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Transcript of APCL brochure
Tel Fax Email Web Address
Au Posford Consulants Ltd.: (852) 2560 8811: (852) 2513 1828: [email protected]: www.apcl.com.hk: 15th Floor, 633 King’s Road, North Point, Hong Kong
architecture project management civil engineering i.t. g.i.s.
2
Au Posford Consultants Ltd.
Corporate Structure and International Link
Au Posford Consultants Limited (APCL) was formed in 1989, as a
joint venture practice between David S.K. Au & Associates Ltd.
(DAAL) and European Royal Haskoning Group (previously Posford
Duvivier). Royal Haskoning (RH) is a multi-disciplinary consulting
firm with over 4,000 staff worldwide.
On 28 February 2012, RH announced the news of the intended
merger between Royal Haskoning and DHV. This merger doubles
the reach of RH and DHV. The intended name of the new com-
pany is Royal Haskoning DHV, and they will become one of
Europe's leading independent project management, engineering
and consultancy service providers with over 8000 staff in 35
countries worldwide. The merger agreement itself is scheduled to
be signed mid-Summer 2012. Company History and Development
David S.K. Au & Associates Ltd. (DAAL) and has been operating in
Hong Kong since 1980 and currently employs over 160 profes-
sional and technical staff. The company provides a wide range of
services under one roof, including project management, architec-
tural, structural civil, geotechnical, building services engineering,
quantity surveying, building surveying and information technol-
ogy consultancy. The latest technology is employed to produce
design packages to Hong Kong and international codes, with
drawings being prepared on the latest versions of AutoCAD or
Micro-Station. The breadth of the firm’s expertise ensures that
each and every project receives adequate consideration with re-
gard to aesthetics, functionality and interaction with the local
built environment. Quality Assurance Accreditation Quality Assurance Accreditation Quality Assurance Accreditation Quality Assurance Accreditation
APCL operates a quality system which is based on and meets the
requirements of the international quality system standard ISO
9001(2008). The QA system is vigorously implemented through-
out the project cycle.
Company Profile
3
Mission Statement
APCL always aspire to excellence. We value and practice teamwork in all our projects, encouraging
and promoting team spirit in our own staff and in our business associates and clients. We believe in
the creation of optimized, context-responsive, tailor-made services through clear communication
on Day 1.
Our companies strive to achieve success through our core values based on our philosophy of
“DREAM” – a “dream” company, a “dream” team and a “dream” workplace: D for Dedication
We remain dedicated in all our commissions, both during the consultancy and
including any post-consultancy services required, giving peace of mind to our
clients.
R for Reliability
We understand the importance of reliability in the delivery of our services in
terms of both quality and programme, and we aim to meet such expectations
from our clients.
E for Excellence
We cultivate excellence in our staff through continuous professional develop-
ment (CPD), equipping them in state-of-the art technical knowledge and good
project management techniques in our services.
A for Authenticity
We appreciate the need to be genuine in our relationship with our business
associates and clients. We firmly believe that honesty is the best policy.
M for Market-leader
We aspire to become a market leader in our fields of services and we shall
continue to develop our companies to achieve this goal, delivering excellent
services to our clients and business associates and a sense of pride in our
staff.
4
AVIATION
航空 Project: Beijing New International Airport
Client: Beijing Capital Airports Holding Company, China NACO has been incorporated into the design of all modes of public transport (including high-
speed trains, metro and inter-airport trains), which will be processed in a Ground Transportation
Centre in front of the new terminals. The layout of the runways, taxiways and ramps have been
carefully designed to keep airplane taxi distances as short as possible, thereby reducing fuel con-
sumption and CO2 emissions. The Beijing New International Airport (BNIA) will set the new stan-
dard for future mega airports.
NACO (Netherlands Airport Consultants), a member of the DHV Group, submitted the winning
master plan for the BNIA, which will be the world’s largest airport and which will be built in the
Chinese capital of Beijing. The BNIA with have a total of eight runways, giving the airport the ca-
pacity to accommodate up to 130 million passengers per year.
5
AVIATION
航空 Project: Viracopos-Campinas International Airport
Client: Consórcio Aeroportos Brasil Viracopos Airport processed 7,542,239 million passengers in 2011 and its traffic is expected to
grow to 15 million passengers annually within the next 10 years. The current infrastructure and
more specifically the terminal building will need to be modernized and expanded.
The consortium, Consórcio Aeroportos Brasil, which includes Triunfo Participações e Investimen-
tos, UTC Par and France's Egis Avia won the concession with a bid of $2.2 billion.
Netherlands Airport Consultants B.V. (NACO), a member of Royal Haskoning DHV Group, suc-
cessfully collaborated with a strong local and international team for the concession bid of Viraco-
pos International Airport. Lead by Triunfo Participações e Investimentos and UTC Participações,
the consortium will be responsible for the management and development of the airport for the
next 30 years.
6
Building Design
建築設計 Project: Franciscus Hospital, Roosendaal
Client: Province of Roosendaal, The Netherlands
The Franciscus Hospital in Roosendaal is the
region’s main general hospital, which pro-
vides health care to a regional area with ap-
proximately 200,000 residents in the south-
west of The Netherlands. When it completes
in 2015, the Franciscus Hospital will provide
access to a range of state-of-the-art health
services across the region for patients as well
as medical and research staff.
Royal Haskoning has been involved since
2007 and is responsible for managing and de-
signing the entire project. The entire project
is being carried out while the hospital contin-
ues to function as usual. The extent of the
work is vast, so the work is being rolled out in
phases to cause the least amount of disrup-
tion to the everyday running of the hospital,
so the staff can continue to provide high-
quality health care to patients.
As lead engineer, Royal Haskoning is responsi-
ble for project, design and contract manage-
ment and has provided the total range of en-
gineering services and consultancy expertise
such as hospital planning, architecture, struc-
tural engineering, building services, infra-
structure, acoustics and noise, building per-
mits, tendering and cost management.
7
Building Design
建築設計 Project: South African National Antarctic Expedition, SANAE IV
Client: The Department of Public Works, The Government of South Africa The Base has operated as designed for 15
years on a 24/7, 365 days / year basis – which
is equivalent to more than 28 years of
‘normal’ operations. It is now due for refur-
bishment and modernisation to improve en-
ergy efficiency, structural reliability and living
conditions for the 10 scientists and technical
personnel who over winter at SANAE IV.
Maintenance and repair work as well as re-
stocking of the base is done by a Department
of Public Works (DPW) team of ± 60 during
the summer months – November to end Feb-
ruary.
SSI Engineers and Environmental Consultants,
a member of DHV Group, won the tender is-
sued by the Department of Public Works, on
behalf of the Department of Environmental
Affairs & Tourism who administer the facility,
on the basis of skills, resources and past ex-
perience.
The first step in the refurbishment process is
the compilation of a status quo report, then
converting this into a procurement and con-
struction contract document which will go out
to tender. Thereafter SSI will supervise the
refurbishment work which has to be com-
pleted within a 40 month time frame set by
the client.
The first investigation visit to the base has
been completed and concentrated on review-
ing all mechanical, electrical and structural
components of the base. Modifications, re-
conditioning and replacement of equipment
will include:
1) The snow smelter and fresh water supply 2) Sewage treatment plant
3) HVAC system
4) Hospital and kitchen facilities
5) Loading facilities
6) Helicopter & caterpillar lifting platforms
7) Structural anchors
8) Water storage tanks and
9) Diesel generators
10) Electrical Infrastructure
8
Building Design
建築設計 Project: AstraZenica Pharmaceutical Production Plant
Client: The Department of Public Works, The Government of South Africa The project comprises of the modification of two existing standard factory units in Jababeka III,
which were combined together and converter to an international standard pharmaceutical plant.
The plant consists of a production plant (850m2), warehouse (850m
2), offices, personnel facilities
and a utility building.
Royal Haskoning Indonesia in cooperation with DBI provided the conceptual and detail design for
the building, buildings services and process utilities. Royal Haskoning performed the project
management during the project as well as the construction management and safety manage-
ment.
In May 2012, the Indonesia team won an International Safety Award organized by AstraZeneca
for this project.
9
Building Design
建築設計 Project: Chi Lin Nunnery Phase IV Development
Client: Chi Lin Nunnery
Nan Lian Garden is situated at Diamond Hill of Kowloon, taking in the full view of southeast Kow-
loon. Being a designed public park, occupying an area of 3.5 hectares, Nan Lian Garden is built in
the classical Tang Dynasty style (618 AD to 907 AD), on the blue print of Jianshouju, the only
Tang landscape garden the original layout of which cab still be placed and traced today, and the
shape of which Garden site.
Hills and rocks, water, plants and timber structures are built and arranged according to classical
Tang style and rules, accommodating the local environ, and the best view of the sprawling
mountain range to the north is taken as the seamless backdrop. Besides adorned with character-
istic timber structures, the garden is studded with clusters of bizarre rocks and planted with lots
of old and valuable trees.
The Garden is a Tang garden built in modern times, its architecture and landscaping reminiscent
of nature and conducive towards a sense of serenity and tranquility, an ambience in which visi-
tors may enjoy a moment of leisure and peace of mind, whilst reflecting on the profound rich-
ness of classical Chinese culture. In the garden there are a souvenir shop, vegetarian food res-
taurant, Chinese teahouse and multi-purpose function room to cater for the various needs of
visitors.
10
Building Design
建築設計 Project: Sing Tao Printing Factory
Client: Global China Properties Holding Ltd.
This is a three-storey high industrial building located at Tseung Kwan O Industrial Estate. Based
on client’s development strategy, the site was developed in two phases.
Phrase 1 is the three-storey high printing factory for newspaper printing and ancillary office use
and Phase 2, which would be developed later, is a ten-storey high office tower.
The challenge of this project is to construct a high quality industrial building for newspaper
printing under an extremely tight programme. Machine installation was inevitably overlapped
with the building construction. Spatial arrangement was carefully considered to cater for the
installation f=of high accuracy printing machines.
Smoke extraction system was adopted to accommodate the long printing machines in large fire
compartment. To save the time and cost for this project, the existing piles were checked against
and the structural design had been adjusted and made use of.
The project was successfully completed within 9-month from construction to operation which
fulfill client’s expectation.
11
Energy
能源 Project: Dogger Bank Wind Farm, United Kingdom Client: Forewind
The Dogger Bank wind farm zone, located in
the North Sea off the coast of East Yorkshire,
is potentially the world’s largest offshore
wind project. If fully developed, the 8,660km2
area could contain more than 2,000 wind tur-
bine generators and provide an immense
13GW of electricity – enough to supply ten
per cent of the UK’s electricity requirements.
In June 2010, Royal Haskoning was awarded
the roles of ‘Offshore Environmental Impact
Assessment (EIA) Coordinator’ for Tranche A
and ‘Onshore EIA Co-ordinator’ for the first
project application, via a competitive tender.
In October 2011, a framework was agreed for
Royal Haskoning to provide complete EIA ser-
vices up to, and including, the final project in
Tranche B, covering projects up to 6GW of
capacity.
The UK government has committed to pro-
ducing 20 per cent of its energy from renew-
able sources by 2020. Projects such as Dogger
Bank are essential to achieving this target, so
the team has a tight timescale. As well as be-
ing potentially the world’s largest offshore
wind farm development, if the Dogger Bank
zone reaches its full potential, it will also be
one of the largest electricity generating
sources of any kind in the world.
12
Energy
能源 Project: Ingula Pumped Storage Scheme
Client: Eskom Holding Ltd DHV Group’s member company, SSI (in con-
sortium) is currently overseeing one of
Eskom’s major new power generation pro-
jects. Due for final completion towards the
end of 2013, the Ingula Pumped Storage
Scheme is set to contribute power to the na-
tional grid during peak hours. The Ingula
Pumped Storage Scheme is situated in the
Little Drakensburg mountain range just out-
side of Ladysmith in Kwa-Zulu Natal. Referred
to as a ‘peaking power station’, the power
station’s rated generation capacity of the
scheme is nominally 1332MW, with an energy
storage capacity of 21 000MWh. The inten-
tion is to produce 1332MW of power during
the morning and evening peak hours.
The project consists of two major reservoirs
and a power house situated 350m below sur-
face, in the mountain. The upper concrete-
faced rockfill dam (CFRD) (Bedford, with a
810m crest length and a 49m height) is situ-
ated on the mountain top and feeds water
through the power house, which generates
power.
The power house complex consists of a com-
bined machine and valve hall, a transformer
hall and other ancillary tunnels and caverns.
The machine hall houses four reversible
pump/turbines, coupled directly to genera-
tor/motors, each with a rated output of
333MW. The rated generating head is 441m.
Water then passes a further 2500m to reach
the lower reservoir (Bramhoek).
The crest length of the lower roller com-
pacted concrete (RCC) dam is 310m and it has
a maximum height of 38.6m. During off-peak
hours, thanks to the incorporation of reversi-
ble turbines, the water is pumped back up the
mountain from the Bramhoek Reservoir to
the upper Bedford Reservoir. The principal
behind the design is that kinetic energy is
converted into potential energy.
This R20bn project was started in 2004. Com-
missioning of the first unit is envisaged in
early 2013, thereafter commissioning will
take place at three-monthly intervals for each
subsequent unit, with commissioning of the
final unit towards the end of 2013.
13
Environmental Engineering
環保工程 Project: Waste Electrical and Electronic Equipment (WEEE) Treatment and Recycling Facility
APCL have recently successfully pre-qualified for a major environmental project - Devel-
opment of the Waste Electrical and Electronic Equipment (WEEE) Treatment and Recy-
cling Facility, beating some of the major players in the market.
14
Environmental Engineering
環保工程 Project: Waste Separation Plant Aruba
Client: Associated Transport Company
Associated Transport Company (ATCO) is a
company in Aruba which mainly collects
waste from companies, hotels, restaurants
and cruise ships. Waste disposal in Aruba
used to be free of charge. ATCO however felt
that this situation would come to an end. Fur-
thermore the company was convinced that
waste contains valuable components that
should be recycled. Haskoning investigated
the possibilities to realise a Waste Separation
Plant on Aruba. The project comprises: - Tech-
nical Feasibility Study - Business Plan - EIA -
Tender documents - Procurement - Realisa-
tion.
The project started of with a Technical Feasi-
bility Study. This study consisted of an analy-
sis of waste streams and possible processing
techniques. Items investigated were (amongst
others): siting, legislation and options for
separation. In the second phase a Business
Plan was prepared. This plan was based on
the basic design of a Waste Separation Plant
and included a financial analysis (cash flow
analysis, profit and loss account, financial risk
analysis). During this phase Haskoning pre-
pared all relevant documents to obtain neces-
sary permits (permit application, EIA and Ba-
sic Designs). In the third phase of the project
Haskoning prepared a conceptual design for
the waste treatment equipment and pre-
pared preliminary designs for the buildings,
infrastructure and mechanical & electrical
equipment. As part of this phase Haskoning
prepared tender documents, assisted the Cli-
ent during procurement and contract negotia-
tions. To finalise the tender documents and to
adjust them to local standards Haskoning
worked together with local consultants like
HJC Engineering and PIB. During the last and
final stage (erection of the Waste Separation
Plant) Haskoning was responsible for the
overall project planning and the supervision
of the erection of the installation while local
companies were responsible for the supervi-
sion of all civil works.
15
Royal Haskoning, in cooperation with Bolle-
graaf Recycling Machinery and the South Sinai
Investors Association, has undertaken a feasi-
bility study for the improvement of solid
waste management (SWM) services in the
major tourist development area of South Si-
nai in Egypt.
The major objectives of the study were to
prepare and present proposals for private
sector involvement in SWM in South Sinai,
and to evaluate the feasibility of these pro-
posals; and to promote and support the ex-
port of Dutch SWM technology to Egypt, in-
cluding sorting and recycling installations pro-
duced by Bollegraaf Recycling machinery.
The study included the development of a
technically appropriate solution for improve-
ment of SWM, financial, economic and envi-
ronmental assessments of the proposed solu-
tion, a study of the willingness and ability to
pay for the improved SWM services, and the
development of an institutional framework
for its implementation, including a regulatory,
legal and contractual framework for private
sector participation. The study included fur-
thermore an investigation of the market for
Dutch SWM products in Egypt.
Environmental Engineering
環保工程 Project: Commercial Feasibility Solid Waste Management South Sinai - PESP
Client: SENTER
16
Environmental Engineering
環保工程 Project: Waste Sorting Installation ASI Utrecht
Client: Holding AVR Bedrijven
AVR has the intention to enlarge her market
share in the market of large household -, in-
dustrial- and demolition waste. To that end
AVR has bought out an existing sorting line
for demolition waste. The sorting installation
was only suitable for demolition waste and
had a limited capacity. The principle compo-
nents of the existing sorting line, a flat screen,
a manual sorting cabin and a water separator,
are integrated in the new installation and are
shifted for logistic and safety reasons. As a
result of the new components, a shredder, a
magnetic separator, a drum screen and sev-
eral belt conveyors, is de capacity of the in-
stallation increased to 30 tph (100.000 tpy)
for large household -, industrial- and demoli-
tion waste. The project included also com-
plete new transformers, MCC, control system,
fire protection system and dust reduction sys-
tems.
Services provide: ◆ Project management and co-ordination
of the engineering and construction; ◆ Estimate of the investment costs for the
complete installation; ◆ Preparation of design of the installation
in co-operation with the client; ◆ Preparation of tender documents for the
mechanical and electrical works and fire
protection installation; ◆ Tendering and procurement of the
works; ◆ Site supervision of the construction of
the complete installation; ◆ Commissioning, start-up supervision and
talking-over procedures.
17
Environmental Engineering
環保工程 Project: Soil Remediation / Environmental Audits of the Oil Plants in the Ploiesti Area
Client: Central Finance and Contracts Unit (CFCU), Ministry of Finance Romania
The Prahova County and City of Ploiesti have
complex environmental problems that are
related to petroleum exploration and extrac-
tion, refining, storage and transportation via
pipelines. The petroleum industry in the Ploi-
esti area, which is one of the oldest in Europe
has been the major factor for soil and ground-
water contamination in the area.
Soil and Groundwater Study, remediation
After reviewing the existing information, an
Environmental Assessment by means of intru-
sive site investigation with respect to the ex-
tent of soil- and groundwater contamination
was carried out in an area of ca. 10.000 ha.
Based on the contamination status, Remedia-
tion Strategies, including Remediation costs
and a Regional Monitoring Network, were
designed.
A Remediation scheme with 3 components
was implemented: ● Efficient recovery of big stock of petro-
leum product in the source areas. Sev-
eral techniques for extracting the free
product are included. ● Stop further migration of free product
floating layer by installing a clay barrier
in shallow groundwater, with installa-
tions to extract accumulated free prod-
uct. ● Stimulation of natural attenuation
(oxygen screen) in the contaminated
groundwater that passes the clay bar-
rier.
Finally, a ground water monitoring network
was implemented of some 250 monitoring
wells, monitoring conducted and based on
those results a groundwater model was con-
structed for future predications of environ-
mental risks.
Environmental Audits
Within the project, Environmental Audits of a
major refinery (SC Petrobrazi SA, Ploiesti, area
5 km2) and oil transport companies (CONPET
and PETROTRANS Ploiesti) were performed.
These environmental audits were carried out
in order to determine the actual and future
environmental issues related to ongoing pol-
lution of the soil. The audits included field
inspections, interviews and document re-
views. This activity was carried out in close
co-operation with the Inspectorate for Envi-
ronmental Protection (IPM) and the manage-
ment and environmental departments of au-
dited companies.
The report concluded on: ● The present and potential environ-
mental issues. ● Development of corrective actions to
address environmental issues in order to
present soil pollution in the future. ● Implementation schedule for corrective
actions with responsibilities, timeframe
and monitoring tools.
18
Environmental Engineering
環保工程 Project: Soil Remediation – Oil Well at Western Desert Egypt
Client: Shell
Soak away pits were used for the disposal of
production association water at the Badr El
Din oil fields BED‑1 and BED‑3 in the Western
Desert of Egypt. Despite the use of API oil/
water separators and lined evaporation
ponds oil residues have contaminated the pits
in the past. As part of a renovation pro-
gramme, while trying to convert the disposal
option from pits to deep injection, the clean‑-
up of the pits was initiated. In order to deline-
ate the soil contamination, visual inspection
of the sites by hand dug pits and mechanically
dug trenches were made. Later the horizontal
and vertical extent of the contamination was
mapped in more detail by using hand drilling
equipment. The samples are analysed in the
laboratory of Royal Haskoning in the Nether-
lands. Besides hydrocarbons, high contents of
metals were found. Also increased levels of
Natural Occurring Radioactive Material
(NORM) were measured.
In cooperation with Shell Global Solutions and
Haskoning/IWACO Egypt risk assessments are
carried out. Potential receptors of the con-
taminated water are the groundwater at 40
to 50 m‑g.l. and some animals. The extensive
knowledge of the hydrogeology of Egypt pre-
sent with Haskoning/IWACO Egypt is used
while determining the infiltration rate. Based
on the risk assessment, remedial measures
will be developed to reduce the risks to an
acceptable level. As remedial option, on site
containment and excavation and off site dis-
posal are considered. Biological options were
studies, but due to the extreme conditions
classified as not feasible.
19
Environmental Engineering
環保工程 Project: Maringan Site Remediation Works
Client: Shell Chemicals & Shell Sudan
Royal Haskoning was appointed Supervisor under the Contract between Shell Chemicals and
Bilfinger Berger Environmental Ltd. It was the task of Royal Haskoning to review all project de-
tailed design and execution documentation, supervise the site work and report upon comple-
tion. The works included demolition of a number of semi open sheds, partially containing asbes-
tos roofing and cladding, demolition of a large solvents tank, breaking out and crushing concrete,
removal of asbestos fragments, installation and operation of a NAPL floating product recovery
system, consisting of 29 abstraction wells of 20m depth, excavation of a soakaway with installa-
tion of a concrete cap. The main remediation works consisted of digging and bagging some
12,000t of pesticide (DDX and drins) and solvents impacted soil for export via Port Sudan to Bre-
men (Germany) for thermal treatment. Re-instatement of the site by import of 12,000t of clean
backfill material. The project is the first export of contaminated material out of Sudan under the
Basel Convention.
20
Environmental Engineering
環保工程 Project: Groundwater Risk Assessment Maringan Sudan
Client: Shell Chemicals Ltd.
Royal Haskoning has carried out an extensive and intrusive environmental site assessment at a
former agrochemical site in Sudan. A Groundwater Risk Assessment was carried out to investi-
gate the behaviour and thus potential spreading of contaminants in groundwater. The main ob-
jective of this Risk Assessment was to define a groundwater exclusion zone, and therewith pre-
vent any (future) potential risks to local residents from using groundwater impacted by former
site operations.
Geology, hydrogeology, climate, topography and existing groundwater data were assessed on a
regional scale and site specific scale. Information used included Blue Nile river levels, local geol-
ogy, regional groundwater levels, major groundwater abstractions, behaviour of solvents and
agrochemicals redox conditions, microbial degradation and retardation.
Based on the available information on (impacted) groundwater, as well as the spreading in
groundwater over the last ten years, model scenarios were calibrated through sensitivity analy-
sis in an initial screening assessment. One scenario was selected considering representativeness
for this specific situation and was used for further modelling and calculation.
Various modelling sequences were executed to match field data with simulated concentrations
in the monitoring wells (the calculated spreading should at least include the measured spread-
ing). This eventually resulted in determination of exclusion zones for shallow and deep aquifers.
21
Civil and Geotechnical
土木工程和岩土工程 Project: Investigation, design and supervision of the slope improvement works
Client: Chi Lin Nunnery
The Civil & Geotechnical Division of the firm has at hand the expertise of several qualified Civil
Engineers and Registered Professional Engineers (Civil & Geotechnical). Services include pre-
investment project feasibility, outline design, detailed design, contract administration and con-
struction supervision. The firm has received continuous commissions to investigate, design and
supervise the construction and carry out design checking of civil infrastructure projects over the
last 15 years.
In this project, the firm has provided services including ground investigation, design of reinforced
fill slope and administration of the construction contract to Chi Lin Nunnery, a large Buddhist
temple complex located in Diamond Hill with its substantial experience and knowledge in geo-
technical consultancy services.
22
Civil and Geotechnical
土木工程和岩土工程 Project: Ngau Tam Mei Water Treatment
Client: AOKI Corporation
Design of Reinforced Earth Structures for the con-
struction of access road and installation of two
fresh water mains, for the Ngau Tam Mei Water
Treatment Project (project sum = HK$1,800 mil-
lions). The wall is about 7 m high and 150 m long
built along steep slopes and heavy construction
traffic.
23
Infrastructure
基礎設施 Project: Partnership in Transportation
Client: Rijkswaterstaat (Dutch Ministry of Infrastructure and the Environment)
Two motorways, two railway lines and one metro line currently impede growth in the Amster-
dam-Zuidas area, requiring a creative solution to improve the accessibility, mobility and livability
of this important economic region. To facilitate the process, DHV and Rijkswaterstaat delivered
the necessary information to yield a firmly validated decision with the commitment of all stake-
holders.
The ZuidasDok project in Amsterdam combines the construction of homes and offices with
enlarging the capacity of both the A10-South motorway and the public transport network. An
important part of this plan includes relocating the transport modalities to be partially under-
ground in the ZuidasDok. DHV and Rijkswaterstaat have generated detailed plans for both the
motorway and public transport development.
24
Infrastructure
基礎設施 Project: Hong Kong-Zhuhai Macao Bridge (Gongbei Tunnel, China)
Client: HZMB Zhuhai Link Line Project Office
Tunnel Engineering Consultants (TEC) a permanent joint venture between Royal Haskoning, DHV
and Witteveen + Bos), together with an international consortium, advises the Chinese govern-
ment during the design and construction of a 35 km long bridge/tunnel combination in the south
of China, which will form the connection between the important Chinese economic centres of
Hong Kong, Macao and the Chinese mainland.
The project, in the delta of the “Pearl river”, comprises a series of conventional bridges and ca-
ble bridges, a number of islands to be newly created and a 6 km immersed tunnel. The design is
already in full swing and construction is to begin at the end of this year. The intention is for the
connection to be put into service at the end of 2015.
The consortium provides the Chinese project organisation with advice in the field of design, im-
plementation, sustainability, costs, planning, management and maintenance throughout the en-
tire project. This project will run until after 2015.
25
Information Technology
資訊科技 The IT Division of APCL has a high reputation
in the IT field and has an impressive portfolio
of successfully-completed projects in the pri-
vate and government sectors. We have ex-
tensive experience in adapting, developing
and applying the advances in information
technology to the needs of the land and engi-
neering community, with notable success
both in savings in cost and to the environ-
ment.
In addition, we have a substantial IT/GIS pro-
fessional resource and Certified Information
System Auditors specialize in the following
areas: ● Geographic Information System (GIS)/
Computer Aided Design (CAD) ● Building Information Modeling (BIM)
● Remote Sensing Applications ● Remote Sensing Applications ● Electronic Document Management Sys-
tem (EDMS) ● E-Business/Internet Systems ● Mobile/Wireless Solutions ● Database Management Systems ● Engineering Systems ● Transport Systems
The following illustrates the some of the main
areas of business: ● Project Management ● System Analysis and Feasibility Study ● System Design, Development, and Im-
plementation ● Data Conversion Service
26
Information Technology
資訊科技 Project: Seabed Topological Change Moitioring and Analysis
Client: Civil Engineering Department of HKSAR
As part of the monitoring work being under-
taken for the Hong Kong Government’s major
Port and Airport Development Strategy
(PADS), bathymetric surveys are undertaken
regular (in some cases weekly) intervals of all
operating marine fill dredge and dumping
areas.
Surveys are carried out either by operating
contractors or CED consultants and provide a
huge volume of data on seabed topology.
Height values are typically captured at 5 me-
ter intervals along lines spaced 10 to 15 me-
ters apart.
Entry, storage and management systems have
been developed to enable data to be read
directly from contractor’s media. A suite of
analysis have been developed to enables the
conversion of seabed surveys to surfaces
(using both TIN and grid algorithms), and the
generation of contours and volume calcula-
tions. Queries and graphics have been devel-
oped to highlight areas of accretion and de-
pletion. The modules have been used to un-
derstand the movement of material during
and after dumping.
27
Information Technology
資訊科技 Project: Design & Comprehensive Management for Minor Building/Civil Works
Client: CLP Power HK Ltd.
This project Provides a Comprehensive
Web-based Project Collaboration Sys-
tem; allow data to be shared By CLPP,
Consultants & Contractors. The system
includes:
● Computerized Progress Monitoring
and Reporting System 。 Quick review of project status
(Project & Financial) ● Electronic Document Management
System 。 Easy retrieve/search for all in-
coming correspondences, gen-
erate reminder to ensure timely
reply, automatic report Genera-
tion for project monitoring.
28
Information Technology
資訊科技 Project: Design & Comprehensive Management for Minor Building/Civil Works
Client: Civil Engineering Department of HKSAR
The Port and Airport Development Strategy (PADS) makes use of GIS to help outlining a number
of major projects which will be constructed on reclaimed land within the next decade. The Civil
Engineering Department (CED) of the Hong Kong Government is responsible for the identifica-
tion and management of the estimated 670 million m3 of fill that these projects will require.
Within the next ten years, almost 310 million m3 of fill will be won from marine sand deposits
beneath Hong Kong's territorial waters. The CED commissioned Au Posford to develop the Infor-
mation Management System (IMS) to act as the central tool in the identification of the marine
resource and its management.
The project involved defining the user requirements, system and database design, implementa-
tion and final installation and training of CED staff. Based on a standard GIS platform, a large
number of application programs were developed to meet the user’s requirements. A consider-
able amount of relevant data was collected and input into the system including the locations of
submarine utilities and shipping channels, bathymetric information, and data from borehole and
geophysical surveys. All defined borrow areas and proposed reclamation projects with their esti-
mated fill requirements are stored in the system.
Analytical capabilities include matching fill supply and demand, volume calculations, material
type searches and the interpretation of, and cross-reference between, borehole and seismic in-
formation.
The Information Management System has been successfully operating in CED offices since May
1991. Au Posford have been retained by the CED to maintain and expand the system.
29
Maritime and Waterways
海洋和水路工程 Project: Lautau Port Peninsula Study
Client: Hong Kong Government, Civil Engineering Department
The Lantau Port Peninsula Study was commissioned to plan the future port and marine facilities
of Hong Kong to the year 2011 and beyond, to maintain Hong Kong’s position as the pre-
eminent port in the region. The Study was required to establish the engineering feasibility and
determine the most flexible and cost effective master plan and configuration of port and har-
bour facilities through to 2011. Planning details of the phased development of these facilities
covers both the north and south shores of Lantau Island. The selection of the recommended
development layout involved a complex programme of investigation and analysis covering port
and harbour works, marine risk and navigation considerations, environmental assessments, traf-
fic and transport analysis and land use planning. Strategies for privatization were developed and
cash flows and revenues through to 2011 identified.
The recommended layout provides for 17
container berths by the year 2011 with
scope for a further 7 berths. In parallel with
the main container port development, provi-
sion has been made for transshipment
wharves, marine support services, ship re-
pair yards and typhoon shelters. The phased
development plan for these facilities also
provides for port related industrial develop-
ment, transportation systems, including road
and passenger and freight rail links, and pub-
lic amenity areas. It is anticipated that the
port will handle in excess of 140 million
tones of cargo in 1996 rising to 300 million
by 2006.
The Study was undertaken by Au Posford
Consultants Ltd. as part of APH joint venture
and was completed in March 1993. The pro-
ject is now progressing to the detailed de-
sign of ancillary works and container termi-
nal requirements.
30
Maritime and Waterways
海洋和水路工程 Project: Western Harbour Development Study
Client: Hong Kong Government, Civil Engineering Department
Au Posford Consultants Ltd. were part of the
APH joint venture who undertook the Western
Harbour Development Study which formed an
integral part of the overall PADS concept for
port development in the Western Harbour
area. The main engineering component of the
Study was the investigation and preliminary
design of the Lamma Breakwater, a structure
of some 6 kms located between the islands of
Lamma and Cheung Chau. The purpose of the
breakwater was to provide some 3,000 ha of
sheltered anchorage and to afford protection
to Lantau Port during the typhoon season.
The other main component of the Study was
the investigation of the marine traffic impact
of the proposed developments within the
Western Harbour, including Lantau Port, on
both the existing situation as well as for the
developing patterns up to the year 2011.
The recommended location for the breakwater, anchorages and shipping channels was derived
through a process of detailed evaluation utilizing both real and fast time simulation models as
well as marine traffic planning tools. The recommended form of construction for the Lamma
Breakwater was a dynamically stable berm structure utilizing locally quarried stone of 0.5 to 5.0
t. The structure has been designed to permit the maximum retention of the underlying marine
mud layer, thereby reducing costs and the environmental impacts of disposal.
31
Maritime and Waterways
海洋和水路工程 Project: Engineering Feasibility Study of Development of Tseung Kwan O Area 137
Client: Hong Kong Government, Civil Engineering Department
Au Posford Consultants Ltd., as part of the APH joint venture, were commissioned to investigate
the feasibility of developing the Area 137 site in Tseung Kwan O for port facilities supporting
Deep Waterfront Industries (DWI) and Potentially Hazardous Installations (PHI). The objective of
the Study was to analyse and select a recommended layout, following an assessment of land use
demand, derivation of engineering solutions, berth configurations, navigational safety, traffic
and transport requirements and the environmental and hazard implications of the development.
The Recommended Development Layout provides a total area of 102 ha for industrial develop-
ment and supporting infrastructure and amenities. Reclamation, using both marine sourced and
public dumping fill material, is proposed without removal of the 15 m thick layer of soft marine
deposits. Deep water berthing facilities are provided for the needs of both liquid bulk carriers
supplying the PHI industries and marginal multi-user quays for the DWI industries. Navigational
safety has been shown to be satisfactory through the use of ship simulation models. A detailed
traffic and transport study has been performed to assess requirements for both internal and ex-
ternal road development. Hazard and environmental impacts have been mitigated to fall within
Government planning guidelines.
32
Maritime and Waterways
海洋和水路工程 Project: Engineering Feasibility Study of Development of Tseung Kwan O Area 137
Client: Hong Kong Government, Civil Engineering Department
As part of the continuing monitoring work being undertaken by the Hong Kong Government to
supervise dredging and reclamation projects in the Territories PADS projects the Government
has been investigating ways of monitoring sediment concentration in the marine environment.
Au Posford Consultants Ltd. recommended the use of satellite data as an effective, economical
way of overcoming problems of large scale instantaneous data collection (important as currents
and tides make traditional sampling difficult to interpret) and obtaining baseline information
about water quality before dredging took place (at a time when limited sampling was taken).
Four SPOT satellite images were purchased between December 1989 and December 1993 cover-
ing Hong Kong waters and the pearl Estuary. These were registered and classified (using primar-
ily Band 3) to give indicative sediment concentrations in the top three meters of the water col-
umn throughout the Territory. The classified images have proved extremely effective in demon-
strating the concentration of sediment load, its area extent and change through time.
33
Maritime and Waterways
海洋和水路工程 Project: Guangzhou Immersed Tube Road and Railway Tunnel
Client: Guangzhou Preparatory Office of Underground Railway
APCL employed existing expertise and experience in advanced tunneling techniques to success-
fully carry out the outline design of the Guangzhou immersed tube tunnel, a 6-lane rail and high-
way tunnel. The firm was further commissioned to carry out the detailed design of the tunnel
joints and foundation. Services provided: ● Outline design for foundation and joints of proposed immersed tube tunnel for 4 lanes of
roadway and tow rail tracks.
34
Maritime and Waterways
海洋和水路工程 Project: Seaport Passenger Boarding Bridges - Kai Tak Cruise Terminal (Hong Kong)
Client: Electrical & Mechanical Services Department
The more recent project undertaken by APCL was the Consultancy Services for Procurement of
Gangways for the Kai Tak Cruise Terminal during Sept 2010 – Nov 2011. One of the objective of
the Assignment is to prepare the necessary documents for carrying out prequalification and ten-
dering exercise for selection of a Design-Build Contractor to design, manufacture, supply, de-
liver, install, test and commission five no. of Seaport Passenger Boarding Bridges in the Kai Tak
Cruise Terminal under a Design and Build ( D&B ) Contract [see Cover picture]. The Design-Build
Contract was awarded to an International Contractor TEAM on 23 Nov 2011.
35
Maritime and Waterways
海洋和水路工程 Project: Port of Duqm
Client: Directorate General of Ports, Ministry of Transport and Communications, Sultanate
of Oman
Royal Haskoning is leading the construction of Oman’s largest dry dock and shipyard complexes
at Duqm, a port on the Arabian Sea. A catalyst for development locally and regionally, the new
facility will enable the Sultanate’s vast natural resources to be developed. New port facilities will
provide a centre for trade and industry, boost the economy and create job opportunities. Royal
Haskoning was commissioned in 2002 by the Ministry of Transport and Communications (MoTC)
as the lead partner in a joint venture with Khatib & Alami and Partners and Al Baraka Economic
Consultancy.
36
Planning
規劃 Project: Area development of the former Twente air base
Client: Area Development Twente (Province of Overijssel and City of Enschede)
The project organization Area Development Twente (ADT) is preparing to develop the area of
the former Twente air base. The goal of this project is to create an economically stronger and
more sustainable region. Elements of the area development include the realization of an ecologi-
cal main structure, additional housing and leisure facilities, and the realization and exploitation
of a civil airport.
Commissioned by the ADT, DHV/NACO/InterVistas is preparing to put these various concessions
on the market. The tendering team is supported by specialists in the fields of area management,
sustainable airport development, contract formation and contract management, and project
management, as well as by legal experts with specialized knowledge in these areas.
37
Planning
規劃 Project: Sustainable urban development [Public-Private Partnership (PPP)]
Client: Chief Executive Officer, Bhopal Development Authority, India
Fifteen schemes are being prepared for the sustainable development of land parcels. State poli-
cies, objectives and goals were taken into account to achieve a balanced development. The focus
of the schemes is to create a suitable environment to promote a healthy climate, improve the
quality of life, upgrade human skills, create a world-class infrastructure and attract global invest-
ments. The project involves following three strategies for the formulation of schemes that are to be im-
plemented on a PPP basis: ● Urban renewal/rejuvenation ● Restoring the density of low-density areas ● Identification and development of new green field schemes.
38
Planning
規劃 Project: The Blue Gate Antwerp Regeneration Program
Client: The City of Antwerp
The site of Blue Gate Antwerp(previously known as
Petroleum Zuid), is heavily polluted with oil, poly-
cyclic aromatic hydrocarbons, benzene and heavy
metals, has been recognized as a brownfield site.
With its prime location on the river, the city of Ant-
werp aims to rebuild this former industrial site as a
vibrant mixed use waterfront for business activities.
In 2006, a visionary regeneration plan was agreed
and a SPV (Blue Gate Antwerp nv) was established
for the redevelopment of the area. The aim of the
Masterplan is to maximize the advantages of the wa-
terfront location, creating a profitable and sustain-
able business area for production and ‘Research and
Development’, a distribution area for water related
logistic activities and a green corridor through the
site.
In collaboration with Omgeving Buck Consultants,
Sustenuto and Mint, Royal Haskoning was commis-
sioned to provide environmental and ecological in-
put to the Masterplan. The team first organized a
workshop with Sustenuto and the client to discuss
the visionary concept in details and come up with a
common goal. Then the specialists in soil, water,
ecology, energy and materials provided information
on development eco-effective solutions. RH advised
on water management, soil remediation, landscaping
and compared the advantages of windmills, biomass
plant and/or solar energy. One of the biggest chal-
lenges of the redevelopment is the heavily polluted
soil and the impact on the quality of both ground
water and surface water. RH gave advice and direc-
tion on the most appropriate soil remedial solutions,
meeting with the relevant authorities.
39
Rivers, Deltas and Coasts
河流,三角洲和沿海工程 Project: Delta plan for the Mekong Delta
Client: NL Agency, Partners for Water Programme
With regard to supporting the development of the
Mekong Delta Plan concerns services under Viet-
namese Netherlands Strategic Partnership Arrange-
ment (SPA) on Climate Change Adaptation and Wa-
ter Management which outlines the framework and
concrete steps for 2015 and years beyond for close
cooperation.
Within the Vietnamese setting the scope of the Me-
kong Delta Plan is defined as providing an inte-
grated policy framework that
1. Presents firm recommendations on water
management and climate change adaptations
in relation with the user functions in the delta
and,
2. Serves as a guide for further (sub) regional
planning and formulation of Investments.
40
Rivers, Deltas and Coasts
河流,三角洲和沿海工程 Project: Moray Flood Alleviation
Client: The Moray Council
Moray County, Scotland has a long history of flooding which severely affects the local communi-
ties and economy. Established in 2001 the Moray Flood Alleviation combines the expertise of
The Moray Council, Royal Haskoning, Morrison Construction and EC Harris. Royal Haskoning
were appointed to investigate the flooding problem, identify and design solutions and manage
the statutory processes. Several flood risk alleviation schemes are to be delivered to a number of
communities in Moray including Forres and Elgin.
Notably in Forres it was estimated that without intervention, flood damage would exceed £43
million over the next 50 years. Future flooding would not only affect homes, businesses, the
town’s economy and surrounding region, it would also put schools, emergency services and sew-
age works at risk. The scheme comprises a flood storage reservoir combined with flood defences
and a flood relief channel.
Moray Flood Alleviation received commendation in two categories at the Saltire Society Civil En-
gineering Award ceremony in 2010. Following the implementation of the flood alleviation
scheme hundreds of properties were protected from flooding just one week after the official
opening.
41
Transportation and Highways
運輸及公路 Project: The new A74 – Connecting the Netherlands and Germany
Client: DURA VERMEER DIVISIE INFRA
Construction of the new A74 road link that will vastly improve transport between the Nether-
lands and Germany, neared completion last year. Construction of the A74 not only provides a
faster, safer passage for road users travelling between the two countries, it has created a better
environment for Venlo residents, nearby communities, and wildlife in the surrounding country-
side. Royal Haskoning was appointed to manage the environmental aspects of the project and
the design of all structures required for the project including the geotechnical aspects, as well as
stakeholder management.
As part of its expertise relating to construction communications, Royal Haskoning carried out a
survey to ascertain the satisfaction of those affected by the works in terms of environment and
road user satisfaction.
The quality and efficiency of design led to a successful outcome achieved within a very tight
schedule and limited working area. This included for example, design of the highest reinforced
soil retaining wall as abutment for a viaduct, a circa 60m long semi integral viaduct and the larg-
est Eco duct in the Netherlands. The roads on either side of the border opened successfully on 5
April 2012.
42
Water Technology
水技術 Project: New standard for sustainable waste water treatment
Client: Water board Veluwe, the Netherlands
The world’s first facility to use Nereda technology is located in Epe, the Netherlands. Thanks to
this new technology, waste water treatment requires a much smaller surface area, resulting in
significant savings in terms of both the cost of constructing new plants and the use of energy.
Nereda is an innovative technology for purifying biological waste water using the unique fea-
tures of 'aerobic granular biomass'. Nereda was invented at the Delft University of Technology.
Working in close collaboration with universities, research institutes, STOWA, water boards, and
various industrial and municipal launching customers, and supported by both national and inter-
national grants, DHV has transformed this process into a sustainable and cost-effective technol-
ogy that is used internationally.