Economics report noted that this approach 'minimised the risk
associated with this complex task and enabled the conduct of the first-of-class
trials to be undertaken within a tight contract schedule'.[64]
4.41
ADI also relied on a strong skills base, drawn from various
subcontractors and small and medium sized enterprises. The Tasman Economics
report noted that nearly 85 per cent of businesses supplying the Minehunter
project were located in New South Wales.[65]
The project also exceeded the specified 68.4 per cent of the contract value
required as local content.[66]
As with Tenix's build of the ANZAC frigates, a key factor in the high level of
AII was the role of the Industrial Supplies Office. The Tasman Economics report
noted that ADI worked closely with an ISO consultant for five years. As a
result of this interaction, 'at least $55 million of the initially proposed
imports were replaced with products manufactured by local industry'.[67]
4.42
The Minehunter project is the most significant example to date of ADI's
ability to manage large naval shipbuilding projects. Apart from its local skill
base and infrastructure, the company's capability was enhanced through its
joint ownership by the French Group Thales. Mr Geoff Smith, ADI's former
Director of Naval Sales and Marketing, told the committee:
Our group is a highly experienced naval systems developer,
integrator, designer and prime contractor, as evidenced by our successful
delivery of the $1 billion minehunter project and our activity as the nation’s
leading naval repair, maintenance and upgrade contractor. Our prime contracting
creditability is further significantly enhanced by our reach-back capability to
our part owner, Thales, which has prime contracting experience in complex
projects throughout the world, including the UK aircraft carrier project.[68]
4.43
However, the Department of Defence noted that while ADI is viable in the
ship repair and upgrade activity, it is having problems in meeting schedule and
performance specifications.[69]
These difficulties have been most apparent in ADI's project to upgrade the Adelaide
class frigates.
The FFG Upgrade
4.44
The FFG Upgrade project is a A$1 billion contract for the upgrade of
four frigates' combat systems. The first ship, HMAS Sydney, was returned
to the Navy on 28 April 2006; HMAS Melbourne completed the docking phase
in August 2006. The committee inspected progress on the upgrade of HMAS Melbourne
during its visit to Garden Island in June 2006. It is expected that sea trials
and the formal hand back to the Navy would take place in early 2007.[70]
4.45
ADI describes the FFG Upgrade project as 'the most sophisticated naval
systems integration task ever undertaken by an Australian company...'[71]
Mr Smith told the committee that ADI was the only company in Australia to
have performed the complex design and engineering required to replace operating
systems through the FFG's hull.[72]
In terms of the technology required to perform the upgrade, the key is the
ADI-designed and developed Australian Distributed Architecture Combat System.
In terms of project management, the DMO's deputy CEO, Mr Kim Gillis,
recently noted that 'with the cooperative working relationship now existing
between DMO and ADI, I am confident of our ability to successfully deliver the
FFG Upgrade Project'.[73]
4.46
However, the early stages of the FFG upgrade program were significantly
delayed at considerable expense to the taxpayer. The upgrade of HMAS Sydney
was originally scheduled for delivery in August 2003. However, work on the
vessel at Garden Island only commenced in September 2003 before it was
eventually delivered to the RAN in April 2006. The upgrade contract has been
significantly redrawn, reducing the number of ships from six to four and
extending the delivery schedule. A June 2005 Australian National Audit Office
report noted that by August 2002, DMO had had to revise ADI's contract schedule
on six separate occasions. The report also noted:
A high level of audit assurance is not able to be provided on
the FFG Upgrade Project given deficiencies in the FFGSPO information management
systems and deficiencies in the level of design and development disclosure
provided to SPO personnel by the FFG Upgrade Prime Contractor.[74]
The committee visited the Captain Cook Dry
Graving Dock at Garden Island on 28 June 2006 where it viewed progress on the upgrade of HMAS Melbourne.
4.47
The committee understands that ADI has overcome most of its project
management difficulties. Defence told the committee that 'the experience and
expertise gained by the Prime Contractor during the first FFG platform upgrade
has provided a higher degree of confidence in their ability to complete the
upgrade'.[75]
The Navy magazine commented in January 2006 that 'thanks to a reshaped
project organisation, new management team and sharper project management focus,
the FFG Project upgrade has turned the corner'.[76]
ADI anticipates that subsequent upgrades of the FFGs are likely to run to, or
ahead of, schedule. Defence is currently renegotiating the contract to base
payment on achievement of capability milestones rather than earned value.[77]
The issue of foreign ownership
4.48
In 1999, the French company Thales and Transfield bought ADI from the
federal government for $360 million in a 50–50 joint venture. In October 2006,
the Treasurer, the Hon. Peter Costello, cleared the proposed acquisition
by Thales Australia Holdings Pty Ltd from Transfield Holdings Pty Ltd of the
remaining 50 per cent of the shares it does not own in ADI Limited.[78]
ADI has now joined other fully owned Thales subsidiaries—Thales Underwater
Systems, Air Traffic Management, Training and Simulation—under the single
organisation of Thales Australia.[79]
Summary
4.49
At a cost per vessel of US$500 million, US$375 million and US$122 million
respectively, the Collins, ANZAC and Minehunter projects were the most
expensive vessels built in Australia over the past decade.[80]
They were important acquisitions for Australia's self-reliance, and central to
the government's aim of increasing the private sector's share of defence
outlays and the local defence industry's capacity and international
competitiveness.[81]
They have shaped the capability and viability of Australia's three main prime
contractors. As Lieutenant General David Hurley told the committee: 'despite
claims that ongoing work is required to ensure a competitive and skilled
industry base, none of the major companies have workforces or shipbuilding
projects that pre-date the mid 1980s'.[82]
The aluminium shipbuilders—Austal
and Incat
4.50
Australia's naval shipbuilding sector also has two innovative and
successful commercial shipbuilders in Austal and Incat. Given their
specialisation in lightweight, multi-hull aluminium vessels, Austal and Incat
should be differentiated from builders of steel warships.[83]
Austal
4.51
Austal is the largest commercial shipbuilder in Australia. The company
established operations at Henderson in Western Australia in 1998 and at Mobile
in Alabama in 2001. In Western Australia, the company employs 1 100 staff
at three sites, while it intends to grow its U.S. workforce to over 1 000
staff by December 2006.[84]
Despite its recent growth, Austal is relatively small compared to the other
primes. Its turnover is $65 million compared to ASC ($229 million), ADI Limited
($656 million) and Tenix Defence ($650 million).[85]
4.52
In 2003, Austal won the $553 million contract to supply the RAN with 12
Armidale class patrol boats.[86]
Mr Bob Wylie, a Visiting Fellow at the Australian Defence Force Academy,
has noted that Defence's contract for the Armidale class helped Austal enter
the Australian defence market. Instead of insisting on mandatory specifications
for the vessels, Defence framed the tender in terms of the operational
performance that it wanted.[87]
Austal met these performance requirements and has already delivered five
vessels to the RAN.[88]
4.53
Austal's key U.S. naval contract is as the designer and builder of the
Littoral Combat Ship (LCS) platform. It supplies the LCS as a trimaran solution
for the U.S. Navy. Austal's LCS ship has a scheduled production timeframe of
two years, compared with around four years for a regular combat ship. As the
designer and builder of the vessels, Austal is able to tailor construction for
its shipyard's build processes, and thereby minimise modifications. If the LCS program proceeds as planned
the US Navy may require up to 60 vessels with an estimated project value of
US$15 billion.
4.54
Austal's submission to this
inquiry stated that the largest potential for growth in its shipbuilding
business is in the patrol/defence sector.[89]
It emphasised that Australia is world competitive in the
construction of high speed aluminium vessels. However, the submission noted
that most foreign builders of very large steel naval vessels 'would be able to
produce the vessels within a similar or better cost and time delivery envelope
than Australian industry could reasonably be expected to offer'.[90]
This issue is discussed later in the report. It should be noted that although
Austal specialises in lightweight, fast speed aluminium vessels, it would compete
for resources and skills should Australia opt to build very large steel naval
ships in-country.
Incat Australia
4.55
Incat is a Tasmanian-based company specialising in high speed aluminium
vessels for commercial applications. As with Austal, Incat has captured a niche
in the overseas market for fast ferries and other lightweight commercial
vessels. For more than 20 years, Incat has developed the design of Wave
Piercing Catarmarans. In 1990, it pioneered large high-speed craft with a 74
metre fast ferry. These vessels have increased in length to 112 metres today.[91]
4.56
Incat has successfully sold the high-speed transport application of
these commercial Catarmarans to military buyers. It has leased three water jet
propelled vessels to the U.S. Army.
- In 2001, Incat formed a strategic alliance with Bollinger
Shipyard Inc. of Louisiana and in partnership, won a U.S. military contract for
a high speed craft. The Bollinger–Incat USA alliance leased a 96 metre
Catamaran, HSV-X1 Joint Venture, which participated in operations in the Persian
Gulf.
- In 2002, Bollinger and Incat leased a 98 metre Theatre Support
Vessel—TSV-1X Spearhead—to the U.S. Army. The Army has used the vessel to
assist with rapid pre-positioning of supplies and troops.
- In 2003, Bollinger and Incat delivered a HSV 2 Swift (Incat
Hull 061) to the U.S. Navy. The HSV 2 Swift—also a 98 metre vessel—will
conduct a series of demonstrations that will develop interoperability potential
of high speed vessels with amphibious ships.[92]
4.57
Incat Australia's Managing Director, Mr Craig Clifford, told the
committee that the 'fact we have had vessels available to lease to military
programs in the past has been more good fortune than management'. He noted that
the vessels are large assets for the company and need to be in constant use. In
the longer term, Mr Clifford agreed that commercial operators seconding
vessels to a military operation 'would make some sense'.[93]
However, it is unlikely that Incat will join Austal as a commercial shipbuilder
involved in warship construction. As defence told the committee:
...there is scope for commercial shipbuilders to undertake hull
and ship modules construction work subject to their industrial capability...But
they are less likely to play a major role in the design, production and support
of the weapon, combat and specialised communication system requirements which
make up the primary systems in Naval ships.[94]
4.58
Mr Clifford told the committee that the aluminium design of the vessels
does not limit future development. Indeed, Incat has drawings for a 150 metre
catamaran. Mr Clifford explained that Incat's focus remains on producing large
aluminium high-speed catamarans, rather than aluminium patrol boats. He noted
the company had had discussions with the UK Ministry of Defence, several
European navies and 'North American interests as well'. Unlike Austal, however,
Mr Clifford did not foresee opportunities to build offshore:
We are not in a position, from a manpower point of view or a
financial point of view, to set up shop with a large commercial facility in America
at this point in time. We see that as distracting us from our core business,
which is shipbuilding in Australia...We do not foresee a stage where the American
shipbuilding lobby will readily allow Australian built ships to be sold into
America.[95]
The
committee visited Incat's premises at Derwent Park, north of Hobart. The photo is of Hull 062, The Milenium Tres, now owned and operated by Acciona Trasmediterranea, Spain.
Summary
4.59
Austal and Incat have both had success in recent years adapting their
commercial designs for military use. Unlike the three main primes, these
companies specialise in fast, lightweight aluminium vessels designed for
versatility and manoeuvrability in a military support role. Both companies have
been assisted by partnerships with U.S. companies. In terms of business
strategy, however, the companies are quite different. Incat adapts its
commercial vessels for lease to the U.S. Army as a way to keep its ships in
use. It has no plans to establish a foreign shipyard. Austal has operated a U.S.
shipyard for the past five years and anticipates most business growth in its
defence/patrol sales.
The Air Warfare Destroyer (AWD) and
Amphibious Ship (LHD) projects
4.60
Before concluding the committee's consideration of Australia's major
naval shipbuilders, this section outlines the primes' involvement in DMO's two
major upcoming naval shipbuilding projects. These are the construction of three
air warfare destroyers (AWDs) and two amphibious ships or Landing Helicopter
Docks (LHDs). The 2006 Defence Capability Plan lists the estimated expenditure
band for these two projects at $4.5–$6 billion and $1.5–$2 billion
respectively.[96]
The AWDs will be built principally by ASC; tenders for the LHDs contract closed
on 27 September 2006 and will be awarded in mid-2007.
ASC and the AWD project
4.61
The AWD shipbuilding contract was contested between two
Australian primes; ASC and Tenix. Both companies lodged very competitive
tenders with strong backing from their respective state governments. On 31 May 2005, the Minister for Defence, Senator the Hon. Robert Hill, announced that ASC
was the government's preferred shipbuilder for the project 'on the basis that
ASC Shipbuilders offered a superior bid in terms of value for money'.[97]
The Minister also noted the
government's allocation of $455 million until mid-2007 to fund further design
work, workforce skilling, initial infrastructure investment and facilities
construction.[98]
Defence has told the committee that the South Australian government is
providing $115 million in funding for a common user facility at Osborne while ASC will contribute $69 million.[99]
The picture in Chapter 6 provides an impression of the completed Osborne site.
4.62
Following ASC's selection, the Commonwealth chose Raytheon Australia as
the combat system systems engineer for the AWD project. It is Raytheon's
responsibility to integrate the selected Lockheed Martin Aegis combat system,
which the Commonwealth purchased from the U.S. Navy for A$1 billion.[100]
Learning from the Collins class experience, the Commonwealth's purchase of the
Aegis system is intended to 'minimise the risk of any delay in the 2013
delivery for the first Air Warfare Destroyer'.[101]
4.63
Following a further competitive tender process, in August 2005, the
government announced that U.S. firm Gibbs & Cox had been selected as the
preferred designer for the AWD hull.[102]
Gibbs & Cox have opted to evolve a design based on the U.S. Arleigh Burke
destroyer. Again, the government identified the Gibbs & Cox tender as 'a
superior bid in terms of value for money'.[103]
However, the government has retained the right to choose a cheaper 'military
off-the-shelf' design option developed by the Spanish firm Navantia based on
the Spanish F100 destroyer.[104]
4.64
ASC, Raytheon Australia, and the Commonwealth government form the AWD Alliance.
The Alliance is part of the government's collaborative strategy, designed to
reduce project risk, meet contract schedules and deliver a high level of
capability.[105]
The practical expression of the Alliance is the AWD System Centre in Adelaide.
Opened in August 2006, the centre will accommodate staff from ASC, Gibbs &
Cox, Raytheon, Navantia, Lockheed Martin, the Commonwealth government and the
U.S. Navy. Over the coming months, the two designers will collaborate with ASC and
Raytheon to assess the compatibility and cost-effectiveness of their options.
The Systems Centre will employ 200 people to develop lifetime support for the
AWDs. A particular challenge will be to update continually the AWDs' software
to ensure compatibility with U.S. Navy Aegis vessels.[106]
4.65
As the prime contractor for the AWDs, ASC is faced with particular
challenges. Chapter 7 discusses the crucial issue of attracting sufficient
skilled labour into large-scale naval shipbuilding projects at a time when the
resources sector is booming and unemployment is low. The committee heard from
Managing Director, Mr Greg Tunny, that the company has had no trouble to
date in meeting its staffing requirements for both the AWD and Collins class
refit projects. Mr Tunny stated:
ASC has met its recruitment targets for AWD to date and is
fulfilling its objectives on that program. Perhaps it is of even more interest
that, during the last several months, we have actually recruited more than
twice as many people onto submarines...We have recruited about 150 people in the
last three and a bit or four months. There has been no trouble. We have got
them all and we are keeping those programs to schedule and we are delivering
what we need to on AWD.[107]
4.66
Another upcoming issue for ASC will be the transition to private
ownership. It has been a long-standing policy of the Coalition Government to
privatise the company.[108]
Shortly after full Commonwealth control commenced in 2000, ASC began a reform
process to facilitate eventual privatisation.[109]
In May 2006, however, a Carnegie Wylie report commissioned by the federal
government recommended delaying the sale of the company until after the
contracts for building the destroyers had been completed. Other reports raised
concerns that the contract alliance had not properly bedded down.[110]
In August 2006, the federal government announced that the competitive tender
sale process for the sale of ASC would be delayed until after the 2007 federal
election. The government has also flagged foreign ownership limits on the
company, including a requirement that a majority of its directors must be
Australian citizens.[111]
The LHD project: Tenix and Thales
4.67
As mentioned earlier, tenders for the LHD project closed in September
2006. The shipbuilding contest is between Tenix and Thales Australia. The
primes have both teamed with a design company—Tenix with Navantia and Thales
(then ADI) with Amaris. The Navantia (27 000 tonnes) and Amaris
(22 000 tonnes) designs both class as 'very large' naval vessels. The LHDs
are intended to replace HMAS Manoora and Kanimbla and the
Heavy Landing Ship HMAS Tobruk (see Appendix 7). They will be by
far the biggest ships in the Australian fleet.[112]
4.68
Defence has explained to the committee that 'proposals on what
proportion [of the LHDs] to build in Australia as opposed to overseas will be
one for the tenderers'.[113]
In other words, either or both tenderers may incorporate some option to build
part or all of the vessels overseas. The rationale would be that the foreign
component could be built more cheaply abroad than in Australia given many
foreign yards' economies of scale. The government has declared its preference
for the LHDs to be built in Australia but has emphasised that 'Australian
industry will need to demonstrate that it can deliver the project at a
competitive price'.[114]
4.69
Most of the evidence the committee has received supports Australian
primes' capacity to build the LHDs in-country.[115]
An in-country build would require involvement from several Australian yards to
construct the estimated 120 modules for each vessel.[116]
The competing primes are themselves confident that the ships can be built in Australia.
Mr David Miller, Executive General Manager of Tenix Defence Pty
Ltd, told the committee:
...one of the great advantages that we have in Australia is the
availability now of these common user facilities. We do not have first-hand
experience in South Australia but, certainly, our Tenix site is immediately
adjacent to the common user facility in Henderson...The availability of that
infrastructure allows us to take on major projects without the barrier to entry
that we might otherwise experience if we had to go out and capitalise all of
that ourselves.[117]
4.70
Mr Geoff Smith, ADI's former Director of Naval Sales and Marketing,
told the committee that ADI supports an in-country build of the amphibious
ships.[118]
He was confident that ADI can garner the capacity to build the ships
in-country:
We have partners in the bid, one of whom is an engineering
company based in Newcastle called Forgacs. They have facilities in Newcastle;
they also have facilities in Brisbane. Between our partners, ourselves,
Forgacs, our French designer-shipbuilder partner and other strategic
subcontractors that we have already identified we do not see ourselves in
anyway constrained in that particular [the LHD] program.[119]
The future of the primes
4.71
In their evidence to the committee, both ADI and Tenix commented on the
effect that the AWD and LHD contracts may have on the future industry
structure. Mr Smith told the committee that high end warship construction
and future submarine construction is 'now inevitably focused in South Australia'.
He added: 'we are exploring every opportunity that we can to be part of the AWD
program'. Furthermore, Mr Smith explained that:
...we believe that there is an opportunity and a need...to have a
second company there [in South Australia] able to do repair and maintenance
and, in particular, upgrade capabilities of existing fleet units...Our position
is that we need to be there to repair, maintain and look after things that exist,
but we also need to be able to use that very capability...to ramp up and to do
less complex shipbuilding programs.[120]
4.72
Mr Miller from Tenix told the committee:
Currently Australia is certainly on a path to get down to two
strong shipbuilders, because whoever comes out of the LHD program would then
obviously have a very large base of work and an infrastructure to go along with
that for quite some time as long as those ships are constructed in Australia.
If the result of LHD is that the ships are merely constructed overseas and
brought here for some amount of final fit-out then that alters the landscape
considerably.[121]
4.73
Mr Miller's comments indicate that the unsuccessful tenderer for
the LHD bid will struggle for market position and that even the successful tenderer
may lose some capacity if Defence opts for an offshore build. The committee is
aware of arguments that future industry rationalisation may be needed.[122]
It is important to note here, however, that various supply-side factors will
also influence the future industry structure: which company will win the LHD
tender; what proportion of this contract will go offshore; how will Thales'
acquisition of ADI affect the market; and who will acquire ASC?
Conclusion
4.74
This chapter focused on the development of Australia's prime naval
shipbuilding contractors over the past twenty years. It has highlighted the
importance of key projects in establishing the viability, the capacity and the
reputation of the prime contractors. The primes have shown their ability to
undertake technologically and managerially complex projects. They have done so
through investing in contract and project management skills, modernising
construction and assembly processes and connecting with suppliers up and down
the supply chain.
4.75
This experience has also underscored governments' important role in
investing in the primes and improving Defence's own contract management
practices. Governments have sustained domestic capacity by awarding
through-life support contracts to ASC for the Collins class and to Tenix for
the ANZACs. Defence's innovative contracts have introduced a new prime to the
market (Austal) and achieved outstanding results from existing primes (Tenix
and HMAS Sirius). It has also sought to minimise contractual risk for
complex projects (FFG Upgrade and the AWDs).
4.76
The chapter concluded with a comment on Australia's current capacity to
build and repair large naval vessels in the context of the demanding AWD and
LHD builds. The committee received considerable evidence that the Australian
primes have the capacity to build the LHDs in-country. They are improving their
performance and capability and are willing to invest in Defence's demanding
future workload. Their main challenge is to build more complex ships with
highly sophisticated and expensive systems and rising costs associated with
improved capability.
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