Tag Archives: maritime engineering

In the dark!

As part of our ongoing development of the Boldrewood towing tank we’ve spent a week carrying out the International Towing Tank Conference‘s recommended Particle Image Velocimetry (PIV) benchmark case. PIV technique allows the velocity field to be measured across a two -dimensional plane created by a laser sheet. The tank is seeded with small reflective particles and two photos are taken a short time interval apart. Image processing allows the velocity field within a high resolution underwater camera’s image frame to be measured.

Flat plate at angle of attack to flow – matt black finish reduces unwanted reflections from laser sheet

In these tests a rig was built to allow a flat plate to be towed at an angle of attack creating a strong tip vortex. The PIV measurements allow the location and strength of the vortex to be obtained experimentally. The tank test has to be run in the dark with the use of special protective goggles when observing the tests.

Just the carriage lights on prior to a test

The tests for the calibration are carried out at low speed of 0.4 m/s with even the carriage light switch off and just the faint glow of the data acquisition computer screens

Video of a test at 0.4 m/s showing team on the carriage and then the laser sheet pulses and can see the seeded particles

Thanks to the team lead by Magnus with support from Melike, James and David. Funding the LaVision PIV system came through the EPSRC funded National Wind Tunnel Facility

Zero Carbon Coastal HIGHway

A hydrogen fuelled fast container ship proposed in Ivo Veldhuis’ Thesis in 2007

Will future ships use clean green Hydrogen as their power source? Maritime Research and Innovation UK (MarRIUK) has proposed a major modal transport shift as part of the UK Government’s Comprehensive Spending Review. The vision is to have within 10 years a fleet of UK built coastal zero carbon ships transporting goods and cargoes around the UK’s large network of ports. Shifting transport from already congested road and rail onto water which is already the lowest energy method of goods transport.

The proposal was developed by a core team of MarRIUK working group members from BMT, Shell Shipping and ourselves at the University of Southampton. It looks to transform how the UK makes the most of its coastal highways. Examining the transport logistics system as whole will allow many of our smaller ports to be transformed, sustaining their localities, will reduce the growing pressures on our road and rail bottlenecks, will revolutionise the approach to vessel traffic management and greatly ease the development of maritime autonomous systems development. However, front and centre is the need to decarbonise shipping. The development of a flagship fleet of zero carbon ships will allow us to take the bold step needed to replace fossil fuels with an energy source that has pollutant free emissions will blaze a trail to the industry woldwide showing how it can be done.

Research and Innovation will be at the heart of the work bringing together the maritime and other sectors to develop a cost effective transport system. MarRIUk is part of Maritime UK which next week (12th-18th Oct 2020) has a series of events as part of Maritime Week 2020. An opportunity to showcase the many aspects of the maritime sector in the UK which is such a strong part of our economy.

Awarding times for ocean exploration


An Autonomous Surface Vehicle (ASV) towing two Autonomous Underwater Vehicles (AUVs) out to shore form the port of Kalamata, Greece

Dr Blair Thornton, Associate Professor of Marine Autonomy in the FSI group and Director of the Centre of Excellence for In situ and Remote Intelligent Sensing (IRIS) has recently been awarded the 2020 Waterway Technology Award in Japan as part of Team KUROSHIO, Japan’s entry to the $7M Shell Ocean Discovery X-Prize.

For more information visit

http://www.jamstec.go.jp/team-kuroshio/en/team/

https://ieeeoes.org/oes-beacon/september-2019-oes-beacon/team-kuroshios-story-runner-up-of-the-shell-ocean-discovery-xprize/ `��

Team KUROSHIO recently placed 2nd in the 2019 Shell Ocean Discovery X-Prize, receiving a $1.1M runner up cheque at the award ceremony held in June 2019 in Monaco. 

The Shell Ocean Discovery X-Prize was an international robotics competition that saw 27 teams from around the world to compete for a total prize of $7M. The competition was held in Kalamata, Greece in December 2018, and required teams to survey a 500km2 region of seafloor located 15 nautical miles from shore at a depth of 4000m in the Mediterranean sea. At 4000m depth, maps generated from ships equipped with state of the art acoustic mapping devices would only achieve a resolution of ~40m, but teams here were required to generate maps with better than 5m resolution, meaning that they would need to deploy submersible robots the achieve this feat. Teams had 48hours to complete this ambitious challenge, where all operations from the moment the robotic platforms entered the water at the port of Kalamata until their eventual return to the port had to be carried with not human intervention. 

Team KUROSHIO’s entry consisted of two, 4000m depth rated Autonomous Underwater Vehicles (AUVs) and an Autonomous Surface Vehicle (ASV). The team was able to successfully transit from the port to the survey site and deploy their systems to survey over 100km2 of the seafloor in the available time. Once the systems found their way back to shore, the team had a further 48 hours to process the data collected by the submersibles, to determine their location in GPS denied underwater environment, and generate 5m resolution maps of the seafloor in the surveyed region. Team KUROSHIO placed second to GEBCO Alumni, an international team consisting of 30+ members. 

In addition to receiving the $1.1M runner up prize for their achievement in the competition, the members of Team KUROSHIO were invited by Prime Minister Shinzo Abe to be congratulated by him directly, and receive the 2020 Waterway Technology Award for this outstanding achievement. 

If you want to try your hand at Maritime Robotics, you can find current opportunities to do a PhD in the subject here

https://hydro.soton.ac.uk/wp-content/uploads/sites/297/2020/01/lanchaster-1.pdf

and here

https://www.southampton.ac.uk/iris/

Or if you just want to see some videos of related activities, visit these links 

IRIS centre – https://www.youtube.com/watch?v=Pj0KvSwsnCE&feature=emb_logo

Adaptive Robotics – https://www.youtube.com/watch?v=uQVnabh45u4

If you are an undergraduate and want to get involved, you can take SESS6072 Maritime Robotics of contact any member of staff about projects and internships in Maritime Robotics.

IMO World Maritime Day – Empowering Women in the Maritime Community

In honour of this year’s theme for World Maritime Day 2019 on 26th September, we are delighted to announce our networking event Empowering Women in the Maritime Community. We will be holding a Q&A/networking session for women in the maritime sector, who will be sharing what they do, how they got there, and any advice they might have. The session will be relatively informal, with lots of opportunities to ask questions and garner advice. More details to follow next month:

RAENg Visiting Professor Dr Penny Jeffcoate

The evnt is being coordinated by Dr Penny Jeffcoate our RAEng Visiting Professor – Marine Energy Technologies and Associated Infrastructure.
Penny joined us in 2018 as part of the Royal Academy of Engineering Visiting Professor scheme, alongside her current role at tidal energy developer Sustainable Marine Energy as their R&D Manager. This industry-into-academia initiative aims to utilise the experience of Visiting Professors to enhance student learning as well as the employability and skills of UK engineering graduates, whilst strengthening external partnerships with industry. Under the objectives of this scheme, industry practitioners participate in course development, face-to-face teaching and mentoring of engineering undergraduates at the host university for three years.
Penny worked with Maritime Engineering and Ship Science programmes in 2018-2019 to help develop the Renewable Energy (SESS6067) and Group Design Projects courses for final year students, to give them practice in industry methods, particularly in reporting and critical reasoning. She will be working with the department this year to expand this interaction and give students insight into designing to client specification and management practices. This develop will continue until the end of her placement in 2021 and will hopefully be used for many years of student intake to come. The RAEng scheme also promotes the encouragement of traditionally minority entities in engineering, such as women and BAME. Penny will therefore be organising an event in support of this year’s IMO World Maritime Day: Empowering Women in the Maritime Community.
 

It wasn't this whale's day – high quality imaging using autonomous underwater vehicles

 

A 3D image reconstruction generated using BioCam showing an 8 metre long whale carcass that is sandwiched between two large coral mounds.

A team from the University of Southampton has successfully obtained the largest continuous visual map of the seafloor ever obtained in UK waters during a currently ongoing expedition to the Darwin Mounds. The expedition led by co-chief scientists Blair Thornton of the University of Southampton and Veerle Huvenne of the National Oceanography Centre (NOC), deployed underwater robots to map cold-water-coral mounds at a depth of 1000m in a Marine Protected Area (MPA).
 
BioCam fitted on the underside of the underwater robot Autosub 6000 as it is recovered from the ocean after a successful mission

The autonomous robot, Autosub6000 of the NOC, was equipped with BioCam, a newly developed deep-sea 3D imaging system developed by the University of Southampton under the Natural Environment Research Council’s OCEANIDS Marine Sensor Capital program. During its first 24-hour deployment, BioCam was able to visually map the seafloor at 40 times the rate of conventional imaging systems, covering approximately 50 times the area of Wembley stadium’s football pitch. The example below shows one of the 650,000 images taken during the dive, showing diverse species of deep-sea life sheltering amongst the corals. BioCam also discovered a whale carcass more than 8 metres in length on the seafloor just a few hundred metres from a coral mound.
An image of the seafloor taken at 1000m depth showing diverse species of animals living amongst coral

Blair Thornton, Associate Professor of Marine Autonomy at the University of Southampton says, “The large area and high level of detail in the visual maps BioCam collects can help scientists recognise patterns and features on the seafloor that would otherwise go unnoticed, allowing ecologists to compare sites and document changes over time at much larger scales than previously possible.”
He continues, “It is fantastic that the system delivered results from the word go. This was only possible because of a huge team effort, with staff and students at the University of Southampton, local industries, and the MARS team at the NOC working hard together to develop BioCam and integrate it onto the Autosub 6000. Huge credit also goes to the ship’s crew for safely deploying and recovering the system in less than ideal sea states.”
Veerle Huvenne, Team Leader for Seafloor and Habitat Mapping at the National Oceanography Centre explains “typically, scientists map out large scale spatial patterns in ecology by inferring relationships between sonar maps and short transects of visual imagery (photographs or video). BioCam’s ability to continuously image areas in 3D over tens to hundreds of hectares gives us the ability to directly observe patterns over entire habitats. This is a powerful new tool for scientists to better understand these fragile environments”.
Hayley Hinchen, Marine Habitats Monitoring Manager at the Joint Nature Conservation Committee says, “The data BioCam collects could support marine conservation by providing vital evidence at a large scale about how effective measures like marine protected areas are at conserving our environment, especially in fragile, complex habitats that can’t be physically sampled. The evidence gathered could help us understand how damaged areas of the seafloor recover with time in protected sites like the Darwin Mounds”
More information about BioCam can be found at the following website, https://ocean.soton.ac.uk/biocam
Regular updates about the current expedition are posted on www.projects.noc.ac.uk/class/blog
Link to BBC article – https://www.bbc.co.uk/news/uk-scotland-highlands-islands-49753440

Inspiring future maritime engineers

The “Future Marine Engineering” is an exciting residential course, developed to inspire Year 9 students aged 13 to 14 about marine engineering and career opportunities in the maritime sector. The course was organised by the Smallpeice Trust with technical content delivered our own inspiring team of post-doctoral researchers, Dr Jeanne Blanchard, Mr Przemyslaw Grudniewski and Dr Yikun Wang, in the Fluid Structure Interactions group at the University of Southampton.

Wave Energy Trials in the pool

This year, 95 students took part in the 3.5 days course with the aim to design and build a wave energy-harvesting device and a remote control boat to simulate a maintenance vessel for their renewable energy farms. The objective was to provide a prototype design to generate as much power from the wave energy-harvesting device as possible and to develop a maintenance vessel that could quickly and reliably service the energy farms in an emergency. The students were given a limited quantity of materials to design, build and test their products with their unlimited imaginations. In addition, they were to perform a “Dragon’s Den” style pitch and to defend their designs against rigorous technical ‘interrogations’ from some marine experts.
Design underway

To help the students develop their understanding of the marine industry they were given different talks by academics and an industrial expert from Shell Shipping and Maritime. This culminated in a celebration of their achievements at a formal dinner and an opportunity for the students to present their projects to academics and Seafarers UK, who kindly sponsored the course. On the last day, the students have tested their devices and model boats in the swimming pool with great success, before attending the awards ceremony with prizes given by Southampton Marine and Maritime Institute and the Royal Institution of Naval Architects with the chance for the students to join the Institution as junior members.

Arkwright Scholars explore Maritime Engineering and Ship Science @Southampton

Ship Science has regularly hosted visits by Arkwright engineering scholars. These students apply for these prestigiuous shcolarships at 16 and are intended to help prepare them to be the next generation of leaders in the engineering profession. We were delighted to see tihs year that one of the visitors wrote some kind words about their visit.
http://www.arkwright.org.uk/main/latest-news/post/50-scholars-explore-maritime-engineering
 

2019 Scjholars inspecting our 138 m long wave and towing tank

Our courses at Southampton in Maritime Engineeirng and ship Science are designed to prepare students to play a leading role in the engineeirng profession associated with the maritime sector.  Our degree programmes, both MEng and MSc,  uniquely offer direct routes to professional membership and Chartered Engineeirng status with three such professional associations;
Institution of Mechanical Engineers
Royal Institution of Naval Architects
Institute of Marine Engineers, Scientists and Technologists
 

Maritime UK Solent Launched

At the inaugral Maritime UK [follow the link to see a great video]awards held in Southampton on the 19th Sept, attended by the Minister for Shipping Nusrat Ghani (@Nus_Ghani) the launch of the Solent regional hub was formally announced.

Key facts…

As a regional hub the compact area of the Solent demonstrates the importance of the maritime sector both to the region and to the UK as a whole.
Building 176 on Boldrewood Innovation campus – our home since 2014

Its great to see the Solent being promoted to a wider audience as the excellent place it always has been to live and work.   Our Southampton Marine and Maritime Institute has been at the heart of  these efforts since it was formally launched in 2012 with its first director Prof Ajit Shenoi from Ship Science.  The co-location with Maritime Engineering on our Boldrewood Innovation Campus of Lloyd’s Register Global Technology Centre in 2014 along with partnerships our many other industry partners has been key to its increasing activity

Now led by Prof Damon Teagle SMMI is actively promoting the Maritime 2050 strategy published by the Depatment of Transport earlier this year and which sets to  equip the UK to lead the world in maritime.  Exciting times are ahead with the technology challenges of decarbonising shipping at the forefront as well as embracing the digital revolution especially in the ever inrceasing use of maritime autonomous systems.
Fleur in Action

All of this makes it an excellent time to study Maritime Engineering as part of our Ship Science programmes. Our dedicated admisisons team always welcome enquiries or why not  visit us on the next University open day on Saturday 12th October and see our state-of-the-art faciltities including our 138 m long wave and towing tank
 

Future worlds – shippies lead the way

The University of Southampton’s Future Worlds on campus start up accelerator recently featured inspirational talks by two of Ship Science’s many graduate Entrepeneurs.


Double graduate Dr Angus Webb talked of his experience creating Dynamon a start up providing analysis to help make transport logistics more efficient. For those who are interested in learning about Angus’ journey watch his inspirational talk
Tom Whicher was equally inspiring when describing how he went from studying Ship Science at the University of Southampton to saving the NHS millions of pounds and 3000 years’ worth of missed appointments.
Tom Whicher is an NHS Innovation Fellow and the founder of DrDoctor, a digital health company transforming the way hospitals and patients communicate, by using pragmatic, common-sense technology to tackle the financial strain on the NHS – one hospital at a time. Currently deployed across 22 major hospitals around the UK including Guy’s and St Thomas’ & Great Ormond Street.
Angus and Tom’s talks were part of a regular series of 20MINFOUNDER talks from Future Worlds. The series brings founders of disruptive startups onto campus to share inspiring stories and valuable tips for aspiring university entrepreneurs.
 

Future fuels for shipping

Hydrogen Fuelled High Speed Marine Transport – EngD Thesis Ivo Veldhuis

Looking to the future of how shipping can reduce its emissions of greenhouses gases and local pollutants such as NOx and SOx Professor Stephen Turnock spoke at an industry event recently organised by SC Group and chaired by Steve Austen. Other talks addressed the regulatory challenge of reducing emissions and in delivering diesel engines that are IMO Tier III compliant.

https://proteum.co.uk/videos/
The challenge for today’s ship designers are significant as the future direction of how ships will be powered is not clear.  Work at Southampton has considered how best to apply Nuclear technology, possible methods of using hybrid power storage solutions in bulk carriers, and recently on the methods of energy management for hydrogen fuel cells powered vessels.
Container ship moored at Southampton Port – would cold ironing significantly improve air quality in Southampton

What is clear is that to tackle the problem will allow significant and rapid innovation. will we end in a world where electric motor are the prime units of motive power or will conventional engine technology but with new fuels such as LNG in the short term or Hydrogen in the long term.  While the global emissions is an ever present challenge it is often the local air quality health related issues  especially in port cities that appears to be driving the  need for rapid change.

A recent undergraduate project used AIS data for month to evaluate over a month who much emissions of NOx, SOx and particulates were emitted due to all the ship movements within Southampton water. The AIS data allows the time and location as well as the likely amount of emissions to be estimated.