Bæresystem for tidevannsturbin / Structural Frame for Tidal Stream Turbine

Gunstad, Syver, Neset, Ove

January 2012

Det er i denne rapporten utarbeidet et bæresystem for NTNUs referansetidevannsturbin. Bæresystemet består av sirkulære hulprofiler som er sveiset sammen, og er en kombinasjon av et fagverk og en ramme. Konstruksjonen er utformet symmetrisk med turbinen på toppen, og siden bladene til turbinen roterer gjennom konstruksjonen er det ikke noen avstivere der, derav rammen. Denne konstruksjonen er utsatt for utmatting og det er kravet til levetid som blir dimensjonerende. Konstruksjonen dimensjoneres først statisk, for så å gjennomgå en levetidsanalyse. Dimensjonerende laster er bestemt. For dimensjonering av konstruksjonen finnes det flere standarder som kan brukes. Disse er ikke spesielt tilpasset bæresystem for tidevannsturbiner, men de dekker samme type konstruksjon. Det vil bli presentert et design som har en levetid på 55 år og veier 85 tonn. Det som blir bestemmende for designet og levetiden er de høye spenningsvariasjoner i hotspot-punktet. Disse variasjonene kommer fra den kvasi-statiske delen av tidevannslastene, som blant annet består av en thrustkraft som varierer mellom 1056 kN og – 1056 kN.

ntnudaim:7329

MTBYGG Bygg- og miljøteknikk

Prosjektering av konstruksjoner

Beregningsmekanikk

Forankring av rørgater i bratt terreng : Forsøk med materialer og metoder / Buried Penstock in Steep Terrain : Experiments and Methods for Design

Bergsager, Håkon, Bårgard, Erlend Hillestad

January 2012

Denne oppgaven tar for seg forankring av nedgravde rørgater. Det er undersøkt interaksjonen mellom rør og jord, først i horisontalt terreng og deretter i bratt terreng med helning over 20 grader. I rapporten er det studert beregningsmodeller som benyttes for beregning av glidestabilitet, motstand mot oppløft og global knekking. Det er sett på både modeller som benyttes i vannkraftbransjen og modeller fra andre fagområder. For å undersøke hvorvidt de ulike beregningsmodellene gjengir virkeligheten ble det i atbeidet med oppgaven utført to typer forsøk. Modellforsøk med rør av polyvinylklorid (PVC) og sand og fullskala feltforsøk med rør av glassfiberarmert plast (GRP) med pukk som omfyllingsmasse. I modellforsøkene ble følgende undersøkt: - Aksiell friksjonskraft i horisontalt og bratt terreng - Motstand mot oppløft - Stivhet i jord og knekking Forsøksplanen for feltforsøkene ble utarbeidet på grunnlag av modellforsøkene, og i disse ble det sett nærmere på: - Aksiell friksjonskraft i horisontalt og bratt terreng - Motstand mot oppløft I feltforsøkene ble det også undersøkt i hvilken grad disse kreftene er avhengig av overdekningshøyde og komprimering. Beregning av knekking ble utført med elementmetodeprogrammene Focus Konstruksjon 2D og Abaqus. Dette for å se om programmene kan benyttes til å simulere knekking av rørgater i bratt terreng. Beregningene ble sammenlignet med modellforsøkene og viste at Abaqus er det mest egnede programmet. Verdiene fra 2D-modellen i Abaqus kan benyttes til gode overslagsberegninger, men for en fullverdig simulering av knekking av nedgravde rørgater bør det gjennomføres mer avanserte beregninger. Resultatene fra modellforsøkene virker til å følge samme trend som beregningsmodellene. Likevel er det noen avvik som kan komme av unøyaktigheter i målingene fra modellforsøkene. I feltforsøkene faller resulatene fra oppløftsforsøkene innforbi de beregnede verdiene. De aksielle friksjonskreftene avviker derrimot mye fra de beregnede verdiene. Sannsynligvis skyldes dette usikkerhet omkring friksjonsfaktoren mellom rør og omfyllingsmasse, og jordtrykket rundt røret. Det er anbefalt konkrete forslag for å studere temaet nærmere.

ntnudaim:7798

MTBYGG Bygg- og miljøteknikk

Prosjektering av konstruksjoner

Vassdragsteknikk

Momentbærende forbindelser i limtrebjelker / Rigid connections in glulam beams

Larsen, Henrik

January 2012

Denne oppgaven har som hensikt å beregne og teste momentbærende knutepunkt i tre. Tidligere undersøkelser rundt byggingen av høyhus i tre har alle konkludert med at dette ikke vil være mulig, uten å gjøre tiltak for å dempe svingningene man vil få i ett slikt bygg. Forslagene har vært økt masse, svingningsdempere og økt stivhet i knutepunktene. Rapporten tester derfor ut en type momentstive knutepunkt til bruk i trekonstruksjoner. Knutepunktett benytter seg av lange treskruer, og målsetning har vært å få en høyere stivhet enn dagens løsninger. Resultatene etter forsøksprogrammet har vist seg å være gode. Forsøk 10-12 som til slutt viste seg å bli de med høyest gjennomsnittlig kapasitet, hadde en karakteristisk stivhet fra 15 822-31 343 kNm/rad. Noe som er veldig bra med tanke på stivheten til eksisterende løsninger. Under forsøkene har en rekke faktorer blitt endret, dette for å kunne se hvordan knutepunktet kan optimaliseres.

ntnudaim:7928

MTBYGG Bygg- og miljøteknikk

Prosjektering av konstruksjoner

Konseptutvikling av en offshore supply base plassert i Barentshavet / An Offshore Supply Base (OSB) Concept for the Barents Sea

Haugen, Sunniva Fossen

January 2013

Den globale etterspørselen etter petroleum er økende, og produksjon av olje-og gassressurser flyttes til stadig nye lokasjoner. Dette har ført til et økt fokus på mulighetene for å utvinne petroleum i nordområdene, også i den norske delen av Barentshavet. Det er allerede felt som er åpnet for oljeutvinning i Barentshavet Sør, Snøhvit produserer allerede gass og Goliat-feltet vil begynne å produsere olje i 2014. I tillegg er en konsekvensutredning utført for åpningen av et nytt mulig felt i Barentshavet Sørøst. Å utvikle nye oljefelt så langt nord er utfordrende. Det er flere metocean-relaterte utfordringer som lave temperaturer, havis, ising, polare lavtrykk og lav sikt. Dette tvinger petroleumsbransjen til å finne nye tekniske løsninger og myndighetene tvinges til å utvikle nye standarder og forskrifter som gjelder for det utfordrende miljøet i Arktis. Men de mest fremtredende utfordringene er de lange avstandene og mangelen på infrastruktur. Dette gjør det vanskelig å utvikle petroleumsløsninger som både ivaretar sikkerheten og er økonomisk gjennomførbare. For å redusere sikkerheten og logistiske hull forårsaket av mangler i infrastrukturen, kan en Offshore Supply Base (OSB) plasseres i Barentshavet. Den norske delen av Barentshavet kan deles inn i to deler, hvor Barentshavet Sør er generelt isfritt hele året og Barentshavet Nord har isdekket farvann hver vinter.Denne oppgaven har sett på to OSB-konsepter, hvor ett er plassert i den sørlige delen av Barentshavet og det andre er plassert i nord. De viktigste betingelsene som er satt for de to konseptene er at OSBen skal kunne-Forbedre SAR-dekning-Forbedre oljevernberedskapen i Barentshavet-Tilby logistikktjenesterDet er for øyeblikket ingen planer om å utvikle oljefelt i Barentshavet Nord. I tillegg er det tekniske begrensninger vedrørende valg av mulige offshore installasjoner for OSBen på grunn av tilstedeværelsen av havis. Derfor er et konsept der en OSB er plassert i Barentshavet Sør ansett å være den beste løsningen. Det resulterende konseptet er et multipurpose skip plassert på ca. 73.1N 27.1E. OSBen vil ha et SAR-helikopter permanent plassert på innretningen og vil kunne tilby utvidet sykehusfunksjonalitet. Den vil også være i stand til å fungere som en NOFO-tankskip under oljevernaksjoner. Logistikktjenestene som har blitt foreslått er verksted og lagringsmuligheter. Hastigheten til fartøyet skal være minimum 15 knop. Den foreslåtte plasseringen til OSBen gjør at et SAR-helikopter plassert på innretning vil ha en 3 timers radius som dekker hele det nye foreslåtte oljefeltet i Barentshavet Sørøst. OSBen vil også være i stand til å dekke hele den norske delen av Barentshavet innen 24 timer i tilfelle en oljevernberedskap.Å basere OSBen på et skipsformet enkeltskrog gjør det mulig å konvertere et eksisterende fartøy, som kan være et billigere alternativ enn et nybygg. Den nøyaktige størrelsen på fartøyet skal være basert på mengden av oljeutslipp OSBen vil kunne motta og de utvidede logistikktjenester OSBen er i stand til å gi. Disse betingelsene bør etableres ved å utføre en konseptuell forretningsplan og risikoanalyse vedrørende mengde oljesøl den bør kunne motta.

ntnudaim:7738

MIMART Marin teknikk (2 årig)

Marin prosjektering

Methods for Earthquake Analysis

Dørheim, Helge

January 2012

Based on the need for effective solutions of structures response to seismic loading, this thesis includes the theoretical background, and explanation of several methods. There are many theories in the community, but the ones chosen to be looked closer at here are Modal response spectrum analysis for symmetric and asymmetric plan structures, Modal Pushover Analysis for symmetric and asymmetric plan structures and Linear and Non-Linear Response History Analysis. The theory has been adapted from published papers and books on the topic.The report is divided into three main sections, numerical methods for solving of dynamic problems, elastic analysis and inelastic analysis. The chapters on Elastic and Inelastic analysis are further divided into sections on symmetric and asymmetric plan.Elastic analyses by hand calculations and SAP2000 have been performed on a 2D-frame, aSAP2000 Elastic Response spectrum analysis has been performed on a 3D-frame, and aninelastic modal pushover analysis in SAP2000 has been performed on a 2D frame.The target for this inquiry is to discover advantages and disadvantages in the different methods and comparing them.

ntnudaim:8320

MTBYGG Bygg- og miljøteknikk

Prosjektering av konstruksjoner

An economic transport system of the next generation integrating the northern and southern passages

Omre, Anette

January 2012

The ice cap surrounding the Arctic Ocean has been significantly reduced during the last decades. As the ice continues to diminish the economic potential of the NSR is becoming stronger. However there are still challenges and uncertainties connected to navigation in the Arctic. Among these are the lack of marine infrastructure, the uncertainties regarding the regulations and length of the ice free season. The purpose of this master thesis is therefore to develop a transport simulation model to investigate the economic feasibility of a NSR transport system. The route has not been evaluated as a year-round substitute for the traditional route through the Suez Canal, but has been integrated with the southern passage. As a result the Northern Sea Route is only used as an alternative in the navigation season between August and the end of November. In order to investigate the feasibility of the route a case study is developed. Container cargo is evaluated as the most suitable shipping cargo; therefore the case study presents a possible container transport between Rotterdam in the Netherlands and Yokohama in Japan. The shorter distance of the NSR is exploited in two ways, either by slow steaming or increasing the number of transits a year. In addition the transport systems are evaluated for 4 different ice classes, 7 different ice scenarios and a fleet consisting of 6 or 7 vessels. The transport simulation model calculates the speed and fuel consumption in ice with the use of an ice thickness-speed curve (h-v curve). The h-v curve is found by calculating the ice resistance of the vessel for variable ice thicknesses and the corresponding net thrust available to overcome this resistance. Further the model simulates the schedules and calculates the total fuel consumption for the entire fleet. The output of the model is the required freight rate (RFR) for the NSR transport systems and the Suez Canal route.The simulation results indicate that:-The optimal fleet size consist of 7 vessels-The slow steaming schedule is more profitable than the maximum transits schedule-The optimal ice class for the less severe ice scenarios are IC, while IB is better when the ice conditions harshen-All ice classes are more profitable than the SCR if the ice conditions are less severe than ice scenario 5

ntnudaim:7727

MTMART Marin teknikk

Marin prosjektering og logistikk

A Decision Support Methodology for Strategic Planning Under Uncertainty in Maritime Transportation

Abusdal, Håvard

January 2012

Measured in volume approximately 80 % of world trade is carried at sea and with just as many different actors the shipping industry acts close to a perfect market. The highly volatile nature of the industry with unexpected market fluctuations is the basis for the major decisions shipping companies are making. Especially the fleet size and mix problem in a strategic setting involving fleet changes during several planning periods as a company growth policy. This decision is therefore highly dependent on correct timing for those who want to succeed and an introduction to the shipping industry is given to state these properties. In this thesis various optimization models solving the fleet size and mix problem are presented where the best suited model structure related to the topic is chosen. This model is of deterministic nature, meaning that all input values are known, and based upon predefined routes. The decision regarding the fleet composition during several planning periods is aiming at determining an optimal fleet for a given market. The validity of the results solely relies on input data, which is highly uncertain into an unknown future. The predictions need to coincide with the real life development in order for the results to maintain its validity.Two different trades are used as cases, solved with the models presented. Some input parameters are changed and the differences are investigated. The main findings imply that only relative small changes of the input parameters resulted in very different decisions. The related loss of making the wrong decision is observed in the region of 100 – 200 million USD during three years. This large loss potential and the uncertainty related to the input parameters leads to a need for a method minimizing these effects. An approach is developed to treat uncertainties minimizing the losses by finding a robust fleet capable of handling a large set of generated future scenarios, called the “Scenario Algorithm”. The approach is divided into three main steps; the scenario generating step where development are based on historical fluctuations, a deterministic solution with the given scenario as basis and finally storing of all the solutions with a statistical analysis of the output. The algorithm is used on the two cases with two different scenario generating approaches, based on an exponential- and a continuous uniform distribution. The fleet size and mix decisions which appeared with the highest frequency were chosen, and gave a consistent estimate based on risk aversion decreasing the potential of making losses.The approaches presented in this thesis is not meant to give a correct answer on how the future will be, but help the decisions makers reduce the uncertainty connected to the strategic decision. The deterministic model give valuable information with a given scenario as input, but the model is only capable of evaluate the scenarios individually. The result found by the scenario algorithm evaluating scenarios collectively is therefore of higher value since it provide a more robust solution.

ntnudaim:7566

MTMART Marin teknikk

Marin prosjektering og logistikk

Semi-Submersible Platform Design to Meet Uncertainty in Future Operating Scenarios

Patricksson, Øyvind Selnes

January 2012

This master thesis in marine systems design is about how to assess the future uncertainty in a design setting, or as the topic puts it; semi-submersible platform design to meet uncertainty in the future operation scenarios. Central terms that will be discussed are robustness, flexibility, adaptability, and real options, so-called ilities. Also, methods for evaluation of designs in relation to ilities and future uncertainty are presented.The background for this thesis is the ever importance of a good assessment of investment projects in the offshore business in general, and more specific in relation to designs subjected to different forms of ilities. Now, more than ever, it is crucial to make the right decisions when designing an offshore construction, to ensure that an investment is viable. This thesis has used the concept of an intervention semi, provided by Aker Solutions, to assess problems related to these aspects. At first, design drivers for the concept were identified. These were found to be cost, weigh and operability, where (total) cost and (total) weight are strictly correlated. Operability, meaning the ability to keep operations running in different conditions and situations, are mainly dependent on motion characteristics and layout, where vertical motions were found to be the most important. The properties of the intervention semi was presented as a functional breakdown, divided in five main categories; well intervention, drilling, power generation, station keeping and transit, and other functions. The last category, the one called other functions, incorporated accommodation, ballast and bilge water systems, and heave compensation system. Most relevant for the intervention concept are the intervention functions and drilling functions. Of well intervention procedures, the concept should be able to do wireline operations, coiled tubing operations, and for drilling, through tubing rotary drilling will be the main procedure. After presenting the properties for the intervention semi concept, aspects of changing requirements due to uncertainty in the future, were discussed. The design functions of changing requirements identified were operation method and technology, environment and legislation, area of operation, and economics. Following this, a discussion of how to accommodate for these changing requirements were presented, with focus on aspects regarding flexibility, robustness, adaptability, and real options. After these terms and aspects had been discussed, an evaluation of the concept in relation to the ilities presented was done. Most relevant was the possibility of a development of the coiled tubing equipment, the aspect of managed pressure drilling as a function that might be needed in the future, and the use of rental equipment. Also, ilities were identified and discussed in a concept similar to the intervention semi presented in this thesis. From this, it was found that functions related to the environment (regarding emissions) would be a potential area of ilities, due to the continually increasing focus on such matters, and by having functions related to this designed with ilities, It would make it easier to improve these functions at a later time. Also, the aspect of extra deck space was discussed, which will give the design better flexibility, and in general, it was found that flexibility in the procedures for intervention and drilling operation was important for this concept. Some functions and aspects were also found not to be relevant for any sort of ilities. Among these were functions related to heavy drilling, increased water depth and the aspect of ice class.To find the value of a design with functional ilities, different methods and aspects were presented. At first, economical aspects were discussed, and methods using net present value were found to be relevant in relation to the valuation of ilities. Another approach discussed was scenario development and assessment, where in particular one method was found relevant. This method proposes to find an optimal design for the scenario assumed most probable, and then test this design against the other possible scenarios (using the models as simulation models) to get an impression of the resilience of the designs. Two decision support models were proposed, Model 1 and Model 2. The first model presented, Model 1, can be described as a “hybrid” decision model, part static, part dynamic, where an optimal design is found for a set of contracts, taking real options into consideration. The contracts should reflect the future, and from a set of base designs, with varying possibilities for functions and options, a design with an optimal combination of capabilities and options will be the result of solving the problem. Model 2 is sort of a static variant of Model 1, where the possibility of real options is no longer available. The model will still find a design with an optimal combination of capabilities for a set of contracts, but all capabilities must be part of the construction initially.Further, the two models are implemented for use in a commercial solver, and parameters and constraints are discussed. These implemented models were then used for the illustrative cases.The case studies illustrate how the two models presented can be utilised, and in addition illustrate how the scenario assessment discussed earlier can be combined with the decision support models. There are mainly three cases presented; two where Model 1 is used, and a third, where Model 2 is used. In Case 1 there are three base designs, with different characteristics, and one only attribute (supplementary function) that should be assessed. Three scenarios are presented as a basis for the contract generation. First, an optimal design solution was found for each scenario (Case 1a, Case 1b and Case 1c). Secondly, a scenario assessment was done, where the solution from the scenario assumed most probable is tested against the other two scenarios using the model as a simulation model rather than an optimisation model. Scenario 1 was assumed to be the most probable one, represented by Case 1a, and the optimal solution for this case was Design 1. This design was then tested against the two other scenarios, and it came out with a rather good result, illustrating the resilience of the chosen design. Case 2 illustrated a more complex problem, where an optimal solution should be found among 16 different base designs and four possible attributes. The attributes could either be part of the design initially or made as options that can be realised at a later time. The instance tested is assumed to be somewhat more complex than a commercial problem, but illustrates in a good way the capability of Model 1. Case 3 is an example of how Model 2 can be used. In Case 3a, only one base design is available, and with a set of four possible attributes, an optimal design should be found. Due to the “static” character of Model 2, the attributes can only be part of the initial design. Case 3b is much the same, except here there are two base designs to choose among, in addition to the four attributesA computational study was carried out, using Model 1, and only this, as it is assumed to be the most complex of the two models. The test incident assumed most relevant, with 100 contracts, four base designs, and eight attributes, can be solved one time in on the average less than two seconds, and for a full scenario analysis, consisting of about 1000 runs, the analysis will take about half an hour.As a concluding remark for this thesis, I will say that the main scope, which I in my opinion was to discuss how different design solutions can be evaluated in relation to future uncertainty, was answered in a good way with the two decision models proposed together with how these could be used in a scenario setting.

ntnudaim:7861

MTMART Marin teknikk

Marin prosjektering og logistikk

Modular Capabilities on Offshore Support Vessels

Brekke, Øystein

January 2012

The report is divided into three different categories; background, concept evaluation and comparison and the methodology development. The background gives a short introduction of product architecture, modularity and modularization and also a brief description of existing design concepts which are capable of offering modular capabilities in the operation phase of a vessels life cycle.The second part of the report is a review of possible advantages and disadvantages with the implementation of a similar concept as presented in the background on offshore support vessels. The review deals with several aspects such as increased flexibility, higher spot utilization and also how this concept can have effects in an environmental perspective. Direct challenges with modular capabilities such as equipment complexity, port logistics issues etc. has also been discussed. Finally the concept is evaluated from an economical perspective, discussing costs in short and long term perspectives and how to predict the costs of a conversion between operations.The result of the evaluation is that the concept has aspects that are presumed quite beneficial for ship owners. Noticeable are increased flexibility in the range of operations a vessel can perform, possibilities for a fleet reduction due to modular capabilities and also possibilities for economic benefits in forms of higher spot utilization and easier maintenance of equipment modules. It is also anticipated that the concept will make the vessel more receptive for new technology and equipment modules. The most repressive aspect regarding modular capabilities is by far each equipment modules high degree of complexity together with the low degree of independency.The concept has also been compared with multi-purpose OSV’s and conventional mission specific OSV’s within several different aspects considered important for ship owners. The results are generally favoring a vessel with modular capabilities, but also that the negative aspects of the concept might not be taken sufficient account for in the comparison.In the third and last part it is developed a methodology to establish the equipment structure of an offshore support vessel with modular capabilities. It establishes the function hierarchy of the vessel and defines the interactions between the equipment modules and the functions before each module is evaluated in light of modular complexity and vessel influence. Based on this the equipment structure is established and exchange intervals for the modules are proposed.To illustrate the steps of the methodology better a case study is performed based on 5 different operations; anchor handling, towing, pipe lay, construction and support. The case study gives two main indications:1. There are a potential in further development of the methodology. Mainly involving the modules interactions and the specific equipment evaluation.2. The equipment modules are as determined before very complex and require long exchange intervals and also extensive external support to swap modules.

ntnudaim:7630

MTMART Marin teknikk

Marin prosjektering og logistikk

Modular approach to offshore vessel design and configuration

Tvedt, Henrik

January 2012

The design process used in most vessel design approaches can be described as sequential and iterative, where the initial design is subject to constant improvements. The process development is thereby constrained by the decisions made in early stages of design. It becomes apparent that the more design knowledge which can be generated and evaluated in these stages, the better foundation the designer has to make the best decisions. System Based Ship design (SBSD) has introduced a bottom-up approach which generates a functional description based on the vessel missions for use in early stages of design. SBSD focuses on enabling creativity and innovation in vessel design by being able to evaluate alternative solutions. The increase and availability of computational processing capacity these days is a contributor to enabling more design aspects included in earlier design stages.This thesis focuses on development of a system that is able to efficiently develop and evaluate Offshore Support Vessel designs and alternative designs in concept- and preliminary stages of design. Based on the functional description of OSVs from the SBSD methodology are modules related to vessels missions systematically identified and generated. Modular Product Platforms (MPPs) which contains rules for how these OSV modules can be combined have been developed to efficiently develop design alternatives for consideration. The main focuses have been to enable creativity, innovation and alternative solutions in an efficient manner in early stages of design. Due to the physical similarities that the OSVs share, MPPs have provided a good tool for efficient development of these vessels. The parametric ship description within the MPPs enables concept exploration and improvement with low effort and facilitates design evaluation and improvement. Automated 3D modelling based on the OSV MPPs provides a more intuitive design process and facilitates design evaluation to multiple vessel alternatives. The responsiveness and flexibility of the MPP and automated 3D modelling is believed to have benefits in a sales situation to efficiently develop design alternatives based on customer demands and providing a visual representation for discussion. This has the potential of reducing the time and resources involved in tendering/sales projects. MPPs can be used by design companies to more easily communicate which designs they can offer, and to explore vessel design parameters influence on performance. Due to vessels complex hull shape, the modules’ shapes and quantity positioned within the hull influence the performance of the output design form the MPPs. Control and manipulation of hull shape is found to be essential due to vessel characteristics. Sectioning of the hull shapes within the MPPs has provided a good method of enabling control and evaluation of the hull shape with minimum compromise to other design performances. Databases containing vessel statistics have provided a good method of comparing key performance criteria of output design from the MPPs to existing vessels and thereby contribute to validation of the design. These vessel statistics will also support the designer in providing good initial input values for parameters that are found by iterations and design development. Search- and optimization algorithms can be used to find good configurations of the MPP parameters and support the designer with parameter options in future developments. The developed MPPs can be further developed to incorporate more aspects to OSV design, and by supporting and incorporating analysis and simulations from other software applications, based in the generated 3D model, a solid tool for OSV design can be established. Re-configuration related to OSV operations can become a solution in competition for the most favourable contracts and to account for the fluctuating and seasonal market. Re-configuration alternatives can efficiently be launched and evaluated by the use of MPPs. Although the developed system seems to efficiently develop design alternatives with good performance, it has yet to prove its applicability as a tool for use in the industry.

ntnudaim:7709

MIMART Marin teknikk (2 årig)

Marin prosjektering