¾Ã¾Ã¾«Æ·

Professor Muyiwa Oyinlola

Job: Director of IESD and Professor of Innovation for Sustainable Development

Faculty: Computing, Engineering and Media

School/department: School of Engineering and Sustainable Development

Research group(s): Institute of Energy & Sustainable Development (IESD)

Address: ¾Ã¾Ã¾«Æ·, The Gateway, Leicester, LE1 9BH

T: +44 (0) 116 257 7162

E: muyiwa.oyinlola@dmu.ac.uk

W: /mao

 

Personal profile

Muyiwa is  a Professor of Innovation for Sustainable Development, a Chartered Engineer and Director of the Institute of Energy and Sustainable Development. Prof Oyinlola is  passionate about and committed to bringing positive change to the African continent. He has a strong track record of  facilitating collaboration among appropriate stakeholders, co-creating sustainable interventions, and providing support in the development of home-grown solutions to African challenges.

 

Muyiwa has  led multi-institutional, multi-disciplinary, international consortia in drafting, winning, and successfully executing research projects cumulatively worth over £5 million. Previous projects have  been in  areas such as Sustainable Waste Management, Sustainable Built Environment,  Digital Transformation, Building Capacity of youths, and  improving energy access.   Prof Oyinlola consistently collaborates with transdisciplinary teams to ensure that project outcomes are interdisciplinary and encompass both technical and social factors. He  places particular emphasis on identifying and integrating socio-cultural considerations required for the long-term success of projects in low- and middle-income countries.

 

Muyiwa has over 50 peer reviewed  academic publications covering a wide remit. Prof Oyinlola  holds  a B.Eng in Mechanical Engineering from Ahmadu Bello University, an MSc in Renewable Energy Engineering from Kingston University,  an MA in Education Practice from ¾Ã¾Ã¾«Æ· and a PhD in Engineering from the University of Warwick. Prof Oyinlola is a member of several professional bodies

Research group affiliations

Institute of Energy and Sustainable Development

Publications and outputs


  • dc.title: Catalysing Environmental Action: a Governance Framework for Enhancing Individual Participation in Sub-Saharan Africa’s Plastic Circular Economy dc.contributor.author: Ambituuni, Ambisisi; Ajala, Olubunmi; Schroeder, Patrick; Oyinlola, M. A. dc.description.abstract: Plastic waste poses a significant challenge to achieving sustainable production and consumption of resources, particularly in sub-Saharan Africa where effective governance and waste management systems are lacking. In this paper, we develop an empirical understanding of the influence of public governance system on promoting circular economy (CE) for plastic actions among individuals. Through a survey of 1475 participants across five sub-Saharan African countries, we tested five hypotheses drawing on New Governance Theory and CE Action Recipe to explore the relationship between governance and individual’s actions supporting CE for plastic. We found that a governance system that supports CE practices and exhibits governance efficiency is positively associated with individuals’ actions supporting CE for plastic. The awareness of government policies, laws and regulations, institutions, processes, and programmes have a significant impact on individuals’ engagement in plastic circularity practices. The paper’s theoretical and governance implications highlight the relevance of public governance in shaping action towards a CE for plastic at the individual level. dc.description: open access article

  • dc.title: The environment for a digitally enabled circular plastics economy in Africa: lessons from cross-sectional stakeholder engagements dc.contributor.author: Oyinlola, M. A.; Kolade, Oluwaseun; Schröder, Patrick; Odumuyiwa, Victor; Rawn, Barry; Wakunuma, Kutoma; Sharifi, Soroosh; Lendelvo, Selma; Akanmu, Ifeoluwa; Whitehead, Timothy; Mtonga, Radhia; Tijani, Bosun; Abolfathi, Soroush dc.description.abstract: Purpose This paper aims to provide insights into the environment needed for advancing a digitally enabled circular plastic economy in Africa. It explores important technical and social paradigms for the transition. Design/methodology/approach This study adopted an interpretivist paradigm, drawing on thematic analysis on qualitative data from an inter-sectoral engagement with 69 circular economy stakeholders across the continent. Findings The results shows that, while substantial progress has been made with regard to the development and deployment of niche innovations in Africa, the overall progress of circular plastic economy is slowed due to relatively minimal changes at the regime levels as well as pressures from the exogenous landscape. The study highlights that regime changes are crucial for disrupting the entrenched linear plastic economy in developing countries, which is supported by significant sunk investment and corporate state capture. Research limitations/implications The main limitation of this study is with the sample as it uses data collected from five countries. Therefore, while it offers a panoramic view of multi-level synergy of actors and sectors across African countries, it is limited in its scope and ability to illuminate country-specific nuances and peculiarities. Practical implications The study underlines the importance of policy innovations and regulatory changes in order for technologies to have a meaningful contribution to the transition to a circular plastic economy. Originality/value The study makes an important theoretical contribution by using empirical evidence from various African regions to articulate the critical importance of the regime dimension in accelerating the circular economy transition in general, and the circular plastic economy in particular, in Africa. dc.description: The file attached to this record is the author's final peer reviewed version. The Publisher's final version can be found by following the DOI link.

  • dc.title: Towards maximum cost-effectiveness: multi-objective design optimisation of insulating glass flat-plate collectors dc.contributor.author: Summ, Thorsten; Oyinlola, M. A.; Khattak, Sanober; Ehrenwirth, Mathias; Trinkl, Christoph; Zörner, Wilfried dc.description.abstract: A significant challenge in the advancement of solar thermal heating systems lies in the unexplored techno-economic potential of insulating glass flat-plate collectors. These collectors are constructed in accordance with the specifications of standard insulating glass units and have emerged over the past decade as a promising design concept for enhancing the cost-effectiveness of solar thermal systems. However, substantial findings regarding the techno-economic viability of their production are still pending. The aim of this paper is to optimise insulating glass collector designs for solar district heating applications by identifying key design parameters that maximise cost-effectiveness. This study employed a five-stage methodology. It included thermo-hydraulic collector modelling using MATLAB/Simscape and the CARNOT Toolbox. The model was validated against experimental performance tests. A Latin hypercube computational design with 250,000 samples was set up to train supervised machine learning metamodels and perform a multi-objective optimisation using an elitist genetic algorithm. The study identified the argon concentration, collector length, and width as critical parameters influencing efficiency. Larger, thinner collectors demonstrated superior performance due to reduced convective losses and increased aperture-to-surface ratios. The optimisation revealed that the insulating glass collectors could achieve a 7.7 percentage point increase in efficiency, a 19.4 % reduction in material cost, and a 14.5 % decrease in weight compared to market-available flat-plate collectors. However, the direct economic comparison was not considered strong in evidence due to a lack of economic data from technology providers. The most cost-effective designs featured an argon concentration of 99 %, sealing thickness of 31.2 mm, and a glazing thickness of 4.1 mm, and 4.5 mm, while collector length and width varied more significantly. The research findings indicate the techno-economic potential of insulating glass collectors, demonstrating their ability to outperform conventional flat-plate collectors in terms of cost-effectiveness and efficiency. Future studies should focus on producing and testing larger modules and incorporating production costs to fully realise their potential for solar district heating applications. This study provides valuable guidelines for IGU designers and producers aiming to develop cost-effective and efficient solar thermal collectors for district heating systems. dc.description: open access article

  • dc.title: Digitally enabled business models for a circular plastic economy in Africa dc.contributor.author: Kolade, Oluwaseun; Oyinlola, M. A.; Ogunde, Olawunmi; Ilo, Celine; Ajala, Olubunmi dc.description.abstract: In recognition of the need for an economic logic that complements and reinforces the ecological imperative for the circular plastic economy, this paper explores the importance and impact of digitally enabled circular plastic business models across retailing and distribution systems. The paper draws from 16 focus group discussions, complemented by 17 semi-structured interviews of frontline organisations incorporating digital innovations in their businesses to enable the management of plastic waste in Africa. The study finds that, across African countries, the transition to a circular plastic economy has been hampered by the limited uptake of circular products by consumers. In order to accelerate the transition, innovative business models are required to invigorate the ecosystem and simplify the logistics of retailing and distribution systems. The paper proposes a new conceptual framework that explicates the impact of digital innovations in the processes of value creation and value capture across a whole spectrum of circular economy reverse logistics activities: recycling, redistribution, and remanufacture. The study also highlights two important social and policy implications of digitally-enabled circular business models: Firstly, the creation of new employment opportunities through the empowerment of a new labour force for the circular plastic economy; secondly, the heightened opportunity to enact an innovative sharing economy in typically resource-constrained contexts in which otherwise idle products and resources are more efficiently used in a process of collaborative consumption. dc.description: open access article

  • dc.title: Exploring the Impact of Rice Husk Ash Masonry Blocks on Building Energy Performance dc.contributor.author: Onyenokporo, Nwakaego C.; Taki, A. H.; Zapata Montalvo, Luis Fernando; Oyinlola, M. A. dc.description.abstract: Operational building energy consumption accounts for 55% of global energy consumption. Most of this is attributed to residential buildings, as they make up the largest building type when compared to the total building stock worldwide. As the building envelope is a major contributor to building energy performance, especially the external walls, its optimisation is therefore imperative to reduce energy consumption and carbon emissions. This study set out to assess the effects of waste material additions to external walls and their effect on building energy performance. This research aimed to critically investigate the effect of rice husk ash (RHA) masonry blocks on building energy performance when compared to conventional masonry blocks in tropical climates. A mix of methods, including experimental investigation and simulation studies, were employed for this study. Three variations of RHA block samples were created for this investigation: RHA 5%, RHA 10%, and RHA 15%. Using prototype buildings from the study context, the building simulation results helped quantify the impact on building energy performance from the reuse of rice waste. The largest improvement to the building fabric was recorded with the RHA15% blocks, which resulted in a 9.9% and 11.3% reduction in solar heat gains through the external walls for the selected bungalow and duplex/storey building, respectively. This resulted in a 6.55% and 4.2% reduction in cooling loads and a 4.1% and 2.8% reduction in carbon emissions, respectively, for the bungalow and du-plex/storey building. The findings of this research will prove valuable to householders, researchers, architects, and policymakers in their decision-making processes. The findings will also be useful in introducing new methods that can be adopted for similar studies, bridging the knowledge gap while promoting a circular economy through the reuse of landfilled waste. dc.description: open access article

  • dc.title: Entrepreneurship and innovation in Nigerian universities: Trends, challenges and opportunities dc.contributor.author: Oyinlola, M. A.; Kolade, Oluwaseun; Okoya, Silifat Abimbola; Ajala, Olubunmi; Adefila, Arinola; Adediji, Adedapo; Babaremu, Kunle; Tijani, Bosun; Adejuwon, Jude; Wambui, Faith; Akinlabi, Esther dc.description.abstract: In a bid to improve entrepreneurial outcomes of graduates from Nigerian universities, the Nigerian government has launched a range of interventions, including a 2004 national policy mandating compulsory inclusion of entrepreneurship education in the curriculum, and support for the establishment and implementation of entrepreneurship development activities by university departments. However, not much is known about the operational nuances, challenges and impact cases that characterise the implementation of this national policy in such a vast, culturally diverse country as Nigeria. To address this lacuna, this study draws on qualitative data from five focus groups, crystalised with quantitative data from 151 students across four Nigerian Universities, to explicate the current trends, successes, and challenges of entrepreneurship development and innovation support in Nigerian universities. The paper offers recommendations on how the current policy on entrepreneurship education in Nigeria can be enhanced to improve student entrepreneurial aspirations and outcomes. It also signposts innovative pedagogic activities which could be deployed to achieve this. dc.description: open access article

  • dc.title: Technological Advances in Mechanical Recycling Innovations and Corresponding Impacts on the Circular Economy of Plastics dc.contributor.author: Babaremu, Kunle; Adediji, Adedapo; Olumba, Nmesoma; Okoya, Silifat Abimbola; Akinlabi, Esther; Oyinlola, M. A. dc.description.abstract: The impact of plastic pollution on the world and its inhabitants is yet to be fully measured. Significant quantities of microplastics and nanoplastics have been found in human organs, and many diseases have been traced to their presence. Even human placentas have been found to contain microplastics. This study examines the recycling landscape, advanced reprocessing techniques, and technical challenges in this industry. It points out the top recyclable types of plastics (such as high-density polyethylene, polyethylene terephthalate, and thermoplastic elastomers) by analyzing their different recycling capacities globally. It highlights the most advisable recycling techniques by identifying those most successful, least environmentally damaging, and easiest. Mechanical recycling is arguably the easiest and most common recycling technique. This study examines mechanical reprocessing technologies for construction materials, composite boards, additive manufacturing, and other applications. It also points out prevailing setbacks of these approaches and analyzes different solutions. Promising recycling processes are suggested for further investigation. dc.description: open access article

  • dc.title: The Bottle House: Upcycling Plastic Bottles to Improve the Thermal Performance of Low-Cost Homes dc.contributor.author: Onyenokporo, Nwakaego; Beizaee, Arash; Adekeye, Olutola; Oyinlola, M. A. dc.description.abstract: Due to the effects of climate change, diminishing natural resources, and continuous urbanization, there is an increasing need for buildings to be more sustainable. This study explores the potential of upcycling plastic waste for the sustainable construction of low-cost homes in developing countries and contributes to filling the gap in existing studies regarding qualitative results of the in situ performance of buildings made from upcycled materials. This study compares the Bottle house with conventional buildings made of mud and cement. This study seeks to encourage the adoption of the bottle house concept for affordable housing by conducting a thermal comfort survey of its occupants. To obtain the thermal sensation vote (TSV) of the occupants, thermal comfort questionnaires were developed based on the seven-point ASHRAE thermal sensation scale. Additionally, a Testo 480 multifunction meter, which comprised an anemometer, radiant globe thermometer, air thermometer, and relative humidity probe, was used to calculate the predicted mean vote (PMV) concurrently. From the results of the TSV, mean votes of the participants of −2.0, 2.0, and 2.4 were observed for the bottle house, mud houses, and cement houses, respectively. In comparison, adjusted PMV mean values of 1.9, 2.1 and 2.1 were recorded for the bottle house, mud houses, and cement houses, respectively. The TSV and PMV results both indicate that the occupants of the bottle house felt more thermally comfortable when compared to occupants in the other dwellings. This can be attributed to the measures incorporated during the construction of the bottle house. Furthermore, the use of a simulation study helped proffer solutions to further improve the indoor temperatures of the buildings used in this study. The results of this paper will provide evidence of the prospects of upcycling plastic waste for construction and its impact on occupant’s thermal comfort when compared to conventional building materials. dc.description: open access article

  • dc.title: Statistical analysis of solar thermal collectors in the Solar Keymark Database dc.contributor.author: Summ, Thorsten; Oyinlola, M. A.; Khattak, Sanober; Trinkl, Christoph; Zorner, Wilfred dc.description.abstract: Experimental, analytical, or numerical investigations are ordinarily conducted to reveal optimisation potential for solar thermal collectors. At the same time, the ‘Solar Keymark Database’ contains more than 2,000 test reports from certified laboratories featuring properties including thermal efficiency, dimensions, or optical properties. This dataset offers untapped potential for statistical analyses as an alternative optimisation approach. Hence, this paper aims to provide a) the first statistical findings of solar thermal collector properties listed in the Solar Keymark Database and b) insights into statistical relations between these properties. The key correlations observed from the analysis of flat-plate collectors were between efficiency and both gross height (R=0.30) and gross area (R=0.27). We concluded that preferable collector designs may be featured with larger area to height ratios. The analyses of evacuated tube collectors revealed a strong correlation between efficiency and transversal incidence angle modifier (R=-0.65) as a result from different tube spacing. It was noticeable that the quasi-dynamic test method reported significantly higher efficiencies (7.14 percentage points) for evacuated tube collectors, which should be carefully considered for future test procedures. Overall, the statistical analysis was in accordance with conventional bottom-up analyses and revealed insightful dependencies for the present collector data. dc.description: open access article

  • dc.title: Designing Sustainable Housing Using a User-Centred Approach: Paipe Case Study dc.contributor.author: Abbakyari, Maryam; Abuzeinab, Amal; Adefila, Arinola; Whitehead, Timothy; Oyinlola, M. A. dc.description.abstract: This paper presents a user-centred design method for developing prototype housing designs in the Paipe community of Abuja, Nigeria, addressing the challenges posed by rapid urbanisation in low- and middle-income countries (LMICs). UCD is a qualitative methodology that prioritises end users in the design process. This study employs qualitative methods to collect data through interviews, field surveys, and site analysis using a single case study. The UCD approach was used to develop a profile of residents and identify their needs and preferences. Thematic analysis of the data led to the creation of design specifications and prototype designs. Two design options were developed: a cluster design based on field survey observations and an enclosed modern design based on residents’ preferences. This study contends that user-centred design (UCD) is essential for sustainable housing provision in LMICs, aligning with the United Nations’ adequate-housing programme. dc.description: open access article

 

Research interests/expertise

  • Sustainable Development
  • Innovation
  • Circular Economy
  • Engineering for sustainable development
  • Plastic Waste Management in LMICs
  • Heat transfer
  • Energy in emerging economies
  • Sustainable energy
  • Transdisicplinary  for International Development

Areas of teaching

  • Energy Engineering
  • Thermodynamics
  • Heat transfer
  • Fluid dynamics
  • Renewable energy

Qualifications

PhD Heat Transfer in Solar Absorber Plates with Micro-Channels, University of Warwick, 2012-2015

MA Education Practice, 

MSc Renewable Energy Engineering, Kingston University, London, 2010-2011

BEng Mechanical Engineering, Ahmadu Bello Univeristy, Zaria, 2002-2008

 

¾Ã¾Ã¾«Æ· taught

ENGD2101 Thermodynamics and Heat Transfer

ENGT5141 Advanced Thermodynamics and Heat Transfer

Membership of professional associations and societies

Institution of Mechanical Engineers

Energy Institute

Professional licences and certificates

Chartered Engineer

Projects

Wealth from Waste: Value added products for Chennai Waste Pickers 

The aim of the project is to assess the feasibility of using local skills and materials to transform waste plastics into filaments for 3D printing, which is identified as a high value item.  This study will document the current waste materials available, and current applications for processing waste plastic and creating 3D print material. This research would set the groundwork for future studies and enable the development of new circular economy business models, underpinned with novel technological innovation. 

The project explores utilizing up-cycled and locally engineered materials to design affordable, self-sufficient homes for low income communities. The research aims to establish scientific methods to co-design a self-sufficient home, integrated with inhouse-electricity generation, in-house-water-purification system, earthquake resistant foundation and walls as well as ensuring it is socially acceptable within the community.  Therefore the project addresses 3 of the United Nations goals for sustainable development. 

Goal 6- clean water and sanitation

Goal 7- Affordable and clean energy

Goal 11- sustainable cities and communities,

Conference attendance

1. Oyinlola , M.A. and Shire, G.S.F. (2016) Heat Transfer in Low Reynolds Number Flows Through Miniaturized Channels. The 12th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics (HEFAT2016), Malaga, Spain

2. The 5th international conference on Heat Transfer and Fluid Flow in Microscale (HTFFM V), 22-26 April 2014, Marseille, France.  Analysis of temperature distribution in absorber plates with microchannels. Oyinlola, M.A., Shire, G.S.F. and Moss, R. W. (2014) Oral Presentation (Peer Reviewed)

3. The 10th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics (HEFAT2014), 14 - 16 July 2014, Orlando, USA. Investigating the effects of channel aspect ratio on fluid flow and heat transfer  in absorber plates with minichannels.  Oyinlola , M.A., Shire, G.S.F. , Moss, R. W. and Khaliji Oskouei, M (2014). Oral Presentation (Peer Reviewed)

4. The 13th UK Heat Transfer Conference (UKHTC), 2- 3 September 2013, London, UK. Investigating Heat transfer in Absorber plates with mini channels. Oyinlola, M.A. and Shire, G.S.F. (2013). Oral presentation (Peer Reviewed).

Current research students

Celine Ilo - Development of an optimization model for a digitally enabled Circular Plastics Economy (CPE) in Africa. October 2022 - Date

Teerapath Limboonruang - Optimizing heat transfer in a solar parabolic trough collector absorber. January  2022 - Date

Thorsten Summ - Theoretical and Experimental Investigation of a Cost-Optimised Large-Area Insulated Glass Flat-Plate Solar Thermal Collector October  2020 - Date

Huraira Umar Baba - Compressed Earth Block as a Sustainable Building Material: Challenges Confronting Its Use for Mass Urban Housing in Nigeria.  January  2020 - Date

Zainab Mohammed - Promoting The Relevance of Socio-Cultural Context in Sustainable Architecture - A Study of Mass Housing Design in Abuja, Nigeria. January  2020 - Date

    Externally funded research grants information

     

    Digital_Lyo, Innovate UK, Digitalisation and Automation of Medicines R&D and Manufacture   Role - Co-investigator May 2023 – April 2025,  £1,331,543

    Consolidation grant, British Council Innovation for African Universities Programme Role - Principal-investigator January  2023 – January  2024,   £50,000

    Garbage In Value Out (GIVO), Foreign, Commonwealth and Development Office (FCDO), Role – Co-Investigator, January 2022 - October 2024, £1,500,000

    Circular Plastic Economy Innovation Hub, British Council ( Innovation for African Universities Programme) Role - Principal-investigator September 2021 – September 2022, £60,000

    Digital Innovations for Transitioning to a Circular Plastic Economy (DITCh Plastic) EPSRC-GCRF. Role - Principal-investigator May 2020 – Oct 2021,  £146,238 - 

    Circular Plastic: Utilising frontier technology and user centred design to add value to plastic waste, facilitating entrepreneurship and employment EPSRC-GCRF. Role - Co-investigator Jun 2020 – Nov 2021,  £150,000 -

    Sustainability, inclusiveness and governance of mini-grids in Africa (SIGMA) - ESRC-GCRF. Role - Co-investigator March 2020 – March 2023,  £1,244,000 - 

    Assessing the informal waste sector contribution to Nepal’s circularity transition - Royal academy of engineering   Frontiers of Engineering for Development Seed funding  - Role -  Co investigator -Aug 2020 – Mar 2022, £20,000

    Wealth from Waste: Value added products for Chennai Waste Pickers - Royal academy of engineering   Frontiers of Engineering for Development Seed funding  - Role -  Principal investigator -June 2018 – June 2019, £30,000

    Blackout-Chasing: Tapping Peri-Urban Energy Perspectives, Preferences and Prospects, Royal academy of engineering   Frontiers of Engineering for Development Seed funding  - Role -  Co Investigator – February 2017 – February 2018, £20,000

    Developing local capacity for building affordable self-sufficient homes - Royal academy of engineering   Frontiers of Engineering for Development Seed funding  - Role -  Principal investigator – November 2016 – August 2017, £20,000 - 

    Internally funded research project information

    Principal Investigator: Low Cost Sustainable Home Prototype for Developing Countries (RIF Round 8, 01/08/16 - 31/07/17).Collaborators: Dr Tim Whitehead , Dr Amal Abuzeinab(¾Ã¾Ã¾«Æ·), Dr Farukh Farukh, Dr Karthikeyan Kandan

    Principal Investigator: Low Cost Sustainable Housing in Ahmedabad. Collaborators: Dr Tim Whitehead , Dr Amal Abuzeinab(¾Ã¾Ã¾«Æ·), Dr Farukh Farukh, Dr Karthikeyan Kandan

    Co Investigator: A perfect gap for SMILE: Smart Last-MILE Vaccine Cooling & Delivery System.Collaborators: Dr Karthikeyan Kandan,  Dr Farukh Farukh

    Co Investigator: Application of Terahertz Spectroscopy for In-Process Monitoring of Freeze-Drying of Pharmaceutical Products. Collaborators: Professor Geoff Smith, Dr.Ahmet Orun,

    Co Investigator:  Develop a device for monitoring the structure of the dry layer that develops in a product under-going the process of freeze-drying.  Collaborators: Professor Geoff Smith,  Dr.Ahmet Orun

    MSc Student projects Supervision

    Experimental study of a high performance solar flat plate collector

    Characterising a lab scale thermal energy store for concentrated solar thermal collectors

    Characterising the thermal performance of sustainable building components

    Developing a low cost parabolic trough collector for process heat

    Clean energy solution for powering and cooling off grid telecom shelters.

    CFD optimization of a solar Flat plate collector

    Heat and mass transfer analysis of a sustainable membrane distillation system

    Awards

    1. British Council Researcher Links travel grant to attend the China-UK Workshop on Achieving the Low Carbon City in Shanghai, China between 14-16 June 2019
    2. ¾Ã¾Ã¾«Æ· PhD high flyers Scholarship -  Investigating the potential of waste materials to construct low energy, thermally comfortable dwellings for low income communities - October 2018
    3. Vice Chancellors Future Research Leaders programme -  September 2018
    4. British Council Researcher Links travel grant to attend the workshop on Closed Loop Green Technologies for Rural Communities in Delhi India between 10-13 September 2017
    5. British Council Researcher Links travel grant to attend  the UK-China workshop on shaping low carbon energy future between 28-31 August 2017
    6. British Council Researcher Links travel grant to attend the workshop on Water, Sanitation and Energy Nexus Research Initiative, between13-16 September 2016.
    7. European Institute of Innovation and Technology Climate – KIC Pioneers into Practice programme. €8000 grant to contribute  to a low carbon product/service development in two European region April – October 2013

    Completed PhD Supervision

    Dr. Evangelos Sakellariou - Feasibility study and parametric analyses of Solar Assisted Ground Sourced Heat Pump systems for different European climate zones.  January  2017 – June 2020

    Dr. Longinus Ogugua - Application of Terahertz Spectroscopy in In-Process Monitoring of Freeze-Drying Process: An Optimization Study of Process Analytical Technology. January 2017 – April 2021

    Dr. Tunmise Timothy Ayodele - A Framework for Low carbon retrofitting of Residential Buildings in Nigeria. January  2017 -  December 2021 

     

    Dr. Salisu Isihak - Technology Options for Improving Access to Energy Services in Areas With Low Electricity Access Rate: A Geographic Information System (GIS) Based Approach to Electricity Planning in Nigeria. April  2018 -  December 2021

    Muyiwa Oyinlola 2021