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Background

Renewable Parts Ltd. (RPL) is one of the leading suppliers of parts for wind turbines in the UK. They are an independent supply chain specialist, providing worldwide delivery of quality parts and consumables direct to site from an extensive collection of centrally held stock.

Challenge

The UK & Ireland market for wind turbines is substantial and growing strongly, with the lifecycle of a wind turbine typically estimated to be 25 years.

Critically, as turbines age, parts consumption rises and customers begin to seek alternatives to long-term service agreements due to shortening planning horizons. This is the point that the need for repair development becomes particularly vital.

Renewable Parts Ltd were looking to develop an innovation programme for the repair of wind turbine parts requiring significant technical expertise from a Scottish university in the areas of market research, technical assessment, design and test before production-ready solutions could be delivered.  Following on from this, they were also interested in setting up a Centre of Excellence hub in the field of wind turbine parts repair. 

The company also wanted the academic partner to identify and work jointly with industry partners to develop these remanufactured component parts on a commercial basis.  

Solution

The company was referred to Interface by Highlands & Islands Enterprise. Interface successfully matched the company with the University of Strathclyde who has expertise across the business and technology areas that the Renewable Parts Ltd project required.

In this collaborative project, the University was looking to apply a multi-disciplinary approach to identify the tasks and areas to be researched.  They believed that the combination of the department of Electronic and Electrical Engineering, the Strathclyde Institute for Operations Management (SIOM) and the Scottish Institute for Remanufacture (SIR), hosted at the University of Strathclyde, provided the multi-disciplinary approach needed for the new business models/process that Renewable Parts wanted to investigate, as well as the technology expertise required for remanufacturing of wind turbines.

The project investigated data on wind turbine component failure rates to identify which components could be remanufactured/repaired/reconditioned, and the Strathclyde team completed a report for the company which outlined a number of potential components that might be of interest.

Benefits

Renewable Parts Ltd was successful in not only establishing a partnership with Strathclyde University but in securing funding from the Energy Technology Partnership. The total cost of their initial project was £23,075, with ETP contributing £13,575 in cash, and RPL contributing £9,500 in-kind.

The funding allowed RPL to develop implementation processes for two of these components, enabling the remanufacture/repair/recondition of said parts in-house. This meant that RPL could create a new manufacturing base in their original site of Lochgilphead in Argyll, an economically fragile region of the Highlands and Islands, creating jobs and supply chain opportunities.

In December 2018, the company secured a £171k grant from Zero Waste Scotland.  Renewable Parts, which has an operations centre in Renfrew, will use the money for refurbishment projects developed out of Lochgilphead in conjunction with its research partner, the University of Strathclyde.

Chief executive James Barry said: “The opportunity to improve recycling rates within the wind industry is significant.”  “The award provided a huge vote of confidence in Renewable Parts and the innovation programme it is driving with the university, in what is seen as a growth industry for Scotland.”

Follow-on Activity

RPL are now in phase two of project implementation, pursuing funding opportunities through Government bodies and Industry, and working with University of Strathclyde as their innovation partner.

The company was a finalist for the 2018 VIBES (Scottish Environment Business Awards) in the Circular Economy category, in recognition of their commitment to tackling environmental challenges. They also reached the finals of the Glasgow Business Awards, the Scottish Resources Awards and the Inspiring City Awards.

Impacts of COVID-19 on the business

Certain commitments were pushed back for the initial few weeks of lockdown, however, with a business-as-usual approach, Renewable Parts Ltd continued to grow throughout this time and employed new members of the team in sales, HR, marketing and procurement.

This is (June 2020) a critical time for the business as the first generation of wind turbines are approaching the end of their operational lives – at around 20/25 years old – providing a significant opportunity to capture new business. The company is in the application phase for a second grant with Zero Waste Scotland to continue working with the University of Strathclyde as a partner for developing new capabilities to help its customers reach sustainable business models.

Background

TransK9 situated in St John’s Town of Dalry, Dumfries and Galloway, is a family run company set up in 2003 by Sharon and Robert Marshall who supply dog cages and transit boxes to be fitted in the rear of vehicles.

The TransK9 boxes are constructed from high grade aluminium, with heavy duty galvanised steel doors. Their customers range from domestic users to the UK’s top gundog trainers and handlers, police constabularies, security companies through to numerous veterinary practices. In addition, they export to the USA and Europe.

Challenge

Manufactured locally in Scotland in aluminium, with a durable powder coated finish, TransK9 transit boxes have been designed to give many years of satisfactory service and are available in a range of sizes to suit most estate cars, 4x4s, double cabs, suburban utility vehicles (SUVs) and vans.
It is very important to the company to provide quality, tested and proven materials and components in their cages and boxes to ensure the safety of their clients’ dogs. Therefore, they were keen to collaborate with a university partner to:

Solution

After establishing relevant academic expertise, Interface was able to set up a collaboration with the University of the West Scotland’s (UWS) Engineering Department in Paisley to crash test TransK9’s latest dog cage.  

As a result, TransK9 was successfully matched with Dr Bob Bailey, Senior Lecturer at the School of Engineering and Computing at UWS who led this project.

The School of Engineering and Computing at UWS is home to a vibrant research community carrying out high quality applied research relevant to the research community and industry which underpins and extends the quality of the student experience. UWS is one of the leading players in computing and IT, offering professionally recognised engineering degrees and cutting-edge physics programmes with practical applications.

Business benefits
TransK9 Director, Robert Marshall said:

“The benefits were noticed immediately, in our first full year since undertaking the crash testing our UK sales rose by a staggering 39%; we are now into our second year and we are anticipating another increase in sales of at least 20% for this period.

We would without any hesitation collaborate again with the University of the West of Scotland, their expertise has greatly benefited our business, not only here in the UK but worldwide.”

Additional support

TransK9 Director, Robert Marshall added:

“We are fortunate to have Allan McNaught at the end of the Business Gateway phone line; Allan helped us recently with the part-funded acquisition of a new forklift, for what is becoming an ever increasingly busy loading bay in our warehouse.

We are most grateful to Business Gateway for all their assistance over the last few years, be it financial or just sound advice, particularly on exporting which has been another growth area for us.”

Follow on activity

The company are looking to expand their premises over the coming months to support their logistics, expand the product range and provide smoother operations.

Background

Norscot is a family owned business which was established in 1984 by chartered surveyor Peter Body and his wife Teda.

The company is headquartered in Bower, Caithness where its factory is equipped with sophisticated computer-controlled machinery which, together with the skilled workforce, produces the widest range of building components and related products available from a single source anywhere in Scotland.

Norscot’s product portfolio includes standard and bespoke timber frame kit homes in a variety of styles and made-to-measure windows, doors, patio doors and conservatories in uPVC, timber, and aluminium clad timber.

Challenge

In the self-build market, clients expect the best service and want to know every detail of their project prior to construction. Traditional paper plans and current 3D CAD (computer-aided design) models are difficult for most people to visualise as finished homes, and do not offer the client the opportunity to walk through the home to ensure it meets their needs.

Due to these visualisation issues, Norscot are often asked if they have a show house. This, however, would clearly be impractical, and of little real value, as the company offers a bespoke design service. At the same time, the existing Virtual Reality based solutions in the market are either not fully integrated with major Building Information Modelling (BIM) design packages or need very sophisticated interfaces from the end users. This makes it impractical for mainstream clients, especially those in remote locations, to fully utilise and appreciate the models generated by these packages, without having specific expertise and hardware.

Solution

Interface was able to introduce the company to the University of Strathclyde, who has a unique track-record of expertise and knowledge of the integration of BIM and gaming software, to create a specialised user experience that would incorporate the needs of BIM, the end user, and the company. 

Building design decisions typically involve several conflicting criteria in terms of decision making that need to be considered. The new product to be developed as a result of this collaboration was software which would bridge between existing BIM software and a newly created phone app into which the house design could be input to create a Virtual Reality/Augmented Reality (VR/AR) rendition of the finished home. The potential of such interfaces is highlighted when communication is needed between an occupationally trained expert (e.g. an architect) who uses a very complicated means of communication (such as conventional drawings) and a client who has no knowledge about their conventions.

A house rendition, once uploaded to the phone app, would then enable clients to ‘virtually experience’ their new home and also provide input/feedback at the design stage rather than down the line when it is more time consuming and costly to make changes.

The University’s role was paramount to this project in providing unbiased advice, helping the company identify particular needs and develop their strategic plan in relation to development of the final product.

This project was funded by a Scottish Funding Council Innovation Voucher.

Benefits

The idea of having a VR game-like fully customisable showroom which is integrated with BIM, and is available through an affordable smartphone, is something unique and makes it distinctive from any commercial product currently available in the market.

It is anticipated the project will ultimately result in a product/service which will assist the company to expand its market throughout the UK, resulting in increased sales and employment. This effect will be magnified through commercialisation of the product/service to other house builders, architects and so on.

Follow-On Activity

Norscot obtained funding from CSIC (Construction Scotland Innovation Centre) to enable them to continue with the development of the software to proof of concept stage.

A KTP from Innovate UK has been approved for Norscot to implement the software development. This will be a three-year project that imbeds the technology into the company and ensures it is market ready.  The KTP will also help to strengthen the relationship between Norscot and the University of Strathclyde.

“We were very satisfied with the way this project was managed and its outcome. Having never worked with academia before, we weren’t sure what to expect. There was a clear synergy between our objectives and the University’s capabilities and this project has given us the confidence to move forward with the development of the product / service under consideration. As a consequence of this project there is a clear focus and ambition on behalf of both the academic partner and ourselves to create something which we see as having significant value to the self-build housing market.” Peter Body, Chairman, Norscot Joinery Ltd

“This project provided a great opportunity for the Architecture Department to work with this company, and acknowledge the support of the Scottish Funding Council in making this possible. The company’s vision and insight was incredible and we had a great collaboration in formulating their needs based on our prior knowledge and the further research that we conducted. This project opened new avenues for us to collaborate on further projects, and applications for a CSIC-funded nine-month project and a KTP application have already been approved to further develop the collaboration.” Dr Farzad Pour Rahimian Leilabadi, University of Strathclyde

Please note that Interface administers the Innovation Voucher Scheme on behalf of the Scottish Funding Council. All funding applications are reviewed on a case-by-case basis by the Scottish Funding Council. Guidelines can be found here.

Background

Yekemi Otaru (founder of YO! Marketing, now merged with Doqaru Ltd) had an innovative idea to use machine learning to identify the marketing activities that generate the greatest impact on business growth. This would result in a world’s first machine-learning marketing algorithm. This was created with collaboration from cyber-security and machine-learning experts from Abertay University.

Challenge

Conducting marketing activities can be a constant challenge for many businesses that are time-constrained, have limited resources, little marketing expertise and a budget that only goes so far. Yekemi’s idea was to design an intelligent solution, based on a data model, of using a machine learning algorithm to identify the marketing activities that generate the greatest impact on business growth.

Machine learning is an application of artificial intelligence (AI) that provides computers with the ability to automatically learn over time without being explicitly programmed. Machine Learning had not previously been used by Marketing companies in this way. 

Yekemi approached Interface to help her find the necessary academic expertise in Machine Learning, Dataset Modelling and Data Mining to solve this challenge.

Solution

After conducting a search across various universities, Interface matched the entrpreneur with Dr Xavier Bellekens, Assistant Professor and Lecturer at Abertay University within the Division of Cyber-Security, where he leads the Machine Learning Research Group. Dr Bellekens was a perfect match for this project as he has a strong interest and extensive expertise in this field.

Abertay University offers extensive expertise in big and small data analytics, machine-learning, critical infrastructure protection, and the Internet of Things (IoT), both on security and the development side.

This collaborative project was set up to develop the intelligence behind Yekemi’s prototype (GO YO), an integrated online platform for marketing purposes.

The project was split into two parts: the first activity was the development of a dataset used to train the algorithm to predict the best routes to create impacts for a business. The second was the evaluation of the algorithm, ultimately leading to a highly intelligent platform that learns with time, taking into consideration the product lifecycle, giving tailored advice and helping businesses to manage the performance of their products in the marketplace, informing action plans and marketing strategies.

Machine learning focuses on the development of computer programs that can access data and use it to learn for themselves. It is based on learning by example, finding the right algorithm for the task and obtaining accurate results. This is a challenging task which can be achieved only through the assessment and research process.

This project was funded through a Scottish Funding Council Innovation Voucher, administered by Interface.

Business benefits

This project provided the former YO! Marketing with a world’s first machine learning marketing algorithm, setting the business apart from other marketing companies in the marketplace, making the decision-making process easier for business owners with limited marketing experience.​ 

Academic benefits

Economic benefits

Yekemi Otaru’s aim with this project was to help businesses with limited marketing expertise grow their business with advisory, planning and performance planning without the large cost outlay of trying multiple marketing techniques. 
YO! Marketing has now merged with Doqaru Ltd.

Please note that Interface administers the Innovation Voucher Scheme on behalf of the Scottish Funding Council. All funding applications are reviewed on a case by case basis by the Scottish Funding Council, guidelines can be found here.

Background

The Gorbals Community Group (Old Gorbals Pictures & Heritage Group) had approached Glasgow Caledonian University (GCU) in 2015 seeking technical assistance with their project. They are currently working with many organisations and political bodies exploring the possibility of recreating an old lost Gorbals landmark monument, the Gorbals Cross clock tower and drinking fountain.  This landmark was removed in 1932/3 for the expansion and upgrade to the tram system. 

Challenge

Unfortunately, the original drawings and measurements that would normally be used to help recreate the monument were lost, and there are no other existing records or documents of the structure.

Solution

The group discovered, however, that there is an exact copy of the monument on the island of St Kitts, in the Caribbean, the only surviving piece of four originally cast. 

Stevie Anderson and Eddie Horn, from GCU’s School of Engineering and Built Environment, visited the replica through funding from Historic Scotland, to draw up measurements of the original tower, using state-of-the-art, innovative 3D laser scanning techniques.  They were then able to combine the laser scans with photogrammetry data to obtain higher resolution than is currently available from commercial sources. This visualisation process, partly funded by pooled Scottish Funding Council Innovation Vouchers* awarded to George Taylor & Co, a foundry in Hamilton, and Wireframe Immersive, a 3D visualisation company, will pave the way for a new and innovative interpretation of the previous landmark.

The two businesses that were awarded these Innovation Vouchers are quite different in terms of adoption of digital media and new technology. George Taylor & Co. (Hamilton) Ltd rely on traditional foundry manufacturing processes which have remained relatively unchanged. Wireframe Immersive is a digital media company whose products are almost exclusively created using cutting-edge digital media tools and techniques. This project enabled cross fertilisation of ideas and innovation between two very different companies and the use of the same 3D scanning and photogrammetry data to develop products for new and unique market sectors.

Benefits

George Taylor & Co

For George Taylor & Co, this higher resolution dataset of the existing monument will help produce accurate, detailed 2D technical production drawings and 3D printed models, allowing for an accurate costing and bid for future stages of the manufacture of the monument.

The company recognises the potential for new technologies investigated through the partnership could lead to new market strategies and improved business opportunities gained from the collaboration on this project, and, in the short term, are investigating the potential to manufacture scaled replicas of the Gorbals Cross monument to market and sell.

“Thanks to the funding from the Scottish Funding Council Innovation Vouchers, we at George Taylor & Co. (Hamilton) Ltd and Glasgow Caledonian University (GCU) have produced an accurate costing for the replacement of the monument in the Gorbals. At the same time, we have gained a lot of knowledge about 3D scanning and printing which is an exciting and innovative technology. We worked well with GCU and would trust that at some point in the future, we will team up again”, said Douglas Kerr, Commercial Director, George Taylor & Co.

“George Taylor and Sons recognise the benefits of keeping in touch with the latest technologies. This project certainly gave the company an interesting opportunity to engage with university expertise and allowed us to investigate the opportunities for these technologies that we would not otherwise have engaged with”, noted Stevie Anderson, GCU.

Wireframe Immersive

Wireframe Immersive can engage with the 3D scanned data to create Virtual Reality (VR) simulations of both the past installation and potential future in-situ reconstruction of the lost monument. The use of VR simulations and real-time simulations from the 3D Laser scanned Heritage monument will raise community awareness and help fundraise for the future manufacture of the monument.

As a result of this project, Wireframe Immersive have employed a graduate student to look at the Heritage market as a new market, with longer-term full employment a strong possibility.

Glasgow Caledonian University

From the University’s perspective, the development of a project with two businesses made it extremely beneficial in terms of developing industrial links and maintaining insight into current industry practice.

Applying technologies in which GCU have developed knowledge and expertise to the benefit of the businesses also proved favourable in terms of staff development and creating teaching material (case studies) for students.

Giving real world examples of industrial applications of modern technologies has proven to be valuable for students learning the latest technologies being taught at university level.

The project partners are now investigating additional mutually beneficial projects, based on joint expertise and a new understanding of skills and technologies which were gained from working together on the Gorbals Cross project.

“Applying for the pooled funding allowed all partners to work together on a project that probably would not have gone ahead if single funding was the only option”, said Stevie.

The Community Group

The Community Group has benefited from the project by engaging with the University partner to realise the project aims and objectives at this stage. The ability to obtain the more accurate quotation from the Foundry partner, George Taylor and Co, has allowed a more realistic appraisal of the intent to reinstate the lost Historic monument within the local area.

They are now seeking to engage with educational institutions on this and other projects currently in the pipeline for the benefit of communities across Scotland.

* Up to four businesses can apply together to pool their Innovation Vouchers to solve a common issue.

Background

Craine Communications is an Argyll based Telecoms engineering solutions company.  They provide the means for homes and businesses to access the internet in remote rural areas where there currently is no reliable service via mainstream means. To do this, Craine Communications installs a mast in a location to relay the broadband signal wirelessly via radio links. Placing the mast on higher ground enables better transmission quality and reach, thus allowing them to service more clients.

Challenge

The masts, which are built from scaffold poles on a solid frame require relatively little power. To supply this, the company will commonly run a power cable from the nearest building to a mast but this can be a challenge in remote areas where digital communication is often a valuable asset. This approach limits the available locations, and often leads to masts not being in optimum, or even good locations. As a small company, Craine Communications didn’t have the capacity to come up with an innovative solution and so approached Interface to seek an alternative solution and to explore possibilities of powering the masts using local energy resources. They needed an academic partner able to assess the local resource to a degree where it could be quantified with sufficient detail for the continuous power requirement; the modelling skills to evaluate an off-grid hybrid renewable energy system under known and typical weather and operating conditions, and an ability to evaluate the performance of a system to the required level.

Solution

Interface matched Craine Communications with Dr Wolf-Gerrit Früh from Heriot-Watt University, who had the necessary expertise in this field to come up with a self-sufficient mast using renewable energy. 

While there are examples of off-grid renewable power supply systems, for example traffic signals powered by PV (photovoltaic system or solar power) and/or wind which light up when a vehicle approaches, the novelty here is the requirement of continuous power supply, with the additional need to be as cheap as possible to make any financial sense.  As a result, there are currently no available solutions on the market for this application.

The approach proposed for this work was to apply recent research on energy storage requirements for 100%-renewables power systems, combined with a nonlinear optimisation to identify the least-cost solution while maintaining reliability.  The hope was to turn the equipment needed into physically manageable modules so that it could be carried or towed uphill across rough terrain. The equipment might then be modified so it could be easily anchored on the chosen, suitable site and be used and left to the elements with minimum maintenance.

The project was funded by a Scottish Funding Council Innovation Voucher.

Benefits

Company – The company are now able to immediately use the product to help build a further reaching, reliable internet network in the most hard-to-reach areas and provide superfast broadband access to the last 5/10% of the rural population.

It is hoped that the product equipment can also be used at outdoor temporary events, disaster recovery networks, mountain rescue options, seasonal usage for holiday homes, and road routes not covered by mobile phone networks (SOS stations) in remote locations.

Beyond the current, local market a new product could also reach a much wider market, with increased sales beyond Scotland. The University will look at the economic impact of these wider markets as they are identified.

Academic – The project provided a clear case study to validate and apply recent research to a real problem, and identified clear guidelines for designing the system to provide the required functionality.  This work has also identified some avenues for further research.

Scottish Economy – A digitally connected Scotland underpins the Scottish Government’s core commitment to creating opportunities for all to flourish through increasing sustainable economic growth, opportunity and equality.  Figures are suggested for increased GDP ranging from £4-13 Bn per annum with GDP per capita estimated at £2500 by 2030 for those living in remote rural areas.

This project was extremely helpful with projecting the potential site costs to build the combined power source needed to power a remote hill top site. The solution would see a perfect powering of the radio devices and associated equipment thanks to the work from Wolf-Gerrit Früh. Overall it was a successful partnership and Craine Communications hope to put the solution into full use as soon as possible…. I look forward to working with Heriot-Watt and Wolf-Gerrit Früh in the near future and would highly recommend this Interface experience to any company looking to progress a project.

To tap into such an academic source has been extremely valuable, said Stuart Craine of Craine Communications.

Please note that Interface administers the Innovation Voucher Scheme on behalf of the Scottish Funding Council. All funding applications are reviewed on a case by case basis by the Scottish Funding Council.  Guidelines can be found here.

Background

Following the success of the Safetray, which allows waiting staff to safely carry trays of food and drink, entrepreneur and inventor Alison Grieve was on a mission to change the way the world holds things and developed a new and unique product called ‘G-hold’.

The G-Hold is a multi-purpose handhold invention that can be placed on the back of any type of tablet or reader, big or small, for a comfortable hold.  

It allows users to easily and safely handle hand-held devices such as iPads and tablets without causing strain, with one hand leaving the other free to operate the device and perform related tasks (e.g. drawing, writing) simultaneously. The G-hold handhold attaches to devices using either Micro Suction or permanent adhesive, with a retractable finger support which enables users to hold their device comfortably and without the risk of dropping it.

G-Hold’s are sold globally and manufactured locally in Scotland by McLaren Plastics in Loanhead.

Challenge

Alison wanted to obtain scientific data proving G-Hold’s ergonomic attributes in preventing injury and to evaluate its overall performance.

The entrepreneur was keen to understand more about the muscles around the carpal tunnel in the wrist used when tablet users grip their devices as opposed to using the G-Hold.

The academic expertise needed for this project lay in the area of Biomechanics. It involved the understanding of how human biology and mechanical devices can be developed to work in harmony so that the experience is comfortable, flexible and efficient without producing any adverse strain type side effects.

Solution

Interface put Alison in touch with a range of relevant academics from Scotland’s universities who were keen to investigate the ergonomic benefits of G-hold in reducing the risk of repetitive strain injuries for heavy users of electronic devices.

Through support from Interface, Alison was successfully matched and chose to collaborate with Dr Ukadike Chris Ugbolue from the University of the West of Scotland, within the Institute for Clinical Exercise & Health Science to carry out a technical feasibility study on G-Hold, evaluating its performance and examining the effect on the arm, wrist and hand of users.

University of the West of Scotland has expertise available from the Institute of Clinical Exercise and Health Science (ICEHS). The Institute comprises the Centre for Clinical Exercise & Rehabilitative Science and the Sports Academy and is involved in research areas related to exercise science.

Dr Ugbolue is a Biomechanical Engineer with expertise in biomechanics and musculoskeletal disorders affecting the hand such as carpal tunnel syndrome. With strong interests in ergonomics and bioinstrumentation Dr Ugbolue is a perfect match for this project.

This project was funded through a Scottish Funding Council Innovation Voucher administered by Interface. The resulting data was so powerful that it was translated into an image for prospective customers to understand more easily. The graphic was used in the marketing materials and during the ErgoExpo in Las Vegas and it caught the eye of both Apple and Microsoft.

In April 2017, G-hold secured new deals with Apple and Microsoft and they are now designing a new version specifically for Microsoft’s tablet/PC hybrid, Surface Pro, which will launch in the summer.

Business benefits

CEO and Inventor, Alison Grieve stated:

Academic benefits

Additional impacts

G-Hold and the University of the West of Scotland’s Institute for Clinical Exercise & Health Science won the Innovation of the Year Award at the Scottish Knowledge Exchange Awards 2019 for product testing and proving ergonomic benefits for a patented handheld which reduces wrist strain when holding tablets and other handheld devices.

March 2020 update: G-Hold is designed, manufactured and assembled in Scotland and is approved by Apple Ergonomics, Microsoft Surface, Amazon Devices and Panasonic, G-Hold’s patented holders have partnered with some of the world’s largest technology companies and are top sellers on HSN and QVC.

Please note that Interface administers the Innovation Voucher Scheme on behalf of the Scottish Funding Council. All funding applications are reviewed on a case by case basis by the Scottish Funding Council, guidelines can be found here.

Background

Flaér (a brand by Scottoiler Sport Solutions) are a new performance cycling brand established to launch their most recent innovation, the Revo Via, the world’s first chain performance system for road bicycles.

The Flaér Revo Via chain performance system applies micro-doses of a specially developed fluid to the chain at set time intervals during the ride, so no matter what the conditions, the chain remains perfectly optimised – all the time.

This unique system ensures maximum power transfer to the wheel, smoother gear shifts and a visibly cleaner transmission. The result – you get the most out of the effort you put in. Our extensive testing has shown up to 12 watts in power gains at the wheel – a figure which increases the longer the duration of the ride.

Challenge

A key aim with this product is to engage with professional road cycling teams.  Prior to starting production, Flaér were keen to conduct aerodynamic testing that would help them better understand the performance benefits of the Revo Via and establish what drag their system would create on a road bike.

Solution

Chris Simpson, the Technical Director at Flaér, contacted Interface when they were in this last stage of testing as they were looking to engage with an academic department with full wind tunnel facilities and associated expertise to carry this out. Interface was able to help him;

After putting out a search to various universities, Interface introduced Chris to Dr Richard Green from the Department of Aerospace Sciences at the University of Glasgow to access their wind tunnel facility and the related support the University offers.

Benefits

The project has since led to the creation of improved processes and improved, as well as new, products, with a resulting increase in overall productivity, products and turnover. The business has now also secured a UCI professional road cycling team (Orica-Scott) who they will work with for the next 3 years as technical development partners.

“Thanks to the work of Interface and their wide reach of academic contacts, we have been able to reach out to specialists who have been able to help us fulfil our project requirements. The response time, communication and understanding provided by Interface was outstanding. Their attention to detail and support was extremely valuable in our business achieving its goals”. Chris Simpson, Technical Director, Flaér.

The project has led to follow on work with the University of Glasgow where a Postgraduate student is carrying out computational work to add more detail to the experimental work that Dr Richard Green performed for them.

Background

Ecometrica is an end-to-end environmental software-as-a-service (SaaS) provider that is recognised as one of the world’s top sustainability brands. Incorporated in 2008, the company has unrivalled experience in helping businesses and governments identify risks and opportunities by combining satellite earth observation data with local information and business intelligence on the award-winning Ecometrica Platform. Ecometrica now has over 250 corporate clients, including ARM, Pearson, Compass Group, Etsy and Hertz.

Ecometrica brings together recognised experts in environmental and sustainability accounting, and their software supports all aspects of sustainability planning, operations and reporting. Their data and services are available from all their worldwide locations. Founded in Edinburgh in 2008, they also have offices in Montreal (2009), London (2012), Boston (2014) and Mexico (2017).

In 2013, a project team, led by the University of Edinburgh and comprising of local SME partners, LTS International and Ecometrica, successfully applied to the DFID (Department for International Development) Hectares Indicator Project – International Climate Fund (ICF) forestry programme.  DFID awarded £32,000 to the team to review and suggest improvements to their methodology for quantifying hectares of avoided forest loss and forest restored as a result of international development finance.

SFC Innovation Voucher Follow On Funding

In 2014, a Scottish Funding Council (SFC) Follow On Innovation Voucher of £11,600 was awarded to Ecometrica and Dr Edward Mitchard from the University of Edinburgh (UoE) for a project titled Earth Observation support for assessing the performance of the UK government’s ICF forest projects.

This follow on funding allowed Dr Mitchard to undertake additional analysis over Brazil to test the suitability of different earth observation (EO) satellite products for monitoring forest change. The project results gave Ecometrica a better understanding of the accuracy of the EO products, and enabled them to improve their testing and performance assessment offerings to institutions such as DFID, DECC, DEFRA, World Bank, and the Asian Development Bank.

“The Innovation Voucher is a fantastic scheme that made it really easy for me to work with a local SME and conduct research with real and immediate impact. My relationship with Ecometrica has grown since the Follow On Innovation Voucher was awarded, with it contributing to the development of ideas towards our current much larger collaborative projects. I would strongly encourage other academics to engage with Interface, who administer this SFC  programme”, said Dr Edward Mitchard, University of Edinburgh.

Benefits of the Collaborative Project

Edinburgh University and Ecometrica will continue to establish a leading position in Europe for this type of work. The benefits to the University of Edinburgh will be felt in terms of its international research and innovation ranking, and its reputation in the fields of forest ecology and the application of space technology. Ecometrica expects to continue its growth in this area: