CENTRUM TECHNIKI OKRĘTOWEJ S.A. SHIP DESIGN AND RESEARCH CENTRE S.A. Gdansk POLAND
ABOUT US Ship Design and Research Centre S.A. (CTO) is a modern, multidisciplinary research and design centre, well recognized and respected in many countries due its services and activities. The company's products and services are targeted at the clients from various industrial sectors both maritime and land based. Office building at 65 Szczecinska St., Gdansk, Poland Complex of research CTO facilities 2
Acoustic and Fire Testing Laboratories CTO employs experienced and talented designers of ships and ship equipment, specialists in hydromechanics, aerodynamics, structure mechanics, acoustics, material science and flammability as well as highly qualified technicians handling specialized, modern research facilities and measuring equipment. The company's field of activity covers also designing, manufacturing and supplying of technologically advanced products, such as fully equipped research labs, tailored research facilities and measuring equipment. Between 2008-2011, the company set-up and equipped a new complex of environmental labs, including fire testing and acoustic laboratories, substantially enhancing its research capabilities. Numerous tests conducted in both laboratories are accredited by the Polish Centre for Accreditation (PCA) and fulfil European standards. Considering the needs of our clients, the company initiated in 2011 activities in the field of product certification. We are fully convinced to develop our potential with increasing enthusiasm and creativity facing new technical challenges within the upcoming years. 3
DESIGNS OF SHIPS, OFF-SHORE STRUCTURES AND RESEARCH FACILITIES Innovative designs CTO develops the designs of various structures and equipment used both in waterborne and land technology. The company also supports ship design offices, production and repair shipyards, manufacturers of ship equipment and ship owners in the designing of commercial vessels, warships and offshore structures. The thruster of reduced noise and vibrations level The design of 2500 DWT Ro-Ro ship In the last years the following ship designs elaborated by CTO should be mentioned: crude-oil tankers, container ships, multi-purpose ships, tugboats, stern trawlers, Ro-Ro ships, OPV vessels, patrol boats, training and research ships. The company's offer is completed by designing of power plant fittings, shaft lines, screw propellers, on-board equipment and other ship auxiliary systems. These designs have been carried out upon the orders of both Polish and foreign shipyards as well as ship equipment manufacturers worldwide. The design of a 60 m patrol boat The design of a SAR ship 4
The towing carriage model The company is capable to develop technical documentation for a ship's repair or conversion. The offer includes 3D visualisation and design of ship equipment and other various structures with the use of well recognised computer programmes. CTO specialists undertake the engineering supervision during the construction stage of merchant ships and warships. The design of research facilities, such as: subsonic wind tunnels, cavitation tunnels, towing carriages for model basins and facilities for off-shore structures testing is an important field of CTO's design team activity. The mentioned equipment is of significant importance for research centres serving various sectors, both waterborne and land industries. The platform for model tests of the off-shore structures The design of a wind tunnel 5
STRUCTURE MECHANICS Vibration and noise Vibration is sometimes introduced intentionally in technique, but much more often it appears undesirable in operation of various machines and devices. CTO specialists measure construction vibrations and determine their causes. Then the most appropriate course of actions to reduce or eliminate vibrations is recommended. When vibration exceeds an acceptable level, or its character affects construction safety and user comfort certain modifications regarding construction itself or its operation are proposed. The knowledge accumulated throughout the years of experience is stored in the databases containing results of computational analyses as well as vibration measurement carried out during the ship sea trials. This enabled CTO to develop an original and verified method of reducing the ship hull vibration. MSC PATRAN/NASTRAN based analysis of ship hull vibration CTO also solves problems related to the acoustic protection of crew cabins and general purpose rooms on ships and other various vessels. On the basis of noise level and vibration predictions, the solutions are developed which guarantee that both the obligatory noise regulations and the client's special requests are fulfilled, ensuring that the construction and equipment costs remain reasonable. Evaluation of H.T. disconnector's seismic resistance the real object, calculation model and free vibration form 6
Structure strength The structure strength numerical models CTO specialists perform loads measurements of both waterborne and land structures as well as other mechanical devices applying advanced measuring equipment and specialized software. The expertises and recommendations related to the structure safety and optimisation are elaborated on the basis of the conducted measurements supplemented with thorough analyses. Field measurements CTO specialists perform different measuring services in every environmental condition for both waterborne and civil engineering by using advanced measuring equipment. The services provided cover the measurements of ship speed and manoeuvrability, shaft power, bollard pull, noise level, local and global vibration of the structures as well as accommodations illumination. Moreover, the monitoring and expertises related to shaft line torsional vibration are provided. The measurement of the noise level on the ship The vibration measurement of the shaking screen The free vibration of the shaking screen structure 7
HYDROMECHANICS The seakeeping model tests The optimal ship CTO is commonly recognised as a research centre conducting experimental model tests of ships, yachts, off-shore structures and other floating or hydro-engineering objects in towing tanks, as well as in cavitation and wind tunnels. Thanks to the experiments combined with hydrodynamic numerical computations, a tested vessel gains the optimal shape in terms of resistance, propulsion, seakeeping and manoeuvring qualities. The ship manoeuvrability is predicted on the basis of the experimental model tests carried out with free running models in the CTO shore station at the Lake Wdzydze. The Ro-Pax ship resistance model tests The model tests of a rescue boat 8
CTO specialists design ship propellers taking into consideration all their real operation aspects. Particular attention is paid to eliminate the unwanted cavitation effects, e.g. noise or erosion and to reduce pressure pulses on the ship hull as well as forces and bearing moments acting upon the propeller shaft. The stern of the ship model prepared for propulsion tests CTO also carries out the experimental aerodynamic tests of sailing and motor yachts or other floating objects. Aerodynamics is believed to be a key factor in the performance of racing yachts, but it is also of significant meaning for any vessels, since the wind loads either when running at speed or stationary influence propulsion system parameters. The model tests of passenger ferry in the wind tunnel The adequate hydrodynamic properties of any ship are vital for her operation safety, economy and efficiency. There is little doubt as to the importance of paying attention to the properties of a ship from the early design stage onwards, as this yields considerable advantages during her operation. The experimental and numerical model of ASD vehicle launching www Information on the programme supporting the sailing and motor yacht designing can be found at www.yachtresearch.pl 6
NUMERICAL SIMULATIONS The numerical analysis of the flow around a ship with operating propeller CTO performs a wide range of numerical analyses, among which the most vital to ship design are local and global stress-strength analyses with fatigue calculations, as well as vibration predictions of hull structure and propulsion system. Apart from ships, other various technically advanced civil engineering constructions and offshore structures can be analysed to determine their operation safety. The MSC PATRAN/NASTRAN, MAESTRO and in-house software developed by CTO are employed for numerical analyses and computations. The deformation of the ship hull obtained thanks to MAESTRO based strength analysis CTO offers services related to the strength computations based on the Finite Element Method (FEM), thermal stress predictions, fatigue strength computations and vibration analyses in order to develop the optimal solution from a technical point of view, as well as from economic and operational safety perspectives. The pressure distribution in the flow around the ship with operating propeller 10
The velocity distribution in the wind tunnel The hydrodynamic analysis of open water propeller in the homogeneous velocity field CTO specialists perform CFD (Computational Fluid Dynamic) simulations, principally using the professional calculation package STAR-CCM+ CD-Adapco, which can be used to analyse the flow around ships, simulate heavy winds loading upon constructions (i.e. windmills, the above-water parts of ship hulls, buildings, etc.), analyse flow through various fluid-flow machines, heat exchangers and many others. A significant scope of the hydromechanics computations at CTO are conducted using own software, developed and verified through years of experience. The analysis of an open water propeller The von Kármán vortices path in flow around rudders 11
RESEARCH FACILITIES CTO owns unique facilities at a national level, which have been the pride of the company since its beginnings, as well as a number of new laboratories which provide services to both waterborne and civil industries. Deep-water towing tank It serves as a basic research facility used in the experimental ship hydromechanics. Its main purpose is to enable the model tests of a ship hull resistance and power demand of a ship propulsor. The results of model tests form the basis to prepare the ship's propulsion prediction which determines the key decisions in her design process. The deep-water towing tank is equipped with a wave generator, which enables seakeeping model tests of vessels. The results of these tests are vital for safety and economics of navigation. The deep-water towing tank The application of the deep-water towing tank is not only limited for the ship oriented purposes. It is the convenient environment to conduct model tests of devices which convert renewable energy acquired from the sea, investigate how moving objects interfere with free water surface (e.g. a simulation of emergency plane landing on water), tests of coatings which are supposed to reduce friction drag, and tests of basic flows. The CTO deep-water towing tank is equipped with a towing carriage, planar motion mechanism (PMM) and wave generator of regular and irregular waves that corresponds to the sea state up to 8-9 on a 1:25 scale. The model test of motor yacht in deep-water towing tank 12
Auxiliary towing tank The model tests of off-shore platform The auxiliary towing tank is a research facility used mainly for model tests of ships and other vessels operated at low speed, including grounded or anchored structures. It enables also to simulate the sea area of the limited depth. The results of these tests contribute to the design of off-shore structures, inland navigation vessels, and sea going vessels within the scope of shallow-water operation conditions, e.g. approaches to ports, straits and river mouths. The auxiliary towing tank is equipped with a towing carriage and a wave maker, which generates irregular waves that correspond to the sea state up to 8 on a 1:50 scale, and regular waves of up to 0.5 m height or irregular ones of up to 0.18 m height. The auxiliary towing tank 13
RESEARCH FACILITIES Shore station for manoeuvrability model tests With shore station for manoeuvrability model tests located in Joniny at Lake Wdzydze, CTO is capable to carry out manoeuvrability tests using exactly the same hull models as used in the towing tanks. The tests are performed using self-propelled models with a radio-controlled steering system. The facility is equipped with an automatic system, which identifies the model's trajectory. The principal aim of the model tests at the shore station is to develop predictions on the manoeuvrability of the real vessel, and to determine whether these predictions comply with IMO requirements. The model tests at Lake Wdzydze Cavitation tunnel This particular research facility is used in experimental ship hydromechanics, mainly for cavitation model tests of propellers, as well as rudders in a simulated behind velocity field. The tunnel is equipped with hydro-acoustic chamber, which enables to perform tests necessary to predict the level of noise generated by the ship's propeller. The equipment of the cavitation tunnel consist of the high speed video system for the observation and recording of cavitation phenomena, dedicated dynamometers, system for measurement of pressure pulses on the hull surface and laser anemometer (LDA) for the velocity field measurements e.g. at propeller disc. The cavitation model test 14
Wind tunnel The characteristic of the research facilities Deep-water towing tank The wind tunnel enables to learn more about the aerodynamics of sea vessels, land objects, both stationary and movable, as well as flying ones thanks to the information obtained during the experiments on the model or prototype. The following aerodynamic tests are conducted: ź the influence of the wind on exposed parts of ships and other floating vessels, offshore structures, as well as other hydro-engineering objects, ź aerodynamics and flow around road and rail vehicles, ź aerodynamics of wings, planes, helicopters and other flying objects, ź aerodynamics of wind turbines, ź influence of wind on buildings, communication infrastructure objects and other large civil engineering objects, ź transport of air masses and air pollution. Length: Width: Depth: Towing carriage Max. velocity: Max. acceleration: Wave generator Max. regular wave height: Max. irregular wave height: Auxiliary towing tank Length: Width: Depth: Towing carriage 270 m 12 m 6 m 12 m/s 1 m/s 2 0.7 m 0.35 m 60 m 7 m 0.0-3.0 m Max. velocity: Max. acceleration: 4.5 m/s 0.5 m/s 2 Wave generator Max. regular wave height: Max. irregular wave height: 0.4 m 0.18 m Side launching test basin Length: Width: Depth: Cavitation Tunnel 5 m 5 m 0.6 m Dimensions of test section: Max. flow velocity: Static pressure: Wind Tunnel 3.0 x 0.8 x 0.8 m 20 m/s 3-400 kpa The model test in the wind tunnel Dimensions of test section: Max. flow velocity: 4.0 x 1.42 x 0.95 m 52 m/s 15
ENVIRONMENTAL RESEARCH Facing harsh environment In case of fire in a building, ship, land vehicle or other human-operated object, it is of utmost importance that key construction components such as doors, windows, walls, and various partitions should have appropriate fireproof qualities, which guarantee both life protection and the time necessary to evacuate. Safes and fireproof cabinets are required to have a confirmed capacity to protect the goods inside them. The fire resistance test of door fire tests The fire test of double-leafs door The main subjects of the fire resistance tests are as follows: ź civil engineering construction and ship components such as: doors, windows, non-bearing walls, firewalls, ceilings, roofs, floors, sealing of installation through building partitions, fire protection hatches as well as canals, ventilation shafts and ducts, lift doors, ź rail and road vehicles' construction components, ź soundproof barriers, ź safes, strongboxes and fireproof cabinets for data storage. The smoke-proof properties of doors and shutters as well as materials intended for smoke curtains are tested in the fire testing laboratory. In the thoroughly controlled conditions, the rate at which fire spreads on a surface, the flammability of plastics and other materials are determined. CTO's Fire Testing Laboratory offers research tests according to the EU standards. The safe after the fire test The fire resistance test of acoustic panel Smoke-proof chamber 16
When the noise is annoying The test of acoustic insulation Noise is a particularly harmful result of the modern civilisation development. Windows, doors, walls, ceilings and many other building elements must fulfil increasingly stringent requirements concerning noise elimination. acoustic tests The CTO Acoustic Laboratory enables the producers of woodwork, acoustic barriers, sound absorbing materials and ship equipment elements to gain certified results in tests of sound insulation, sound absorption and acoustic power according to the national and international standards. Apart from the test results, CTO clients can be sure to receive professional advice on enhancing the acoustic properties of their products. The test of acoustic power CTO specialists perform also the environmental tests in situ, i.e.: in public places and workplaces, residential buildings, ships, airports, near traffic routes and in open areas. www More information on the fire and acoustic tests can be found at www.laboratoria-badawcze.pl The acoustic panels along traffic route 17
ENVIRONMENTAL RESEARCH LABORATORIES Acoustic Laboratory The Acoustic Laboratory consists of the separated reverberation chambers, where the acoustic tests can be conducted simultaneously thanks to the appropriate building construction. The Acoustic Laboratory The stand for acoustic insulation tests consists of the emitting and the receiving chambers, which enable to test the elements of surface area up to 10m 2. The cubature of each chamber is ca. 200 m 3. The transfer of the sounds by other paths then the tested partition and the influence of the external noises are negligible. The scheme of stand for acoustic insulation tests The Laboratory is accredited by the Polish Centre for Accreditation (PCA), No. AB 1241 for acoustic tests Fire Testing Laboratory Fire Testing Laboratory The basic equipment of CTO Fire Testing Laboratory consists of the following stands: ź for fire resistance testing of vertical constructions of H 3.2 m W 3.4 m and, horizontal ones of L 4.0 m W 3.4 m, ź for testing smoke-proof properties of doors and shutters as well as materials intended for smoke curtains - a chamber sized 3.0 m 3.0 m 1.5 m, ź for testing flammability properties of materials and products, ź for the impact testing of safes. The project has been co-financed by European Regional Development Fund within the Regional Operation Programme for Pomerania in 2007-2013 years The Laboratory is accredited by the Polish Centre for Accreditation (PCA), No. AB 014 for fire tests 18
PRODUCTS CERTIFICATION The direct route to a compliance certificate Laboratory tests of the product Submission of certification application Overview and registration of the application Contract preparation and its signing by the Client Appointment of specialist for particular product type Initial inspection of the company Overview and evaluation of the collected documentation In 2011 CTO initiated the activity in the field of construction products and ship equipment certification. The certification of the mentioned products can boost a producer's competitiveness and can help maintaining the high quality of their production. Additionally, it may improve the company's image among its clients and business partners and serves as an obvious proof whether quality control rules are respected. CTO specialists carry out the certification process and perform all the necessary services for products to earn standard compliance approvals. Subjecting construction products and ship equipment to laboratory tests may help them obtain the necessary certificates and confirm their high quality. Decision of the Technical Committee (optionally) Decision on certificate issue or its refusal Supervision over the granted certificate The scheme of a product certification process www More information on the product certification process can be found at www.certyfikacje.com.pl 1 6
MANUFACTURING OF THE RESEARCH AND TESTING EQUIPMENT CTO specialists design, manufacture, supply, commission and also start up the research facilities and testing equipment designated for experimental research applied in the waterborne engineering as well as measuring equipment applied in the experimental fluid and solid body mechanics. wind tunnel The design of wind tunnel's measuring chamber The wind tunnel cavitation tunnel The cavitation tunnel 20
resistance dynamometer dynamometr oporowy dynamometer for measurement of thrust and torque generated on the POD model waga 6-component 6-cio składowa balance wake survey device wyważarka device for balancing modeli statków ship models 21
MEDICAL ENGINEERING The medical engineering is one of the new, interdisciplinary specialisation of CTO. It requires linking various rapidly developing fields of fundamental and technical sciences. The new technical devices applied in the medical engineering are invented and manufactured as the result of CTO research and designing activities. The company activities within medical engineering are focused on: ź research and development works related to the devices being applied in the laboratory and clinical medicine, in cardiac and angio surgeries, ź designing and testing the devices used in rehabilitation of the disabled people, ź designing and manufacturing the laboratory equipment and in-vitro test stands applied in bio-medical engineering, ź research works on materials and advanced technologies for bio-medical engineering. CTO S.A. has participated in the Polish government programme Polish Artificial Heart since 2008, under which CTO specialists elaborated the original construction of a miniature implantable axial blood pump, serving as a heart assist device. CTO cooperates with other scientific centres in the field of bio-implants to be applied in cardiac and angio surgeries in the light of regenerative medicine. The titanium model of a left ventricle assist device in a dummy It also conducts research works related to materials for bone prosthesis covering numerical strength analyses of titanium nanotube layers. The model of nanotube layer behaviour under influence of mechanical stress 22
RESEARCH AND DEVELOPMENT ACTIVITY From the very beginning CTO performs continuously scientific research and development works which results are implemented in different branches of the industry. The economic and practical viability of research and development results contributes to the high rating of CTO as the scientific centre. The R&D Department of CTO is also the research organisation according to art. 30, pt. 1 of the Commission Regulation (EC) No 800/2008. CTO has long-term experience in planning, performing and coordinating of the industry applied research, development works and in designing. In the last 20 years, the company in the cooperation with domestic industrial partners or by itself executed 90 industry applied projects finalized by innovative technical and technological solutions' implementation into market. When Poland gained the access rights to Framework Programmes of EU, CTO has started to participate actively in numerous European projects. The result of it is a number of at least 40 international R&D&T and innovative projects within FP5, FP6 and FP7 as well as ERA-NET Scheme. The principal objective of CTO is to maintain the leading position at the national level and stable, recognized position at the international market within R&D, measuring, attestation and designing areas of activity as well as if the engineering and technology transfer is considered. Considering the mentioned objective, CTO satisfies the research and innovative needs expressed by industrial partners, taking the waterborne transport and environment protection into special consideration. The recognisability of CTO results from not only highly evaluated commercial projects and research and development ones being often executed within international consortia, but also from active membership of many branch organisations such as: International Towing Tank Conference (ITTC), European Waterborne Technology Platform (WATERBORNE TP), COREDES, International Maritime Organisation (IMO). Do you know that? CTO's participation in the projects of the European Community Framework Programmes covering Research, Technological Development and Demonstration activities was rewarded twice by Cristal Brussels sprouts prize appropriately in 2002 and 2010. 23
Krynicka Kołobrzeska Rzeczypospolitej Gdańsk-Przymorze-Uniwersytet Szczecińska Malborska Arkońska GDYNIA GDAŃSK Słupska Pucka Grunwaldzka Solikowskiego e x p e r i e n c e quality customer technology precision confidence timeliness human resources Centrum Techniki Okrętowej S.A. Ship Design and Research Centre S.A. Szczecińska 65 phone: +48 58 307 46 97 80-392 Gdańsk fax: +48 58 307 42 25 Wały Piastowskie 1 marketing@cto.gda.pl 80-958 Gdańsk Poland