subsea engineering thesis topics

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Molloy, Paul. "Smart materials for subsea buoyancy control." Thesis, University of Glasgow, 2000. http://theses.gla.ac.uk/6161/.

Greenlee, Alison S. "Design of subsea energy storage chamber." Thesis, Massachusetts Institute of Technology, 2009. http://hdl.handle.net/1721.1/54471.

Micheletti, David (David Mark) 1979. "Design of position sensors for subsea oil tools." Thesis, Massachusetts Institute of Technology, 2003. http://hdl.handle.net/1721.1/87866.

Dynge, Martin Steen-Nilsen. "Subsea Permanent Magnet Motor with Damper winding." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for elkraftteknikk, 2014. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-27238.

Thiraviam, Amar Raja. "Accelerated life testing of subsea equipment under hydrostatic pressure." Doctoral diss., University of Central Florida, 2010. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/4525.

Ambler, Charles Kirby. "Design of an underwater vertical glider for subsea equipment delivery." Thesis, Massachusetts Institute of Technology, 2010. http://hdl.handle.net/1721.1/58391.

Stølan, Ronny. "Losses and Inductive Parameters in Subsea Power Cables." Thesis, Norwegian University of Science and Technology, Department of Electrical Power Engineering, 2009. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-9992.

Four samples of galvanized steel armour for sub sea power cables are tested with an electric steel tester. The samples exhibit diﬀerent remanence magnetization and permeability. The eﬀects of permeability on loss in sub sea cables is found to be insigniﬁcant. Slight increase of conductor inductance due to increase in permeability of armour wires is observed. Mutual cancellation of inductance between circuits that are twisted opposite to each other, or with respect to one circuit, is conﬁrmed with laboratory tests and measurements on full scale sub sea power cables. The parameters of one cable is calculated using IECs analytical approach and found to be inaccurate for conductor resistance. The Calculations places 22% of total cable loss in the armour. Measurements on two sub sea cables and analysis using ﬁnite element method contradict the calculated armour loss. Parameters for two sub sea power cables are calculated based on measurements performed on the actual cables. The calculated values are compared with values computed using ﬁnite element analysis. Derived physics from laboratory experiments and measurements on the cables is applied in ﬁnite element analysis and found to be accurate compared with calculated values from measurements and computed values using Flux 2.5D.

Bourgeois, Desmond. "Hydrogen Assisted Crack in Dissimilar Metal Welds for Subsea Service under Cathodic Protection." The Ohio State University, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=osu1437668334.

Schlegelmilch, Tye (Tye Anthony). "The design of a coiled tubing cutter for use in subsea oil drilling applications." Thesis, Massachusetts Institute of Technology, 1999. http://hdl.handle.net/1721.1/38278.

Valentini, Francesco. "Experimental and numerical study of methods to displace oil and water in complex pipe geometries for subsea engineering." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2019. http://amslaurea.unibo.it/17528/.

Ruiz, Vasquez Karla Liliana. "Effect of availability on multi-period planning of subsea oil and gas production systems." [College Station, Tex. : Texas A&M University, 2008. http://hdl.handle.net/1969.1/ETD-TAMU-2905.

Giraldo, Vasquez Luis Carlos. "Control of a Variable Speed Drive with a Multilevel Inverter for subsea applications." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for elkraftteknikk, 2010. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-11221.

Meinecke, Torsten Volker. "Experimental study of underwater laser cutting of steel with a view on subsea decommissioning." Thesis, University of Aberdeen, 2012. http://digitool.abdn.ac.uk:80/webclient/DeliveryManager?pid=196283.

Oluwadairo, Tolulope. "An evaluation of subsea pump technologies that can be used to achieve dual gradient drilling." [College Station, Tex. : Texas A&M University, 2007. http://hdl.handle.net/1969.1/ETD-TAMU-2571.

Suglia, Ignazio. "Assessment of uni-directional foundation skirts to enhance performance of tolerably mobile subsea foundations." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2018.

Silingardi, Alberto. "Design of a Subsea Observatory to monitor the environmental impacts in a decommissioned area." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2018.

Suma, Emeric Emmanuel. "Using Duplex Stainless Steel to Join X65 Pipe Internally Clad with Alloy 625 for Subsea Applications." The Ohio State University, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=osu1492696298842902.

Kim, Dong Keun. "An analytical and experimental investigation for an interstitial insulation technology." [College Station, Tex. : Texas A&M University, 2008. http://hdl.handle.net/1969.1/ETD-TAMU-2771.

Asgharzadeh, Shishavan Reza. "Nonlinear Estimation and Control with Application to Upstream Processes." BYU ScholarsArchive, 2015. https://scholarsarchive.byu.edu/etd/5291.

Alkordy, Faris M. "Evaluation of Organic Protective Coatings as Corrosion Prevention for The Interior of Subsea Pipelines in Sour Gas Service." FIU Digital Commons, 2015. http://digitalcommons.fiu.edu/etd/2304.

Pereira, Leandro Augusto Grandin 1981. "Metodologia para seleção de conceitos para plantas de processamento submarino." [s.n.], 2015. http://repositorio.unicamp.br/jspui/handle/REPOSIP/265774.

Al-Sallami, Omer. "CABLES DECOMMISSIONING IN OFFSHORE WIND FARMS: ENVIRONMENTAL AND ECONOMICAL PERSPECTIVE." Thesis, Uppsala universitet, Institutionen för geovetenskaper, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-448448.

Peker, Merter. "Economical Impact Of A Dual Gradient Drilling System." Master's thesis, METU, 2012. http://etd.lib.metu.edu.tr/upload/12614381/index.pdf.

Itiki, Rodney. "Metodologia para mapeamento de zonas operacionais em sistemas de transmissão VSC-HVDC." Universidade de São Paulo, 2018. http://www.teses.usp.br/teses/disponiveis/3/3143/tde-09042018-145504/.

Eaton, Ammon Nephi. "Multi-Fidelity Model Predictive Control of Upstream Energy Production Processes." BYU ScholarsArchive, 2017. https://scholarsarchive.byu.edu/etd/6376.

Spenler, Stephen John. "Differentially coherent trellis coded modulation with subset dilation." Thesis, University of Ottawa (Canada), 1989. http://hdl.handle.net/10393/5963.

LaMacchia, Brian A. (Brian Andrew). "Basis reduction algorithms and subset sum problems." Thesis, Massachusetts Institute of Technology, 1991. http://hdl.handle.net/1721.1/13277.

Axiotis, Kyriakos. "Algorithms for Subset Sum using linear sketching." Thesis, Massachusetts Institute of Technology, 2019. https://hdl.handle.net/1721.1/122750.

Yuan, Kailun. "A Study of Effectiveness of Feature Subset Selection in Classification Problems." University of Cincinnati / OhioLINK, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1397235414.

Legendre, Christophe. "Identification of a leu-7+leu-3+ cell subset in long-term renal allotransplant recipients." Thesis, McGill University, 1986. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=65388.

Nylén, Helmer, and August Jacobsson. "Investigation of a Knowledge-Based Subset Construction for Multi-Player Games of Imperfect Information." Thesis, KTH, Skolan för teknikvetenskap (SCI), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-231026.

Carter, Brandon M. "Interpreting black-box models through sufficient input subsets." Thesis, Massachusetts Institute of Technology, 2019. https://hdl.handle.net/1721.1/123008.

Bokhari, Saniyah S. "Parallel Solution of the Subset-sum Problem: An Empirical Study." The Ohio State University, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=osu1305898281.

Gertenbach, L. M. "An integrated control system for the subsets of a mobile robot." Thesis, Stellenbosch : Stellenbosch University, 2001. http://hdl.handle.net/10019.1/52113.

Maidhof, Robert Joseph. "Computing optimal cocomo effort multiplier values and optimal casebase subsets using monte carlo methods." Master's thesis, University of Central Florida, 1996. http://digital.library.ucf.edu/cdm/ref/collection/RTD/id/22650.

Shear, Raymond F. "Implementation of a Modula 2 subset compiler supporting a "C" language interface using commonly available UNIX tools /." Online version of thesis, 1989. http://hdl.handle.net/1850/10505.

Lycken, Jakob, and Simon Westerlund. "Strategy Synthesis for Multi-Agent Games of Imperfect Information." Thesis, KTH, Skolan för elektroteknik och datavetenskap (EECS), 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-297694.

Owaied, H. H. "A computer assisted learning system for reliability engineering : A PROLOG-oriented model devised for the acquisition of domain specific knowledge using a subset of English language dialogue and cognitive psychology principles." Thesis, University of Bradford, 1988. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.381436.

Norouzi, Mahdi. "An Efficient Method to Assess Reliability under Dynamic Stochastic Loads." University of Toledo / OhioLINK, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=toledo1349496534.

Nordling, Torbjörn E. M. "Robust inference of gene regulatory networks : System properties, variable selection, subnetworks, and design of experiments." Doctoral thesis, KTH, Reglerteknik, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-120830.

QC 20130508

Darsonval, Arnaud. "Etude de déterminants moléculaires de Xanthomonas fuscans subsp. fuscans impliqués dans la colonisation de son hôte Phaseolus vulgaris." Phd thesis, Université d'Angers, 2008. http://tel.archives-ouvertes.fr/tel-00348013.

Li, Ling. "Sequential Design of Experiments to Estimate a Probability of Failure." Phd thesis, Supélec, 2012. http://tel.archives-ouvertes.fr/tel-00765457.

Dang, Cong-Thuat. "Méthodes de construction des courbes de fragilité sismique par simulations numériques." Phd thesis, Université Blaise Pascal - Clermont-Ferrand II, 2014. http://tel.archives-ouvertes.fr/tel-01023973.

Marques, Tomás Figueiredo. "Design and validation of pressure vessels for optimized payload in subsea applications." Dissertação, 2021. https://hdl.handle.net/10216/132998.

Marques, Tomás Figueiredo. "Design and validation of pressure vessels for optimized payload in subsea applications." Master's thesis, 2021. https://hdl.handle.net/10216/132998.

Wortmann, Jan [Verfasser]. "Concurrent requirements engineering with a UML subset based on component schema relationships / vorgelegt von Jan Wortmann." 2001. http://d-nb.info/962834696/34.

King, Ryan C. "Subnet discovery in passive internally sensed network tomography." Thesis, 2007. http://hdl.handle.net/1911/20514.

Teixeira, Ricardo José Pinto. "Sistema de subida e descida de coroas móveis em colunas de iluminação." Dissertação, 2017. https://repositorio-aberto.up.pt/handle/10216/110243.

Teixeira, Ricardo José Pinto. "Sistema de subida e descida de coroas móveis em colunas de iluminação." Master's thesis, 2017. https://repositorio-aberto.up.pt/handle/10216/110243.

Teixeira, Ricardo José Pinto. "Sistema de subida e descida de coroas móveis em colunas de iluminação." Master's thesis, 2017. https://repositorio-aberto.up.pt/handle/10216/110467.

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COLD FLOW IN LONG-DISTANCE SUBSEA PIPELINES A MASTER THESIS WORK DONE IN PARTIAL FULFILMENT FOR THE AWARD OF MASTERS DEGREE Acknowledgement

Related Papers

Moses Gideon

As the world’s appetite for energy continues to grow, oil and gas developments are moving to ever deeper subsea environments, thereby causing hydrates-related issues to become a growing concern for the industry. Hydrates blockages, beyond the safety risk they represent, result in time-consuming and costly mitigation and remediation operations. Most hydrate experiences found in the literature, and the corresponding prevention and remediation strategies, concern subsea pipelines. This work relates a novel technology for hydrate mitigation in subsea pipelines. This is the cold flow technology. A detailed review of the cold flow technology, its main component equipment, the concepts by different organizations on the technology, as well as the advantages and disadvantages of each proposal has been done. A qualitative research method is used, which is suitable when exploring a new phenomenon. Six cases of different technologies were chosen which include: chemical inhibition (THIs and LDHIs), direct electrical heating system and three potential emerging cold flow technology concepts for ensuring flow assurance in long pipelines. The technical, environmental and economical evaluations of the different technologies have been done. In order to obtain information on these cases, observation and documental studies (archives) were chosen as research methods. These methods however do not give me all the needed information about the various cases and this is a weakness of the results. Cold flow technology was compared with the conventional technology currently used for tackling hydrate and wax problems. It was found out that the cold flow technology offers a more robust means of eliminating the problem in a cost and environmentally effective manner especially over long distances greater than 200 kilometers. The lessons learned from this experience are presented here and are currently being used as a basis for improving operation guidelines and hydrates prevention strategies for deepwater transportation pipelines.

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by Chess Subsea Engineering · Published April 17, 2015 · Last modified November 21, 2016

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Welcome to the nation’s first Subsea Engineering Graduate Program with the Master of Science in Subsea Engineering located in the world’s oil and gas capital of Houston, Texas! In partnership with the world’s leading energy engineering companies, the University of Houston has created a relevant 21st-century energy engineering education, comprised of classroom lectures and hands-on software lessons for subsea systems design. Our program is the next step in an international outreach effort resulting in UH emerging as the Energy University. Today, UH offers a seamless curriculum comprised of oil and gas exploration, petroleum engineering through production, and petroleum refining. The master’s program is offered both in the classroom and online which allows for international, domestic and the full-time working professionals to take part in the program and pursue their education in subsea engineering.

For more information, please visit the Subsea Engineering website.

Admission Requirements

A four-year bachelor’s degree in engineering or engineering related field is required. Admissions for the MS Subsea Engineering program is offered during the Fall and Spring terms.

Application Materials

Completed Graduate School Online Application
Application fee [$25 for domestic applicants/$75 for international applicants]
An official transcript should be mailed to one of the following addresses below:
GRE scores officially reported to the university (code is 6870)
Resume (uploaded)
Areas of Interest Form (uploaded)
Essay (uploaded)
3 Recommendations
Additional documentation required for international applicants, including English language proficiency requirements, can be found on the Graduate International Student website.

For further information on how to apply, please review the How to Apply to UH Graduate School website.

All application documents must be uploaded to your online application. An application will be delayed if not all application documents are uploaded.

Degree Requirements

Credit hours required for this degree: 30.0

The Master of Science in Subsea Engineering at the University of Houston is a non-thesis, 10-course graduate curriculum. The curriculum is comprised of three primary categories.

Category 1: Required Courses

Every student must take this required three-course sequence. These courses serve as the foundation of the engineering science knowledge base needed for the remaining graduate curriculum.

MECE 6334 - Convection Heat Transfr Credit Hours: 3.0
MECE 6384 - Methods of Applied Mathematics I Credit Hours: 3.0
SUBS 6310 - Flow Assurance Credit Hours: 3.0

Category 2: Restricted Electives

The courses listed below have been specifically developed for the Subsea Engineering Graduate Program. Every student must take at least three of the courses from this prescribed elective list. Additional subsea engineering courses are currently being developed and will be added to this list. Students may submit a graduate petition if deviations from this requirement makes sense for individual career paths.

SUBS 6305 - Mathematics for Subsea Engineers Credit Hours: 3.0
SUBS 6320 - Riser Design Credit Hours: 3.0
SUBS 6330 - Pipeline Design Credit Hours: 3.0
SUBS 6340 - Subsea Process and Artificial Lift Credit Hours: 3.0
SUBS 6350 - Subsea Controls and System Engineering Credit Hours: 3.0
SUBS 6351 - Design of Subsea Blowout Preventers Credit Hours: 3.0
SUBS 6360 - Subsea Materials and Corrosion Credit Hours: 3.0
SUBS 6370 - Computational Methods & Design Experiments Credit Hours: 3.0
SUBS 6380 - Subsea Systems Credit Hours: 3.0
SUBS 6397 - Selected Topics Credit Hours: 3
Advanced Flow Assurance
Design for Oil and Gas
Guide to Engineering Data Science
Additional topics, with the approval from the Program Director

Category 3: Electives

Of the 10 mandatory courses required for the MS in Subsea Engineering, Categories 1 and 2 have prescribed at least 6 courses. This leaves a maximum of 4 courses that can be selected by the student, subject to approval by the Director. Subsea engineering is an interdisciplinary engineering field, so students are strongly encouraged to take at least one course from another department or program within the Cullen College of Engineering. Mechanical Engineering graduate courses applicable to the MS in Subsea Engineering include:

MECE 6335 - Heat Transf/Phase Chng Credit Hours: 3.0
MECE 6353 - Intro Comp Fluid Dynam Credit Hours: 3.0
MECE 6361 - Mechanical Behavior/Materials Credit Hours: 3.0
MECE 6363 - Physical Metallurgy Credit Hours: 3.0
MECE 6368 - Mechanical Design Proj Credit Hours: 3.0
MECE 7361 - System Identification Credit Hours: 3.0
MECE 63XX - Selected Courses Credit Hours: 3.0 , requiring approval from the Program Director.

Course from other departments and program within the Cullen College of Engineering are strongly encouraged as subsea engineering is necessarily an interdisciplinary engineering field.

Academic Policies

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Academic Requirements

Each student assumes responsibility for being familiar with the academic program requirements as stated in the current catalogs of the college and university and this website.

Transfer of Credits

A student may transfer up to 6 hours (2 courses) of graduate-level work completed elsewhere upon the approval of the Director of Graduate Studies. The student will need to file a general petition within one term after admission to graduate program.

SOCIETY FOR UNDERWATER TECHNOLOGY- SUBSEA ENGINEERING SOCIETY

ABOUT SUT-SES

Society of Underwater Technology – Subsea Engineering Society (SUT-SES) is a growing body of individuals, engineers, technologists, and geo-technicians dedicated to promoting innovation and excellence within the subsea industry. Subsea Engineering is an inherently complex and unique multidisciplinary specialty within the oil and gas industry.

We want to serve the members of the society by uniting the disciplines dealing with underwater technologies and establishing channels with industries related to this society. This would ensure c ross-fertilization of ideas, experience, and information between professionals in subsea engineering, the energy industry, and academia. We always strive to p romote economic and educational usage of SUT resources to benefit the student chapter members.

We strive to bring together industry professionals and students with common interests in Subsea engineering and underwater technology with the goal of facilitating knowledge sharing, technical development, and creating awareness of Subsea technology. We are pro-climate change and believe in making this industry green and sustainable.

BECOME A MEMBER

Become a member of SUT-SES of the Univesity of Houston Chapter

Actively seeking for more members! If you believe that you can contribute and make a difference, please leave your info below and we'll get back to you

Graduate Degree Programs

The department offers the following graduate programs for full-time and part-time students:

with thesis in Mechanical Engineering. This program focuses on engineering science in one of several areas of specialization. A formally defended thesis describing research into a topic of current academic interest is the centerpiece of this program.
without thesis in Mechanical Engineering . The focus of the non-thesis program can be varied between engineering science and engineering practice through a selection of elective courses from the Colleges of Engineering, Natural Science and Mathematics, Business, and Law.

Master of Mechanical Engineering (MME) is a non-thesis, 10-course graduate curriculum that is designed as a professional degree. This program provides depth of knowledge in selected areas of mechanical engineering, as well as broader knowledge in other engineering, science, business or law topics.

Master of Science in Subsea Engineering is a non-thesis, 10-course graduate curriculum.

Dual M.S. Degree in Mechanical and Aerospace Engineering The dual degree program allows students to obtain both a master’s degree in Mechanical Engineering and a master’s degree in Aerospace Engineering completing 45 credit hours of relevant graduate coursework.

Dual M.S. Degree in Aerospace Engineering and Space Architecture A dual degree program that allows students to obtain both a master's degree in aerospace engineering and a master's degree in space architecture by completing 46 credit hours of relevant graduate coursework.

Dual M.S. Degree in Mechanical and Subsea Engineering

Doctor of Philosophy (Ph.D.) in Mechanical Engineering in several areas of specialization. The Ph.D. is the highest degree granted by the University and its possession signifies that the holder has demonstrated the ability to perform original research. The student's principal objective is to produce a dissertation that can be considered a significant contribution to the field of knowledge in mechanical engineering. Our standard Ph.D. program assumes a completed M.S. degree prior to admission. Our Direct Admit program allows the exceptional student to be admitted to doctoral candidacy without a completed M.S. degree.

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Engineering Dissertation Topics

A dissertation (or a final year project report) is a comprehensive technical report of the research work carried out. A dissertation must present some new, original concepts that lead to further research. The core area of a dissertation consists of a hypothesis (or a research question) upon which an investigation is conducted and, in most cases, inevitably leads to further research. A dissertation must be focused, concise and must address the research topics at every level. Also, along with research, a dissertation is expected to present complete evidence of research work in the form of research methods. Sometimes it’s hard to even know where to start. Herein, many engineering research areas, currently being sought after in the industry and academia, are suggested, including electronics, sensors technology, environmental engineering, supply chain engineering, computer science engineering, electrical engineering and civil engineering, to help you start your research.

Electronics and Communication Dissertation Topics

Sensors Technology Dissertation Topics

Environmental engineering dissertation topics, supply chain engineering dissertation topics, supply chain management dissertation topics, computer science engineering dissertation topics, electrical engineering dissertation topics, civil engineering dissertation topics, management related engineering dissertation topics, electronics and communications dissertation topics.

Over the past decade the rise of electronic communication has been revolutionised; it is the fastest growing technology. There are numerous areas of research in this field; however, the most demanding ones are highlighted below.

Defining the boundaries of electrical signals for current electronics (communication) systems.
The limitation of fibre optic communication systems and the possibility of further improving their efficiency.
Developing the embedded communication system for the national grid to optimise energy usage.
Improvement of inter-symbol interference in optical communications.
A study of the various forms of errors and the development of an equalisation technique to reduce the error rates in data.
Gaussian pulse analysis and the improvement of this pulse to reduce errors.
Realising the potential of RFID in the improvement of supply chain.
Radiation in integrated circuits and electronic devices.
Design of high speed communication circuits that effectively cut down signal noise.
Spectral sensing research for water monitoring applications and frontier science and technology for chemical, biological and radiological defence.
Nano-structured membranes for preparative purifications of biopharmaceuticals.

The rise of smart technology has been revolutionising sensor technologies, and there is a high demand to make more efficient and compact sensors. The following topics are a few areas that researchers are currently working in to realise further potentials.

Design and development of a pressure sensor for a solar thermal panel.
An investigation into wind speed and direction sensors to optimise the operations of wind turbines.
Utilising MEMS for profiling airflow around large building structures.
Development of micro sensors to measure oil flow rate in tanks.
Development and implementation of micro sensors to study pressure of the blood stream.
Development of sensors to measure heat generated from solar panels.
Sensing and controlling the intensity of light in LEDs.
Research and computational simulation of a natural olfactory biosensor.
Development of glucose biosensors using nanotechnology.

We are living in the age of technology where the driving force is to reduce the environmental impact of engineering products. Many countries have been undertaking projects supporting the environment and aiming to reduce carbon emissions. The following engineering dissertation topics are of utmost interest for researchers in the industry.

Analysing the impact of aviation industry on the environment and the potential ways to reduce it.
The environmental cost of the so called green energy, ‘wind energy’.
An analysis of factors that hinder the realising of cutting-edge technology for reducing carbon emissions from automobiles.
Design and development of a system for measuring the carbon index of an energy intensive company.
Process improvement techniques to identify and remove waste in the automotive industry.
Process mapping techniques to identify bottle necks for supply chain industry.
A study of compressor operations on a forging site and mapping operations to identify and remove energy waste.
Improving processes to reduce kWh usage and reduce inefficiencies.
Developing a compact device to measure energy use for a household.
In the forging industry how can changing burners within furnaces help organisations achieve energy efficiency?
How can gas consumption be reduced and efficiency introduced to reduce kWh usage?
How can voltage reduction devices help organisations achieve efficiency in electricity usage?
What are carbon credits and how can organisations generate them?
There are some organisations that use water excessively, with bills totalling more than £25,000. Identify the main reasons for such water usage and investigate better ways to introduce water efficiency and create savings.
Identify the ways by which efficient control systems using information systems can be introduced to study the energy usage in a machining factory.
A project to set up ways to measure natural gas flow ultrasonically and identify waste areas.
How can water conductivity probes help determine water quality and how can water be reused?

Supply chain plays an important role in the manufacturing business sector. It is important that the supply chain is well supported by efficient methods and processes. Your engineering dissertation topics could be about:

Highlighting the difference between the supply chain engineering and management for a company to improve output.
Analysing the key factors in process planning and optimisation of supply chain for a manufacturing company.
Developing a supply chain template for a small but thriving online business.
How can organisations achieve success by reducing bottlenecks in supply chain?
Just-in-time – is it really valid? Measurement of losses within just-in-time process implementation.
How can process efficiency be introduced to reduce waste within the manufacturing process?
Supplier relationship is an important factor for the success of just-in-time. How can organisations ensure successful transactions?
Research to identify efficient logistics operations within a supply chain.
Research to introduce efficiency within information systems and support timely transfer of knowledge and information.
The effect of globalisation on supply chain engineering/management for large multi-national companies.
Research studying the impact of culture on supply chain industries: identification of factors that generate inefficiencies with the supply chain.

Supply chain management involves the administration, management, control and supervision of the movement of goods and services from supplier to manufacturer to wholesaler to retailer and to the end consumer. Supply chain management involves coordinating and integrating these elements using an effective and efficient approach and methodology. Supply chain management is important for businesses to ensure there is minimum waste, drive innovation thereby creating integrated value chains. Supply chain management plays an important and central role in the success of a business. Please find a list of topics on supply chain management that may be useful for your engineering dissertation:

A detailed investigation into the need and use of dynamic staff to determine and rectify supply chain problems with a specific focus on the construction industry.
Research into eco-friendly and sustainable practices in supply chain management.
Research to develop a learning organisation and its impact on supply chain management.
Research to measure and develop intellectual capital within the supply chain industry.
A detailed study of innovative forecasting and demand planning strategies for supply chain management
Research study to create measurements to study the impact of learning organisation on performance measurement in supply chain industry
Impact of training on knowledge performance index within supply chain industry.
The behaviour of Carbon index with the implementation of a learning organisation.
Developing a framework for supply chain management in densely populated urban cities
Detailed investigation and analysis taking into account supply chain and logistical strategies for perishable goods.
The influence and impact of emerging e-commerce technologies on supply chain management.

Computer science engineering focuses on the key elements of computer programming and networking with a focus on gaining knowledge of the design, implementation and management of information systems. Information systems play a major role in computer science engineering and an integral component to the successful operations of organisations. The management of information technology systems is a major element for organisations. The following could be used for an engineering dissertation as well as a computing dissertation:

How can organisations ensure that information system is effectively used to maintain process efficiency?
How can learning organisations influence the development of information systems?
The role of risk management in information technology systems of organisations.
Research to identify and reduce e-waste using information technology strategies and systems.
Current status and research on E-waste in the United Kingdom
Development of measurement systems to measure e-waste.
A detailed review of the role of information technology in improving productivity and transforming organisations.
An investigation into the use of information technology as a tool for sustained competitive advantage.
A high-level investigation and detailed review into best practices for the implementation of information technology in modern day organisations.

Electrical engineering is focused on the design, development, testing, supervision and the manufacturing of electrical equipment. Electrical engineers design the electrical systems of automobiles, aircrafts, power generation equipment, communications systems, radar and navigational systems. The design and development of these electrical components are key and central to modern day life. There are several topics within this area that you could research for your electrical engineering dissertation:

Development of a system to study the efficiency of motors in order to reduce kWh usage
Setting up of a control system to monitor the process usage of compressors.
Develop a scheme to normalise compressor output to kWh.
Research to investigate, develop and introduce schemes to ensure efficient energy consumption by electrical machines.
Research to study transformer losses and reduce energy loss.
Research to study metering techniques to control and improve efficiency.
Research to introduce smart metering concepts to ensure efficient use of electricity.
Integration of smart metering pulsed outputs with wireless area networks and access real-time data.
Developing effective strategies and methodical systems for pay as you go charging for electric vehicles
A detailed review and investigation into the key issues and challenges facing rechargeable lithium batteries
Trends and challenges in electric vehicles technologies
Smart charging of electric vehicles on the motorway

The main emphasis of civil engineering in recent times is focused on sustainable development of quality, durable structures that deliver value for money, maximise the benefits from innovation and meets the specifications of the end users. Construction of sustainable houses has been a top priority within civil engineering. The following research topics are being actively undertaken and may be a good area for you to base your research on your own engineering dissertation:

Development of sustainable homes making use of renewable energy sources.
The use of sustainable materials for construction: design and delivery methods.
The role of environmental assessment tools in sustainable construction
The use of warm mix asphalt in road construction
Research to study properties of concrete to achieve sustainability.
Development of waste reduction strategy to achieve sustainable concepts
High-level review of the barriers and drivers for sustainable buildings in developing countries
Research to study the impact of sustainability concepts on organisational growth and development.
Sustainable technologies for the building construction industry
Building Information Modelling in the construction industry
Research regarding micromechanics of granular materials.
Research to study and develop water treatment processes.
Research to set up remote sensing applications to assist in the development of sustainable construction techniques.
High-level strategies, best practice guidelines and methodologies for sustainable construction.
State of the art practice for recycling in the construction industry.
Key factors and risk factors associated with the construction of high rise buildings.
An investigation into health and safety in the construction industry.

Engineering management is the application of the practice of management to the practice of engineering. Engineering management integrates problem-solving, engineering, technological developments and advancements in organizational structure, administrative, and planning abilities of management in order to oversee the operational performance of complex engineering driven enterprises. These two topics go hand in hand and support each other quite well. It is important that both sides are well balanced. The following research topics could be useful for your engineering dissertation:

Steps to conduct management of change to ensure smooth process improvement.
Research to sustainably manage a project team.
Research to study the management of engineering projects and various risks involved with them.
Research to identify process improvement plans to support business strategies.
Efficient supply chain management to ensure and develop key motivational skills within staff members.
How leadership can help efficiency within a learning organisation.
Developing an integrated approach to strategic management in organisations.
Creating and sustaining competitive advantage in engineering organisations.
Developing frameworks for sustainable assessments taking into account eco-engineering measures.
The role of engineers in managing development in emerging countries.

Marine Subsea Engineering, Specialization Project

The topic for the project thesis and the chosen combination of subjects in TMR4585, should be consistent. The supervisor of the project thesis should approve the choice of subjects.

The students have to attend a mandatory introduction seminar to the project thesis beyond the established ECTS. The seminar has to be attended as part of the project thesis course. The seminar consists of lectures and assignments which has to be passed for the students to be allowed to hand in the project thesis. The content of the seminar prepares the student for writing their thesis; such as searching for literature, writing reports, scientific publishing and ethics.

Prerequisites

Admission to a programme of study is required:

Marine Technology (MIMART)
Marine Technology (MSN1)
Marine Technology (MTMART)

Recommended previous knowledge

All compulsory courses in the 3rd and 4th year for the main profile.

Required previous knowledge

The course is only accessible for students admitted to the Master programme in Marine Technology.

Learning outcomes

The student shall develop the ability to get familiar with a specific topic within the chosen area of specialization by use of scientific methods. This includes collecting information and gaining insight by studies of relevant literature and other sources of information and combining this information with his own knowledge. Moreover, the student shall be trained in carrying out an extensive project, by developing a project plan with milestones, reporting intermediate results of his work and completing a project report according to recognised standards.

After having completed the introduction seminar to the project thesis the student shall:

Know and understand the importance of ethical research practices.
Be able to take an active role in their own skills development and learning.
Understand the importance of conducting thorough literature reviews.
Be able to perform detailed scientific literature reviews, including searching in literature databases.
Be acquainted with the desirable quality and content of independent research.
Be able to conduct accurate report writing, and thesis preparation.
Know how to increase the effectiveness of their individual research.
Know how to write concise scientific reports, including structuring, referencing, and avoiding plagiarism.
Manage their project schedule and resources, managing expectations and change.
Be able to define a project description and project plan.

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List of Research Topics in Environmental Engineering

Environmental Engineering is a discipline of engineering that deals with the prevention & control of water, air, and soil pollution. In this article list of Research Topics in Environmental Engineering is listed.

The active research areas in the field of environmental engineering are water and wastewater treatment and disposal; environmental chemistry; environmental microbiology; environmental impact assessment; membrane technology; advanced oxidation process; catalysis; air pollution, prevention, and control; solid and hazardous waste management.

Water and wastewater treatment and reuse

Performance evaluation of improved biological treatment technologies for the treatment of sewage followed by UV disinfection for reuse
A study of co-treatment of fecal sludge and sewage in the sewage treatment plant
Performance evaluation of treatment and reuse of greywater by wetland system
A comprehensive study on polluted river stretches on the Ganga River in India
Development of treatment process for water treatment using ceramic membrane filtration to produce potable water
Performance evaluation of microbial fuel cells for the treatment of industrial wastewaters
Disinfection of secondary treated sewage using a novel UVC-LED reactor system for reuse
A study on emerging contaminants in Indian waters and their treatment technologies
Performance evaluation of improved anaerobic baffle filter reactor in treating domestic wastewater
A study on the impact of perfluorinated compounds on human health

Advanced oxidation technologies

A study on secondary treated domestic wastewater using an advanced oxidation process
Development of novel photocatalytic reactors for treatment of industrial wastewaters
Treatment of textile wastewater by using zero-valent iron nanoparticles
Development of photocatalytic reactors for hydrogen production by water splitting technique
Treatment of industrial wastewater by wet air oxidation processes
Development of a novel photocatalytic reactor system for degradation of persistent organic pollutants from pharmaceutical wastewater
Decolourization of textile dye wastewaters using ozone-based technologies
Degradation of industrial wastewaters using TiO 2 -based nanocomposites
Development of photocatalytic membrane reactor for the treatment of industrial and domestic wastewaters
Photocatalytic hydrogen production from sulfide wastewater using nanocomposites
Development of photocatalytic reactor for removal of endocrine-disrupting compounds from water and wastewaters
Photocatalytic degradation of SO x and NO x using nanocomposites

Air pollution and control

A study on endocrine-disrupting compounds in the atmosphere – effects on human and wildlife
A study on vehicular movements in India – Effect of CO on human and wildlife
A study on vertical profiling of air pollution in urban and metro cities
Performance evaluation of alternative fuel technology to reduce greenhouse gas emissions in industries
Design, development, and performance evaluation of slotted slack-petal pot chimney over a conventional chimney
Effect of fine particulate matter and NOx on human and wildlife
A study on the reuse of air conditioner condensate
A study on sulfur reduction in coal-based thermal power plants

Soil pollution and remediation

Degradation of persistent organic pollutants from contaminated soil using photocatalytic processes
Treatment of textile wastewater contaminated soil by using iron nanoparticles
Removal of petroleum hydrocarbon compounds from contaminated soil using natural-based products
Leachability and physical stability of solidified and stabilized sludge from textile effluent
Assessment of heavy metal toxicity in soil and their remedial measures
Alkali pre-treatment for bio mechanization of solid waste

Solid and hazardous waste treatment and disposal

Converting inert wastes into bio-amendments / bio-fertilizers – pilot projects at legacy waste dumping sites in India
Hydrothermal carbonization of crude oil sludge for recovery of solid fuel
Encapsulation and solidification of salt-based evaporation residues
Use of textile and tannery sludge as fine aggregates in concrete mix
Development of novel methods for the treatment of E-waste
A study on the treatment of nuclear waste

CO 2 sequestration, separation, and utilization

CO 2 gas separation from fuel and flue gas using composite membranes
Recovery of useful products from industrial flue gases
Development of novel composite membranes for separation of CO 2 from flue gas
Carbonation of coal fly ash for CO 2 sequestration
Conversion of CO 2 to useful products by novel methods
Performance evaluation of biomedical waste facility in India

Bioremediation

Occurrence, fate, and risk-based remediation of antibiotics in agricultural environments
Bio-degradation of persistent organic compounds using bacterial species
Bioremediation of oily sludge
Biochar and compost-based bioremediation of crude oil contaminated soil

Top 60 Scopus-indexed Journals in Environmental Engineering

Research Topics in Environmental Engineering

environmental engineering thesis
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Greetings and Regards My name is Reza Fadaei, I am 49 years old. I have been in Iran’s Environmental Organization for 22 years as an expert in the natural environment departments, laboratory offices, water and soil pollution control office, and waste management. I am working as the manager of the provincial general administration. PhD student in environmental sciences and engineering, Islamic Azad University, Tabriz branch, Iran. I participated in a waste management training workshop with professors from Japanese universities and the Japanese Ministry of Energy and Environment. I am very interested in the rich and ancient culture of Japan. I would very much like to continue my doctoral studies in Japan and the subject of my doctoral dissertation. to do in your country. I hope you help.

I wanted to choose the topic of my PhD thesis in the field of environmental engineering with topics related to water or wastewater. My bachelor’s and master’s degrees were applied chemistry and the subject of my master’s thesis (the effect of magnetic nanoparticles on the removal of chromium from leather industry wastewater). Please guide me and if you have a chance, help me as a second guide or consultant. I would like to have a free study opportunity in your university if possible. I am also Azeri and I expect you to help me to present a high level thesis thanks again

I want to embark on a thesis on environmental soil remediation and on ground water

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The Best Mechanical Engineering Dissertation Topics and Titles

Published by Carmen Troy at January 5th, 2023 , Revised On May 2, 2024

Introduction

Engineering is a vast subject that encompasses different branches for a student to choose from. Mechanical engineering is one of these branches , and one thing that trips students in the practical field is dissertation . Writing a mechanical engineering dissertation from scratch is a difficult task due to the complexities involved, but the job is still not impossible.

To write an excellent dissertation, you first need a stellar research topic. Are you looking to select the best mechanical engineering dissertation topic for your dissertation? To help you get started with brainstorming for mechanical engineering dissertation topics, we have developed a list of the latest topics that can be used for writing your mechanical engineering dissertation.

These topics have been developed by PhD-qualified writers on our team, so you can trust them to use these topics for drafting your own dissertation.

You may also want to start your dissertation by requesting a brief research proposal from our writers on any of these topics, which includes an introduction to the topic, research question, aim and objectives, literature review, and the proposed methodology of research to be conducted. Let us know if you need any help in getting started.

Check our dissertation example to get an idea of how to structure your dissertation .

Review the step-by-step guide on how to write your own dissertation here.

Latest Mechanical Engineering Research Topics

Topic 1: an investigation into the applications of iot in autonomous and connected vehicles.

Research Aim: The research aims to investigate the applications of IoT in autonomous and connected vehicles

Objectives:

To analyse the applications of IoT in mechanical engineering
To evaluate the communication technologies in autonomous and connected vehicles.
To investigate how IoT facilitates the interaction of smart devices in autonomous and connected vehicles

Topic 2: Evaluation of the impact of combustion of alternative liquid fuels on the internal combustion engines of automobiles

Research Aim: The research aims to evaluate the impact of the combustion of alternative liquid fuels on the internal combustion engines of automobiles

To analyse the types of alternative liquid fuels for vehicles and their implications
To investigate the benchmarking of alternative liquid fuels based on the principles of combustion performance.
To evaluate the impact of combustion of alternative liquid fuels on the internal combustion engines of automobiles with conventional engines

Topic 3: An evaluation of the design and control effectiveness of production engineering on rapid prototyping and intelligent manufacturing

Research Aim: The research aims to evaluate the design and control effectiveness of production engineering on rapid prototyping and intelligent manufacturing

To analyse the principles of design and control effectiveness of production engineering.
To determine the principles of rapid prototyping and intelligent manufacturing for ensuring quality and performance effectiveness
To evaluate the impact of production engineering on the design and control effectiveness of rapid prototyping and intelligent manufacturing.

Topic 4: Investigating the impact of industrial quality control on the quality, reliability and maintenance in industrial manufacturing

Research Aim: The research aims to investigate the impact of industrial quality control on the quality, reliability and maintenance in industrial manufacturing

To analyse the concept and international standards associated with industrial quality control.
To determine the strategies for maintaining quality, reliability and maintenance in manufacturing.
To investigate the impact of industrial quality control on the quality, reliability and maintenance in industrial manufacturing.

Topic 5: Analysis of the impact of AI on intelligent control and precision of mechanical manufacturing

Research Aim: The research aims to analyse the impact of AI on intelligent control and precision of mechanical manufacturing

To analyse the applications of AI in mechanical manufacturing
To evaluate the methods of intelligent control and precision of the manufacturing
To investigate the impact of AI on intelligent control and precision of mechanical manufacturing for ensuring quality and reliability

COVID-19 Mechanical Engineering Research Topics

Investigate the impacts of coronavirus on mechanical engineering and mechanical engineers..

Research Aim: This research will focus on identifying the impacts of Coronavirus on mechanical engineering and mechanical engineers, along with its possible solutions.

Research to study the contribution of mechanical engineers to combat a COVID-19 pandemic

Research Aim: This study will identify the contributions of mechanical engineers to combat the COVID-19 pandemic highlighting the challenges faced by them and their outcomes. How far did their contributions help combat the Coronavirus pandemic?

Research to know about the transformation of industries after the pandemic.

Research Aim: The study aims to investigate the transformation of industries after the pandemic. The study will answer questions such as, how manufacturing industries will transform after COVID-19. Discuss the advantages and disadvantages.

Damage caused by Coronavirus to supply chain of manufacturing industries

Research Aim: The focus of the study will be on identifying the damage caused to the supply chain of manufacturing industries due to the COVID-19 pandemic. What measures are taken to recover the loss and to ensure the continuity of business?

Research to identify the contribution of mechanical engineers in running the business through remote working.

Research Aim: This study will identify whether remote working is an effective way to recover the loss caused by the COVID-19 pandemic? What are its advantages and disadvantages? What steps should be taken to overcome the challenges faced by remote workers?

Dissertation Topics in Mechanical Engineering Design and Systems Optimization

Topic 1: mini powdered metal design and fabrication for mini development of waste aluminium cannes and fabrication.

Research Aim: The research will focus on producing and manufacturing copula furnaces and aluminium atomisers with available materials to manufacture aluminium powder metal.0.4 kg of refined coke will be chosen to measure content and energy balance and calculate the design values used to produce the drawings.

Topic 2: Interaction between the Fluid, Acoustic, and vibrations

Research Aim: This research aims to focus on the interaction between the Fluid, Acoustic, and vibrations

Topic 3: Combustion and Energy Systems.

Research Aim: This research aims to identify the relationship between Combustion and Energy Systems

Topic 4: Study on the Design and Manufacturing

Research Aim: This research will focus on the importance of design and manufacturing

Topic 5: Revolution in the Design Engineering

Research Aim: This research aims to highlight the advances in design engineering

Topic 6: Optimising HVAC Systems for Energy Efficiency

Research Aim: The study investigates different design configurations and operational strategies to optimise heating, ventilation, and air conditioning (HVAC) systems for energy efficiency while maintaining indoor comfort levels.

Topic 7: Impact of Building Design Parameters on Indoor Thermal Comfort

Research Aim: The research explores the impact of building design parameters, such as insulation, glazing, shading, and ventilation, on indoor thermal comfort and energy consumption.

Topic 8: An Empirical Analysis of Enhanced Security and Privacy Measures for Call Taxi Metres

Research Aim: The research explores the methods to enhance the security and privacy of call taxi meter systems. It explores encryption techniques for sensitive data transmission and authentication protocols for driver and passenger verification.

Topic 9: An Investigation of Optimising Manifold Design

Research Aim: The study investigates various designs for manifolds used in HBr/HCl charging systems. It focuses on factors such as material compatibility, pressure control, flow rates, and safety protocols.

Topic 10: Implementation of a Plant Lean Transformation

Research Aim: The research examines the implementation process and outcomes of a Lean Transformation in a plant environment. It focuses on identifying the key factors contributing to successful adoption and sustained improvement in operational efficiency.

Topic 11: Exploring Finite Element Analysis (FEA) of Torque Limiters

Research Aim: Exploring the use of FEA techniques to simulate the behaviour of torque limiters under various loading conditions. The research provides insights into stress distribution and deformation.

Dissertation Topics in Mechanical Engineering Innovations and Materials Analysis

Topic 1: an overview of the different research trends in the field of mechanical engineering..

Research Aim: This research aims to analyse the main topics of mechanical engineering explored by other researchers in the last decade and the research methods. The data used is accumulated from 2009 to 2019. The data used for this research is used from the “Applied Mechanics Review” magazine.

Topic 2: The Engineering Applications of Mechanical Metamaterials.

Research Aim: This research aims to analyse the different properties of various mechanical metamaterials and how they can be used in mechanical engineering. This research will also discuss the potential uses of these materials in other industries and future developments in this field.

Topic 3: The Mechanical Behaviour of Materials.

Research Aim: This research will look into the properties of selected materials for the formation of a product. The study will take the results of tests that have already been carried out on the materials. The materials will be categorised into two classes from the already prepared results, namely destructive and non-destructive. The further uses of the non-destructive materials will be discussed briefly.

Topic 4: Evaluating and Assessment of the Flammable and Mechanical Properties of Magnesium Oxide as a Material for SLS Process.

Research Aim: The research will evaluate the different properties of magnesium oxide (MgO) and its potential use as a raw material for the SLS (Selective Laser Sintering) process. The flammability and other mechanical properties will be analysed.

Topic 5: Analysing the Mechanical Characteristics of 3-D Printed Composites.

Research Aim: This research will study the various materials used in 3-D printing and their composition. This research will discuss the properties of different printing materials and compare the harms and benefits of using each material.

Topic 6: Evaluation of a Master Cylinder and Its Use.

Research Aim: This research will take an in-depth analysis of a master cylinder. The material used to create the cylinder, along with its properties, will be discussed. The use of the master cylinder in mechanical engineering will also be explained.

Topic 7: Manufacturing Pearlitic Rail Steel After Re-Modelling Its Mechanical Properties.

Research Aim: This research will look into the use of modified Pearlitic rail steel in railway transportation. Modifications of tensile strength, the supported weight, and impact toughness will be analysed. Results of previously applied tests will be used.

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ResearchProspect writers can send several custom topic ideas to your email address. Once you have chosen a topic that suits your needs and interests, you can order for our dissertation outline service , which will include a brief introduction to the topic, research questions , literature review , methodology , expected results , and conclusion . The dissertation outline will enable you to review the quality of our work before placing the order for our full dissertation writing service !

Electro-Mechanical Dissertation Topics

Topic 8: studying the electro-mechanical properties of multi-functional glass fibre/epoxy reinforced composites..

Research Aim: This research will study the properties of epoxy-reinforced glass fibres and their use in modern times. Features such as tensile strength and tensile resistance will be analysed using Topic 13: Studying the Mechanical and Durability different current strengths. Results from previous tests will be used to explain their properties.

Topic 9: Comparing The Elastic Modules of Different Materials at Different Strain Rates and Temperatures.

Research Aim: This research will compare and contrast a selected group of materials and look into their elastic modules. The modules used are the results taken from previously carried out experiments. This will explain why a particular material is used for a specific purpose.

Topic 10: Analysing The Change in The Porosity and Mechanical Properties of Concrete When Mixed With Coconut Sawdust.

Research Aim: This research will analyse the properties of concrete that are altered when mixed with coconut sawdust. Porosity and other mechanical properties will be evaluated using the results of previous experiments. The use of this type of concrete in the construction industry will also be discussed.

Topic 11: Evaluation of The Thermal Resistance of Select Materials in Mechanical Contact at Sub-Ambient Temperatures.

Research Aim: In this research, a close evaluation of the difference in thermal resistance of certain materials when they come in contact with a surface at sub-ambient temperature. The properties of the materials at the temperature will be noted. Results from previously carried out experiments will be used. The use of these materials will be discussed and explained, as well.

Topic 12: Analysing The Mechanical Properties of a Composite Sandwich by Using The Bending Test.

Research Aim: In this research, we will analyse the mechanical properties of the components of a composite sandwich through the use of the bending test. The results of the tests previously carried out will be used. The research will take an in-depth evaluation of the mechanical properties of the sandwich and explain the means that it is used in modern industries.

Mechanical Properties Dissertation Topics

Topic 13: studying the mechanical and durability properties of magnesium silicate hydrate binders in concrete..

Research Aim: In this research, we will evaluate the difference in durability and mechanical properties between regular concrete binders and magnesium silicate hydrate binders. The difference between the properties of both binders will indicate which binder is better for concrete. Features such as tensile strength and weight it can support are compared.

Topic 14: The Use of Submersible Pumping Systems.

Research Aim: This research will aim to analyse the use of a submersible pumping system in machine systems. The materials used to make the system, as well as the mechanical properties it possesses, will be discussed.

Topic 15: The Function of a Breather Device for Internal Combustion Engines.

Research Aim: In this research, the primary function of a breather device for an internal combustion engine is discussed. The placement of this device in the system, along with its importance, is explained. The effects on the internal combustion engine if the breather device is removed will also be observed.

Topic 16: To Study The Compression and Tension Behaviour of Hollow Polyester Monofilaments.

Research Aim: This research will focus on the study of selected mechanical properties of hollow polyester monofilaments. In this case, the compression and tension behaviour of the filaments is studied. These properties are considered in order to explore the future use of these filaments in the textile industry and other related industries.

Topic 17: Evaluating the Mechanical Properties of Carbon-Nanotube-Reinforced Cementous Materials.

Research Aim: This research will focus on selecting the proper carbon nanotube type, which will be able to improve the mechanical properties of cementitious materials. Changes in the length, diameter, and weight-based concentration of the nanotubes will be noted when analysing the difference in the mechanical properties. One character of the nanotubes will be of optimal value while the other two will be altered. Results of previous experiments will be used.

Topic 18: To Evaluate the Process of Parallel Compression in LNG Plants Using a Positive Displacement Compressor

Research Aim: This research aims to evaluate a system and method in which the capacity and efficiency of the process of liquefaction of natural gas can avoid bottlenecking in its refrigerant compressing system. The Advantages of the parallel compression system in the oil and gas industry will be discussed.

Topic 19: Applying Particulate Palm Kernel Shell Reinforced Epoxy Composites for Automobiles.

Research Aim: In this research, the differences made in applying palm kernel shell particulate to reinforced epoxy composites for the manufacturing of automobile parts will be examined. Properties such as impact toughness, wear resistance, flexural, tensile, and water resistance will be analysed carefully. The results of the previous tests will be used. The potential use of this material will also be discussed.

Topic 20: Changes Observed in The Mechanical Properties of Kevlar KM2-600 Due to Abrasions.

Research Aim: This research will focus on observing the changes in the mechanical properties of Kevlar KM2-600 in comparison to two different types of S glass tows (AGY S2 and Owens Corning Shield Strand S). Surface damage, along with fibre breakage, will be noted in all three fibres. The effects of the abrasions on all three fibres will be emphasised. The use of Kevlar KM2 and the other S glass tows will also be discussed, along with other potential applications.

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Industrial Application of Mechanical Engineering Dissertation Topics

Topic 1: the function of a fuel injector device..

Research Aim: This research focuses on the function of a fuel injector device and why this component is necessary for the system of an internal combustion engine. The importance of this device will be explained. The adverse effects on the entire system if the equipment is either faulty or completely removed will also be discussed.

Topic 2: To Solve Optimization Problems in a Mechanical Design by The Principles of Uncertainty.

Research Aim: This research will aim to formulate an optimization in a mechanical design under the influence of uncertainty. This will create an efficient tool that is based on the conditions of each optimisation under the risk. This will save time and allow the designer to obtain new information in regard to the stability of the performance of his design under uncertainties.

Topic 3: Analysing The Applications of Recycled Polycarbonate Particle Materials and Their Mechanical Properties.

Research Aim: This research will evaluate the mechanical properties of different polycarbonate materials and their potential to be recycled. The materials that can be recycled are then further examined for potential use as 3-dimensional printing materials. The temperature of the printer’s nozzle, along with the nozzle velocity matrix from previous experiments, is used to evaluate the tensile strength of the printed material. Other potential uses of these materials are also discussed.

Topic 4: The Process of Locating a Lightning Strike on a Wind Turbine.

Research Aim: This research will provide a detailed explanation of the process of detecting a lightning strike on a wind turbine. The measurement of the magnitude of the lightning strike, along with recognising the affected area will be explained. The proper method employed to rectify the damage that occurred by the strike will also be discussed.

Topic 5: Importance of a Heat Recovery Component in an Internal Combustion Engine for an Exhaust Gas System.

Research Aim: The research will take an in-depth evaluation of the different mechanics of a heat recovery component in an exhaust gas system. The functions of the different parts of the heat recovery component will be explained along with the importance of the entire element itself. The adverse effect of a faulty defective heat recovery component will also be explained.

“Feel free to contact us if you require custom dissertation topics and titles for your dissertation. ResearchProspect Ltd is a UK registered academic writing company which can provide you with highly qualified writers to assist you in the process of the formation of your dissertation. For more information about the type of services we offer.“

Related: Civil Engineering Dissertation

Important Notes:

As a student of mechanical engineering looking to get good grades, it is essential to develop new ideas and experiment on existing mechanical engineering theories – i.e., to add value and interest to the topic of your research.

The field of mechanical engineering is vast and interrelated to so many other academic disciplines like civil engineering , construction , law , and even healthcare . That is why it is imperative to create a mechanical engineering dissertation topic that is particular, sound and actually solves a practical problem that may be rampant in the field.

We can’t stress how important it is to develop a logical research topic; it is the basis of your entire research. There are several significant downfalls to getting your topic wrong: your supervisor may not be interested in working on it, the topic has no academic creditability, the research may not make logical sense, and there is a possibility that the study is not viable.

This impacts your time and efforts in writing your dissertation as you may end up in a cycle of rejection at the very initial stage of the dissertation. That is why we recommend reviewing existing research to develop a topic, taking advice from your supervisor, and even asking for help in this particular stage of your dissertation.

Keeping our advice in mind while developing a research topic will allow you to pick one of the best mechanical engineering dissertation topics that not only fulfill your requirement of writing a research paper but also add to the body of knowledge.

Therefore, it is recommended that when finalizing your dissertation topic, you read recently published literature in order to identify gaps in the research that you may help fill.

Remember- dissertation topics need to be unique, solve an identified problem, be logical, and can also be practically implemented. Take a look at some of our sample mechanical engineering dissertation topics to get an idea for your own dissertation.

How to Structure Your Mechanical Engineering Dissertation

A well-structured dissertation can help students to achieve a high overall academic grade.

A Title Page
Acknowledgments
Declaration
Abstract: A summary of the research completed
Table of Contents
Introduction : This chapter includes the project rationale, research background, key research aims and objectives, and the research problems to be addressed. An outline of the structure of a dissertation can also be added to this chapter.
Literature Review : This chapter presents relevant theories and frameworks by analysing published and unpublished literature available on the chosen research topic in light of research questions to be addressed. The purpose is to highlight and discuss the relative weaknesses and strengths of the selected research area whilst identifying any research gaps. Break down of the topic and key terms can have a positive impact on your dissertation and your tutor.
Methodology: The data collection and analysis methods and techniques employed by the researcher are presented in the Methodology chapter, which usually includes research design, research philosophy, research limitations, code of conduct, ethical consideration, data collection methods, and data analysis strategy .
Findings and Analysis: The findings of the research are analysed in detail under the Findings and Analysis chapter. All key findings/results are outlined in this chapter without interpreting the data or drawing any conclusions. It can be useful to include graphs , charts, and tables in this chapter to identify meaningful trends and relationships.
Discussion and Conclusion: The researcher presents his interpretation of results in this chapter and states whether the research hypothesis has been verified or not. An essential aspect of this section of the paper is to draw a linkage between the results and evidence from the literature. Recommendations with regard to the implications of the findings and directions for the future may also be provided. Finally, a summary of the overall research, along with final judgments, opinions, and comments, must be included in the form of suggestions for improvement.
References: This should be completed in accordance with your University’s requirements
Bibliography
Appendices: Any additional information, diagrams, graphs that were used to complete the dissertation but not part of the dissertation should be included in the Appendices chapter. Essentially, the purpose is to expand the information/data.

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Frequently Asked Questions

How to find dissertation topics about mechanical engineering.

To discover mechanical engineering dissertation topics:

Research recent advancements.
Explore industry challenges.
Consider sustainability or automation.
Review academic journals.
Consult with professors.
Opt for a niche aligning with your passion and career aims.