KTP Case Studies

Bringing knowledge and expertise to your business every day, a Knowledge Transfer Partnership (KTP) is a collaboration between your organisation, the University and a high-calibre recent graduate. Below are some examples of KTP projects that are both currently running and have been completed with the University of Birmingham.

Read more about KTP and how you can apply to the scheme

Webster & Horsfall

Webster & Horsfall Ltd is a 300 year old family-owned business with more than 100 employees based in Hay Mills, Birmingham, who are one of the UK’s leading manufacturers of wire and strip.

 Webster & Horsfall were introduced to the University of Birmingham via attendance at a SCRA event in 2010. The company has since gone on to complete a number of collaborative projects with the University, most recently investing £90,000 in a Knowledge Transfer Partnership (KTP) to access the University’s materials science expertise.

Collaboration with the University has not only brought about improvements to their technical processes, but by working side by side with the University’s researchers, has contributed to a cultural change, raising consciousness amongst shop floor staff about how processes can be analysed using rigorous scientific principles and ultimately improved.

RS Hydro

Professor David Hannah, Dr Chris Bradley and research associate Kieran Khamis at the University of Birmingham (UoB) have been working with RS Hydro, on an Innovate UK funded KTP project to develop a unique solution enabling real-time field monitoring and analysis of organic pollution.

This will enable the data collected in the field to be wirelessly transmitted to distant locations, presenting easy to understand graphical information direct to the business or utility company and enabling them to respond rapidly.

The project integrates a new sensor system with a telemetry-based data monitoring system, providing a step-change in water quality monitoring internationally. Potential new applications of the technology include the early warning of bacterial contamination or breaches in environmental permits (waste water effluent).

Abtus Ltd

Based in Haverhill, Suffolk, Abtus specialises in the measurement & maintenance of rail-track and associated infrastructure. In July 2015 Abtus began a KTP with the University of Birmingham’s Centre for Railway Research and Education (BCRRE) in order to extend their existing range of railway inspection products through the development of laser-based technologies.

Atkins Rail 

A Knowledge Transfer Partnership (KTP) between the University of Birmingham and Atkins developed a multi-train railway simulator (MTS) to provide the capability for advanced simulation work that addresses future sustainability, carbon and legislative issues.

Atkins is a major consultancy company that provides knowledge, application, innovation and expertise to the rail industry across many rail engineering and non-engineering disciplines. The Company needed to develop its own software simulation tools for use in modelling AC/DC railway infrastructure as the existing commercial modelling tools available do not allow access to the source code, and therefore, provide very little control on the solution methods used.

Working with Professor Clive Roberts and Drs Stuart Hillmansen and Paul Weston from the University of Birmingham’s Centre for Railway Research and Education the collaboration provided Atkins with the capability to develop the required skills and competencies to develop a MTS and keep it continually up to date. In particular, the KTP project looked at innovative ways to address electrical safety standards requirements and the need to ensure that new designs take into account carbon critical design. The engineering tool also had a unique feature to simulate anticipated operating timetable in a ‘real time’ manner to assess the performance and behaviour of the operational railway.

Roger White

Professional Head of Electrification and Plant, Atkins Rail Division

“The MTS tool being developed with the University of Birmingham will increase Atkins capability and competitiveness in this area and enable us to offer our clients designs to develop and operate the railway infrastructure that minimise carbon emissions.”

Birmingham City Council

A Knowledge Transfer Partnership (KTP) between the University of Birmingham and Birmingham City Council helped the Council in providing the necessary evidence to ensure the effective delivery of the Council's long term vision that the City 'will be the UK's first sustainable global city with a low-carbon energy infrastructure and well prepared for the impact of climate change'. The KTP was able to quantify for the first time the combined impact of the 'Urban heat island' and climate change up to 2100 in Birmingham.

Urban heat island is the term used to describe the phenomenon of higher night-time temperature levels being recorded in metropolitan areas than those that are recorded in rural areas. This is mainly due to the fact that the building materials used in urban areas retain heat gained during the day and release it slowly at night. Observations of the heat island in Birmingham show that on some nights temperatures in the city can be 8°C higher, much stronger than the usual 1 or 2°C. This can put considerable heat stress on the built infrastructure and on individuals living in a city that has already experienced extreme weather events such as thunderstorms and tornadoes.

Cllr Paul Tilsley, Deputy Leader of Birmingham City Council, said: "The 2003 heatwave saw temperatures top 38.5°C nationally, which caused over 2,000 excess deaths in the UK. Research suggests these could be average summer temperatures by 2040 as our climate continues to warm and extreme weather becomes more frequent and intense - so we need to understand how future weather events will affect people's health and the city's infrastructure, which is exactly what this project will enable us to do."

Surprisingly the latest national climate change scenarios that are available do not take into account the urban heat island effect. Working with Professor John Thornes, Dr Xiaming Cai and Dr Lee Chapman in the School of Geography, Earth and Environmental Sciences at the University of Birmingham the KTP was able to review existing evidence in order to fill this gap. Climate modelling skills and expertise residing at the University were transferred to the City Council via an easy to use climate change adaptation planning tool called the BUCCANEER (Birmingham Urban Climate Change Adaptation with Neighbourhood Estimates of Environmental Risk).

Sandy Taylor

Head of Climate Change and Environment, Birmingham City Council

“The project will certainly put Birmingham at the forefront of research into understanding the impact of climate change at a neighbourhood level in cities. It will provide vital information for a range of Council services in the City as well as being key to the effective adaptive responses of Birmingham City Council partners, in particular the NHS.”

Blue Sky Bio

Blue Sky Bio is a Chester-based company dedicated to providing ‘full-circle’ product solutions to meet the growing food and waste demands caused by the rising human population. The company has already completed one Knowledge Transfer Secondment project using impact acceleration funds provided by the Engineering and Physical Sciences Research Council (EPSRC). This KTP will build upon the earlier work, using large-scale offshore seaweed farms to capture carbon dioxide that is, in turn, converted to methane through anaerobic digestion.

Up and running since April 2015, academics in Civil Engineering and Biosciences are working together to develop this more sustainable means of generating energy.


A Knowledge Transfer Partnership (KTP) between the University of Birmingham and BT has helped the Company to advance the monitoring capabilities of its communication procedures with a view to transforming its service delivery systems.

BT is one of the world's leading providers of communications solutions serving customers in Europe, America and Asia Pacific. Its principal activities include networked IT services, local, national and international telecommunications services, and higher-value broadband products and services. BT serves over 18 million business and residential customers, and provides network services to other licensed operators.

Under Dr Behzad Bordbar, Lecturer in the School of Computer Science at the University of Birmingham, the partnership was able to design and implement a distributed system for performance and compliance monitoring in BT's service oriented computer structures.

Professor Ben Azvine

Head of Security Research, BT

“The KTP with the University of Birmingham will help us to deal with faults and problems in near real-time and identify root causes to problems so that we can avoid recurrences in the future. This will enhance our competitiveness in the market and consolidate our role as an innovative leader in the industry.”

Cobra Biologics

The average member of the public is unlikely to have heard of protein therapeutics. Yet human insulin, the first native recombinant protein therapeutic, has become a household name over the past 25 years. Cobra Biologics, an internationally trusted contract process developer and manufacturing organisation, have been involved in the production of protein therapeutics for over two decades.

It provides advanced production solutions for clinical investigations and in-market supply. While insulin is a native recombinant protein therapeutic (meaning that the instructions to make the protein come from humans, but that it is made in bacteria), Cobra’s customers are demanding increasingly complex synthetic protein products. Current manufacturing processes are not adequate to meet market demand and the development of new processes is challenging, with no guarantee of success.

To improve its response to customer needs, Cobra needed to create new manufacturing solutions with significantly higher success rates and simplified processes. In addition, it also wanted to develop a systematic approach to selecting the most promising new processes, and to focus on these for development. These aims required an in-depth knowledge of protein production systems and microbial fermentations and the University of Birmingham is recognised as a centre of excellence in these fields.

The University and Cobra Biologics have embarked on a Knowledge Transfer Partnership (KTP) that will explore these challenges further. Led by Dr Tim Overton, in the University’s School of Chemical Engineering, the KTP is seeking to design a knowledge based approach that will lead to accelerated development times, improved success rates and simplified manufacturing processes.

Peter Coleman

CEO, Cobra Biologics

“We are pleased to be working with Dr Tim Overton and Prof Jeff Cole on this KTP project and to be developing our long term collaboration with the University of Birmingham in the field of microbial protein production.”


Cogitare is an infrastructure optimisation consultancy that combines system engineering and economics to advise both public and private sector clients. With London Underground the company has been able to implement a process by which the optimum conceptual design would be arrived at for upgrading power supplies to support new rolling stock. This is estimated as having reduced London Underground’s power infrastructure costs by £0.5 billion.

Cogitare is currently working with the University to develop innovative methods to measure and model real rail capacity, along with validating and improving capacity simulations and simulators. Together with academics from the Birmingham Centre for Railway Research and Education (BCRRE) the project will run until August 2016.

Drywite Ltd 

Drywite, a small family owned business, have been manufacturing vegetable preparations to catering and vegetable industries since 1933.

Their main product is sulphite based and over the years has developed strong UK and export markets. However, the increasing trend is for organic non-sulphite products, so in order to retain their position in the marketplace they required expert help to enable them to develop a sulphite free solution that would be effective and economical to use.

Most fresh fruits and vegetables have a pronounced tendency to discolour to a greyish-brown after periods of storage producing an appearance that is unacceptable to consumers. The main focus of academic work carried out has been on enzymatic browning, one of the primary reactions responsible for such discolouration.

The University of Birmingham has the largest chemical engineering-based food research group in the UK, incorporating research into structured foods, flavour delivery and food hygiene. The University was therefore ideally placed to help, and is now working with Drywite under the Knowledge Transfer Partnership (KTP) scheme. The KTP project will develop a chemical route to provide a six day shelf life for peeled potatoes. The challenge will be to come up with a solution that uses environmentally acceptable chemicals, retains key product characteristics such as colour, and can be implemented in a commercial operation.

Kelvin Lee

Managing Director, Drywite Ltd

“We are grateful...to use the expertise of Dr Tony Hasting and the resources of the University of Birmingham for a project that our company may not otherwise have been able to afford. We were very happy with the report that Dr Hasting produced and would like to continue to develop links with universities.”


A Knowledge Transfer Partnership (KTP) between the University of Birmingham and Central Networks has helped the energy company to devise an effective asset-replacement strategy, adapt to climate change and provide a reliable ongoing service.

Central Networks, which is part of the E.ON group, distributes energy to 10m people in central England through 133,000km of underground and overhead cables and via almost 94,000 substations.

Over 4,500 of these substation sites are in the Birmingham area, many of which contain transformers that were installed over 40 years ago.

If scientists can understand the various scenarios relating to climate change, including the effects of 'urban heat islands' (metropolitan areas which are significantly warmer than their surroundings), they can calculate the life cycles of Central Networks' transformers and come up with the best possible asset-replacement strategy.

Under Dr Lee Chapman and Professor John Thornes in the School of Geography, Earth and Environmental Sciences, the partnership investigated the relationship between weather conditions and asset temperatures. Once known, projections can be made for various climate scenarios so that asset life cycles can be approximated.

Robert Ferris

Innovation and Development Manager, Central Networks

“The KTP with the University of Birmingham should make a strong contribution to our future asset replacement strategy. Allowing Central Networks to determine how best to adapt to climate change impacts in urban areas will enable us to continue to provide a reliable network for our customers.”

Housing Associations' Charitable Trust (HACT)

The Housing Associations’ Charitable Trust (HACT) was established in 1960 as a national charity seeking to support the work of housing providers and influence housing practice, primarily in the housing association sector.  The charity re-launched in 2012, reinventing itself as an ideas and innovation agency for the social housing sector, operating on a social enterprise-based model. 

The reason for this change was due to the changing operating environment for both HACT and the sector it worked with.  HACT’s original funding model, which was primarily grant-driven, had ceased to provide a viable source of income and was – increasingly - diverting the company’s attention from its core historic work with affordable housing providers.  Furthermore, whilst in the past housing providers had benefited from HACT’s grant funded activity, housing providers were now capable of funding their own activities, and the more urgent demands were around the generation of ideas and innovative practice.   A decision was therefore made to move to a sustainable knowledge-based business model, but HACT required academic expertise to develop services that would be beneficial to its target market.

Working with Professor David Mullins and Angus McCabe of the University of Birmingham, funding from Innovate UK (formerly known as the Technology Strategy Board) allowed an honorary fellow from the University, Dr Tricia Jones, to be based with HACT for 2 years. During this time Dr Jones oversaw a project that helped HACT deliver a huge transformation to reflect the equally large changes taking place in its housing-centred marketplace, investigating and developing new opportunities as they arose, with a particular focus on identifying and developing innovative insight and learning from across the social housing sector and beyond. As a result, HACT is now able to translate social science based research into marketable learning packages and disseminate learning with the Housing and Communities Research Group at the University of Birmingham. They have created a new role of Research Manager and annual sales turnover has seen an increase of over £600k as a direct result of the KTP project.

Andrew van Doorn

Deputy Chief Executive, HACT

“The KTP was instrumental in enabling HACT to transform its business… Our partnership with the University of Birmingham and its Third Sector Research Centre has positioned HACT as the market leader for creating new knowledge sharing platforms and new insights for social housing providers.”


Ionotec is a research company based in Cheshire with 20 years’ experience in the manufacture of ion-conductive ceramics and in high-temperature battery development.  In July 2013 the company initiated a KTP jointly with the University’s Chemical Engineering department. The project aims to develop and demonstrate a pilot-scale process for the manufacture of beta alumina ceramics by extrusion.


KUKA Robotics UK Ltd began a KTP with the University in January 2015. Pioneers in robotics and automation technology, KUKA Robotics are one of the leading manufacturers of robotic systems worldwide. Over three years the project will develop a new toolbox of software and algorithms, extending KUKA’s robotics capabilities to include advanced computer vision and vision-based robot control. The project is being delivered in partnership with the University’s Computer Science and Mechanical Engineering schools.

Paraytec Ltd 

Paraytec is a UK based scientific instrument company manufacturing and distributing a range of products for pharmaceutical and biopharmaceutical applications.

They are constantly striving to build further capability into their instruments and one of the key problems they were facing was how to characterise the key attributes of biotherapeutic proteins whilst using extremely small volumes (10 microlitres or less) of what is a very high value material.

Usually the proteins are injected into, and driven by pressure, through a capillary, and their concentration profiles visualised at two windows. Analysis of these profiles yields some information about protein size and solution viscosity. Further development of the analysis techniques and application of mathematical modelling was expected to significantly improve the efficiency of measurements.

Working with researchers from the University's School of Mathematics, led by Dr Jamal Uddin, the Company embarked on a KTP project which established a theoretical framework for the modelling of concentration-dependent effects under the flow conditions relevant to Paraytec's TDA200 instrument. The model provided a theoretical basis from which the extraction of concentration dependent parameters can be achieved.

Professor David Goodall

CSO, Paraytec Ltd

“We are delighted with the outcome of the project. We now have a sound theoretical model upon which to build further capability into our instrumentation. We have very much enjoyed working with the University of Birmingham and would recommend the shorter KTP approach to other companies.”

Prime plc

Prime is a property development and investment company that fund, design, construct and maintain health-service related buildings. They have a diverse set of clients ranging from GPs, community healthcare providers and Local Authority partners.

One of the main challenges that Prime faced was the lack of systematic knowledge management across the organisation and subsequent access to robust, evidence-based data on its performance and its products. This meant that new business was harder to win and there were delays and duplication in progressing existing projects. These issues had a commercial impact on Prime because it was missing out on the income from potential new business and experiencing the additional cost that delay and duplication inevitably incurs.

A Knowledge Transfer Partnership (KTP) with the University of Birmingham helped the Company to develop the in-house knowledge and the skills it required. The aim was to develop processes for collecting information and a database to store data that would enable easier retrieval and analysis.

Working with Hilary Brown from the University's School of Social Policy, Prime created an effective Prime Facts database and robust knowledge management processes. This in turn has led to a more evaluative culture within the organisation.

Ann Pursey

Group Partnerships Director, Prime plc

“Working with the University of Birmingham on this KTP project has been invaluable in supporting our business strategy and objectives going forward. Having a dedicated University of Birmingham (KTP) associate on site has enabled us to focus on delivering the project on time and on budget.”



Rolls-Royce generates around half of its revenue from aftermarket services and offers a comprehensive suite of services that cover all aspects of managing and maintaining its engines throughout their lifecycle. This includes the innovative TotalCare® which rewards reliability, a factor valued most highly by customers. By being charged on a $/engine flying hour basis, TotalCare transfers both time-on-wing and shop visit cost risks back to the original equipment manufacturer, and makes reliability and time on wing a driver for profit for both the customer and Rolls-Royce. 

Therefore one area identified for development was a novel interlayer repair process for titanium blade integrated disk (blisk) aerofoils which is a key element in reducing the life cycle of Rolls-Royce components. Coupled with the high cost of each component, meant that the Company were keen to develop and implement an advanced repair process for these parts. The new process would then become an addition to the portfolio of novel joining methods designed to meet the future repair needs for Rolls-Royce.
A Knowledge Transfer Project (KTP) with the University of Birmingham allowed Rolls-Royce to access expertise in a range of properties and analytical techniques at the University’s College of Engineering and Physical Sciences. In turn the partnership provided real benefit to the University of Birmingham researchers, led by Dr Moataz Attallah, allowing them to understand the practical challenges related to interlayer repair technologies and exposing them to several new technologies of relevance to their research. 

The project employed a ‘KTP associate’, Silvia Marchisio, who was based at Rolls-Royce and jointly supervised by the Company and a member of the University’s academic team. The associate completed four phases of this project delivering an intellectual property map, a summary report on key process variables and a summary technical report on the tooling concept for interlayer repair and its demonstration on a representative component. The technical success and commercial relevance of the project have been demonstrated by Rolls- Royce’s continuing commitment to retain Silvia full-time so that she can actively develop the outcomes of the project. 

Dr John Forsdike

CEng MIMM, Repair Technology Programmes, Rolls-Royce

“Working with the University of Birmingham on this KTP has enabled Rolls-Royce to look in detail at a complex technical challenge using a range of techniques and expertise. This has allowed all partners to appreciate the challenges which need to be overcome in order to fully exploit the potential of the process, which in turn will support our manufacturing base.”

The KTP has widened the scope of collaboration between Rolls-Royce and the University of Birmingham with a further two researchers now engaged to extend the understanding of interlayer repair work. This work will largely focus on optimising blade manufacturing processes building a collective understanding of the specific challenges of maturing manufacturing technologies using lab-scale equipment. 

Truflo Marine

Truflo Marine is part of IMI’s Critical Engineering division, and focuses on small-batch production of specialist naval marine and nuclear valves. Their KTP with the University’s Mechanical Engineering department looks to understand the physics of severe service tribological interactions, thus enabling the development of a substantiated range of valves using new technologies.

Clayton Manley

Managing Director, Truflo Marine

“The expertise of the researchers at the University of Birmingham has been invaluable and is key to us remaining at the forefront of delivering high integrity flow control solutions to our customers.”

The Supplies Group (TSG)

The Supplies Group (TSG), an internet retailer, acquires all its customers through online marketing, mostly at a financial loss, with the hope of selling other products to them in the future. As the Company did not know, or understand, the profile of the most valuable customers they felt that the return on their investment in customer acquisition and retention was not being maximised.

Working with researchers from the University's School of Computer Sciences, led by Dr Peter Tino, the Company embarked on a KTP project which developed methods to represent customers based on patterns of historical sales data and to predict their Life Time Value (LTV).

Algorithms were developed to identify the most important product families with the potential to indicate customers with high future profitability.

The KTP has had considerable impact with TSG having recruited 3 postgraduates from the University to take forward, and build on, the results of the project, and an expectation that a further 3 posts will be created. Furthermore TSG is predicting a £2.5M pa increase in customer acquisition revenue and a 15% increase in existing customer LTV which will contribute to an additional £2M of potential annual revenue growth. A further two EPSRC (Engineering and Physical Sciences Research Council) funded projects have also evolved from this project.

Noah Gresham

Director, The Supplies Group

“The project outputs will give TSG a tangible competitive advantage in online customer acquisition efforts. The work will allow us to identify customers of high value and target our marketing budget to maximise acquisition of such customer groups while minimising exposure to low value customers.”

Weatherite Manufacturing Ltd

Based in West Bromwich, Weatherite Manufacturing Limited has established itself as one of the UK’s leaders in the design and manufacture of bespoke, energy efficient cooling solutions. With over 40 years of experience, the company is able to advise their customers on the most efficient way to meet their needs, while saving on cost and ensuring longevity.

Weatherite’s strategy is reliant on developing products that are environmentally friendly, safe, energy efficient and cost effective. Trigeneration energy, whereby a combustible material is used to generate electricity as well as provide heating and cooling services, was an area that they were keen to explore and develop their capability in. Yet the company was being held back by a reliance on technology that was 20 years old. Support was needed in order to innovate in this key area.

With access to the knowledge of Drs Raya Al-dadah, Saad Mahmoud and Karl Dearn, a postgraduate was employed on the project for 2 years. The postgrad, Ahmed Elsayed, was able to devote his full time to the project, gaining expertise that has helped to develop his career. In turn, the academics were able to establish a research group dedicated to studying adsorption technologies, as well as bring in further research and doctoral student funding.

Weatherite now has the necessary knowledge to develop low temperature cooling systems based on adsorption technology. The project also highlighted a number of other potential uses for the technology, with new markets now available both nationally and internationally. 

Paul Griffiths

Technical Director, Weatherite Manufacturing Ltd

“The KTP scheme has demonstrated the benefits of tapping into academic resource where more detailed research/analysis is required. We have learnt that a partnership of the more detailed and structured approach from academia can be successfully cross fertilised with the more practical and hands on approach from a manufacturing company.”