Rabah Boukhanouf

Contact

• workRoom EH B5 David Wilson Millennium Eco House
  University Park
  Nottingham
  NG7 2RD
  UK
• work0115 84 67675
• fax0115 95 13159
• rabah.boukhanouf@nottingham.ac.uk
• https://www.nottingham.ac.uk/research/groups/buildings-energy-and-environment-research-group/people/

Biography

Dr. Boukhanouf is an Associate Professor with over 20 years of experience in teaching and research in energy efficiency and sustainable energy technologies, particularly in applications within the built environment. He holds a PhD in energy systems from the University of Manchester, UK. His teaching expertise includes developing, delivering, and convening modules on Sustainable and Energy Efficient Technologies for both undergraduate and postgraduate courses.

Dr. Boukhanouf's research interests span the wider field of sustainable building technologies. He has led research projects funded by public and private agencies, focusing on the design, computer simulation, and laboratory prototyping of passive and active energy systems. These systems include co- and tri-generation systems, adsorption and absorption systems, evaporative cooling systems, thermal storage, heat pumps, heat recovery, and advanced heat transfer enabling technologies.

Dr Boukhanouf has supervised over 20 PhD theses and has published extensively in journals, conferences, and book chapters. Additionally, he is named as the inventor on six UK and international patents. Dr. Boukhanouf is a Chartered Engineer, a member of CIBSE, and an Associate Member of ASHRAE.

Buildings, Energy and Environment Research Group.

Expertise Summary

Professional Expertise

• Design, modeling, and building/testing lab prototypes of energy-efficient systems and related enabling technologies.
• HVAC technologies, heat recovery systems, and advanced heat transfer technologies such as heat pipes and heat and mass exchangers.
• Developing small-scale heat and power generation systems.
• Computer tools and software packages, including Matlab-Simulink, Flow3D, Icepak-Fluent, IES, and EnergyPro, for simulation and optimization of prototype design, as well as performing technical and economic feasibility assessments of low-carbon technologies.

Teaching Summary

With more than two decades of teaching experience spanning both undergraduate and postgraduate levels, I am deeply passionate about instilling knowledge in Energy Efficient and Sustainable… read more

Research Summary

My primary research focuses on energy-efficient and sustainable technologies, particularly their application in the built environment. these include:

1. Design, Computer Modelling of solar assisted active cooling Systems
2. Hybrid active/passive cooling systems for built environment
3. Buildings energy consumption analysis for different climates

Selected Publications

• RABAH BOUKHANOUF, OMAR AMER, HATEM IBRAHIM and JOHN CALAUTIT, 2018. Design and performance analysis of a regenerative evaporative cooler for cooling of buildings in arid climates Building and Environment.
• MICHELE TUNZI, RABAH BOUKHANOUF, HONGWEI LI, SVEND SVENDSEN and ANTON IANAKIEV, 2018. Improving thermal performance of existing UK district heating: A case for temperature optimization Energy and Buildings. 158, 1576–1585
• RABAH BOUKHANOUF, ABDULRAHMAN ALHARBI, HATEM G IBRAHIM, OMAR AMER and MARK WORALL, 2017. Computer modelling and experimental investigation of building integrated sub-wet bulb temperature evaporative cooling system Applied Thermal Engineering. 115, 201–211
• MICHELE TUNZI, DORTE SKAARUP ØSTERGAARD, SVEND SVENDSEN, RABAH BOUKHANOUF and EDWARD COOPER, 2016. Method to investigate and plan the application of low temperature district heating to existing hydraulic radiator systems in existing buildings International Journal Energy. 113, Pages 413-421

• View all publications

I am also involved in many administrative roles within the department and university:

• MSc programmes coordinator
• Department Academic Integrity Officer
• Member of Teaching and Learning Committee
• Member of Health and Safety Committee

With more than two decades of teaching experience spanning both undergraduate and postgraduate levels, I am deeply passionate about instilling knowledge in Energy Efficient and Sustainable Technologies, particularly in their application within the Built Environment. My teaching duties include coordinating, delivering, and assessing the following modules:

1. ABEE 4095 (Building Services Technology) Module: This module is designed for students enrolled in Building Performance Engineering (PGT, MSc) and 4^th year Architecture Environment Engineering (UG) programs. It covers principles of heating systems (e.g., condensing boilers, combined heat and power, heat pumps), cooling systems (e.g., vapour compression and absorption chillers), ventilation heat recovery systems, and their environmental impacts. Throughout the module, students use IES-ve software for simulating these technologies in design case studies. Assessment is based on a written coursework, comprising group work and individual reports.
2. ABEE 4104 (Principles of Renewable Energy and Energy Efficient Systems) Module: Open to students across MSc programs in the Faculty of Engineering, this module explores fundamental principles of renewable energy systems and efficient heating/cooling systems with a focus on the built environment. Assessment includes a written examination and a laboratory report.
3. ABEE2039 (Electricity for the Built Environment) Module: This module is tailored for undergraduate students in years 1 of BEng/MEng Architectural Environment Engineering and MEng Architecture Environmental Design programs. It covers theoretical aspects of electrical systems and wiring practices in buildings according to BS7671.
4. BEng/MEng/MSc Research Projects: I supervise research projects for undergraduate and postgraduate students. Over the years, I have successfully supervised more than 100 dissertation projects focusing on energy systems and Low Carbon Building Technologies.

My approach to teaching emphasises practical application, critical thinking, and preparing students to address current challenges in sustainable building technologies.

Past Research

Examples of Research Projects:

1. Low Temperature Community Heat Networks (LTHN)

Context: Decarbonising the heat sector is pivotal in many countries' energy policy agendas for mitigating climate change and achieving carbon neutrality. This project aims to determine optimal supply and return temperatures for district heating (DH) networks and building heating systems. A novel methodology was developed to facilitate the implementation of low temperature district heating (LTDH) in existing buildings equipped with traditional high temperature radiators.

Read more Read more

2. Regenerative Evaporative Cooling

Context: In hot and dry climates, energy consumption for building thermal comfort can comprise up to 50% (rising to 70% during peak hours) of total power demand. Traditional vapour compression systems, which dominate this market, are energy intensive and their performance declines in elevated ambient temperatures. This research focuses on developing a novel configuration of heat pipe-based indirect evaporative cooling systems. The design integrates porous ceramic tubes as wetting media and tubular heat pipes in a compact modular heat and mass transfer exchanger (HPHMX). Experimental and theoretical results demonstrate its potential as a highly energy-efficient alternative to traditional systems, achieving an overall coefficient of performance (COP) of 6-17 with reduced water consumption.

Read more

3. Solid Desiccant Air Dehumidification

Context: Air relative humidity significantly affects thermal comfort in buildings. Conventional vapor compression air conditioning systems dehumidify air by cooling it below its saturation temperature, a highly energy-intensive process. This project aims to develop a compact and innovative air dehumidification system using enhanced heat and mass transfer processes that minimise the heat of adsorption during the adsorption cycle. A validated mathematical model describes the complex heat and mass transfer processes involved.

4. Low Temperature FPSE for Power Generation / Water Pumping in Remote Locations of Developing Countries

Context: Approximately 1.6 billion people worldwide lack access to electricity, primarily in rural regions of developing countries. This project focuses on developing a low temperature Free Piston Stirling Engine (FPSE) that utilises solar energy to generate mechanical power for electricity generation or water pumping. The research involves designing, modelling, and testing prototype units under controlled solar radiation conditions.

5. Solar Energy Driven Air Conditioning

Context: In hot climate regions, the widespread use of energy-intensive air conditioning systems for space cooling presents significant challenges related to energy consumption, power generation infrastructure, and occupant health and well-being. Coincidently, often these regions have abundance of solar resources and this research aims to develop low carbon cooling systems that employs solar energy to address the drawbacks of traditional vapour compression systems while enhancing thermal comfort and sustainability in buildings.

Future Research

1. One of the most difficult challenges in the built environment is reducing energy consumption in buildings, particularly for space heating and cooling. As the returns from increasingly stringent building standards for thermal envelopes diminish for both new constructions and renovations, the prevalent use of high-temperature heating systems necessitates a comprehensive rethink, especially in densely populated urban areas.

Research Focus: A multi-vector energy system could integrate low-temperature heat sources (e.g., renewable sources and waste heat from industrial processes), energy storage in the form of heat and power (e.g., storing excess renewable energy), and integrated energy transport networks linking and creating energy-sustainable communities.

2. In many countries with hot climates, the reliance on energy-intensive air conditioning for space cooling is increasingly recognised as unsustainable and a significant contributor to climate change. Therefore, research and development of sustainable building services are vital to the decarbonisation of the built environment.

Research Focus: Development of passive and low-carbon heating/cooling systems with novel materials, design configurations, components, computer modelling, and performance validation.

3. The building envelope forms a physical barrier that separate and protects the internal environment from external influences. It contributes to maintaining a stable and functional internal environment conducive to the processes occurring within- for example, it helps regulate temperature, humidity, and air quality, creating a comfortable and healthy indoor environment for users of the built space.

Research Focus: Designing elements of modern buildings envelope to be adaptive and responsive to environmental conditions. Techniques such as dynamic glazing, smart ventilation systems, and passive solar design optimize energy efficiency and occupant comfort.

I also welcome inquiries from potential PhD candidates from home, EU, and international countries interested in the following research areas: energy-efficient and sustainable technologies, passive and active heating and cooling systems, adsorption and absorption systems, heat pumps, low-carbon technologies, heat recovery, and HVAC technologies.

• KUR, A., DARKWA, J., CALAUTIT, J., BOUKHANOUF, R. and WORALL, M., 2023. Solid–Gas Thermochemical Energy Storage Materials and Reactors for Low to High-Temperature Applications: A Concise Review: Energies Energies. 16(2),
• DIK, A., KUTLU, C., OMER, S., BOUKHANOUF, R., SU, Y. and RIFFAT, S., 2023. An approach for energy management of renewable energy sources using electric vehicles and heat pumps in an integrated electricity grid system: Energy and Buildings Energy and Buildings. 294,
• DIK, A., OMER, S. and BOUKHANOUF, R., 2022. Electric Vehicles: V2G for Rapid, Safe, and Green EV Penetration: Energies Energies. 15(3),
• JONES, S., CHARLESWORTH, R., NAIK, K., CHARLESWORTH, T., O'DWYER, E., IANAKIEV, A., JOHNSON, J., BOUKHANOUF, R., GILLOTT, M., SELLWOOD, V. and ALOOR, J., 2021. A multi-energy system optimisation software for advanced process control using hypernetworks and a micro-service architecture: Energy Reports Energy Reports. 7, 167-175
• WEI, S., TIEN, P. W., CALAUTIT, J. K., BOUKHANOUF, R. and WU, Y., 2020. Equipment load detection using deep learning for building energy management
• WEI, S., TIEN, P. W., CALAUTIT, J. K., WU, Y. and BOUKHANOUF, R., 2020. Vision-based detection and prediction of equipment heat gains in commercial office buildings using a deep learning method: Applied Energy Applied Energy. 277,
• JONES, S. R., NAGHIYEV, E., GILLOTT, M., BOUKHANOUF, R. and WALKER, G., 2020. Community multi-vector heat and power systems: A use-case simulation study
• ALHARBI, A., ALMANEEA, A. and BOUKHANOUF, R., 2019. Integrated hollow porous ceramic cuboids-finned heat pipes evaporative cooling system: Numerical modelling and experimental validation: Energy and Buildings Energy and Buildings. 196, 61-70
• JONES, S. R., GILLOTT, M., BOUKHANOUF, R., WALKER, G., TUNZI, M., TETLOW, D., RODRIGUES, L. and SUMNER, M., 2019. A system design for distributed energy generation in low-temperature district heating (LTDH) networks: Future Cities and Environment Future Cities and Environment. 5(1),
• ALBOGAMI, S. M. and BOUKHANOUF, R., 2019. Residential building energy performance evaluation for different climate zones
• GHOULEM, M., EL MOUEDDEB, K., NEHDI, E., BOUKHANOUF, R. and KAISER CALAUTIT, J., 2019. Greenhouse design and cooling technologies for sustainable food cultivation in hot climates: Review of current practice and future status: Biosystems Engineering Biosystems Engineering. 183, 121-150
• MICHELE TUNZI, RABAH BOUKHANOUF, HONGWEI LI, SVEND SVENDSEN and ANTON IANAKIEV, 2018. Improving thermal performance of existing UK district heating: A case for temperature optimization Energy and Buildings. 158, 1576–1585
• JONES, S. R., BEARDMORE, J., GILLOTT, M., BOUKHANOUF, R. and WALKER, G., 2018. A control methodology for Building Energy Management Systems (BEMS) in heat networks with distributed generation
• JONES, S. R., BEARDMORE, J., GILLOTT, M., BOUKHANOUF, R. and WALKER, G., 2018. A control methodology for Building Energy Management Systems (BEMS) in heat networks with distributed generation
• ALSAADY, M, FU, R, YAN, Y, LIU, Z, WU, S and BOUKHANOUF, R, 2018. An experimental investigation on the effect of ferrofluids on the efficiency of novel parabolic trough solar collector under laminar flow conditions Heat Transfer Engineering. 1-9
• RABAH BOUKHANOUF, OMAR AMER, HATEM IBRAHIM and JOHN CALAUTIT, 2018. Design and performance analysis of a regenerative evaporative cooler for cooling of buildings in arid climates Building and Environment.
• RABAH BOUKHANOUF, ABDULRAHMAN ALHARBI, HATEM G IBRAHIM, OMAR AMER and MARK WORALL, 2017. Computer modelling and experimental investigation of building integrated sub-wet bulb temperature evaporative cooling system Applied Thermal Engineering. 115, 201–211
• SEAN JONES, MARK GILLOTT, RABAH BOUKHANOUF, GAVIN WALKER, MICHELE TUNZI, DAVID TETLOW and LUCELIA RODRIGUES, 2017. A system design for distributed energy generation in low-temperature district heating (LTDH) networks In: 16th international Conference on Sustainable Energy Technology, Bologna, Italy.
• OMAR E AMER, ELAMIN MOHAMED and HATEM IBRAHIM, 2017. Buildings' evaporative cooling by means of heat pipes and porous ceramic tubes In: 16th International Conference on Sustainable Energy Technology, Bologna, Italy.
• OMAR AMER and RABAH BOUKHANOUF, 2016. Experimental investigation of a novel heat pipe and porous ceramic based indirect evaporative cooler In: 2nd International Heat Transfer Symposium (IHTS 2016), Nottingham 26-29 June..
• SALEM GHOZZI and RABAH BOUKHANOUF, 2016. Preliminary testing results of a diaphragm FPSE In: 7th Heat Powered Cycles conference (HPC 2016), Nottingham, UK, 26 – 29 June.
• MICHELE TUNZI, DORTE SKAARUP ØSTERGAARD, SVEND SVENDSEN, RABAH BOUKHANOUF and EDWARD COOPER, 2016. Method to investigate and plan the application of low temperature district heating to existing hydraulic radiator systems in existing buildings International Journal Energy. 113, Pages 413-421
• ADRIAN KATILI, RABAH BOUKHANOUF and ROBIN WILSON, 2015. Space Cooling in Buildings in Hot and Humid Climates – a Review of the Effect of Humidity on the Applicability of Existing Cooling Techniques In: 14th International Conference on Sustainable Energy Technologies (SET2015), Nottingham, UK, 25 August - 27 September.
• MICHELE TUNZI, ED COOPER and RABAH BOUKHANOUF, 2015. A Carbon Neutral Small Scale District Heating In: 14th International Conference on Sustainable Energy Technologies (SET2015), Nottingham, UK, 25 August - 27 September.
• RABAH BOUKHANOUF, ABDULRAHMAN ALHARBI, OMAR AMER and HATEM IBRAHIM, 2015. Experimental and Numerical Study of a Heat Pipe Based Indirect Porous Ceramic Evaporative Cooler , international Journal of environmental Science and development. 6(2), 104-110
• GHOZZI, S. and BOUKHANOUF, R., 2015. Computer Modeling of a Novel Mechanical Arrangement of a Free-Piston Stirling Engine: 1793-821X Journal of Clean Energy Technologies. 3(2), 140-144
• BOUKHANOUF, R., IBRAHIM, G. H., ALHARBI, A. and KANZARI, M., 2014. Investigation of an evaporative cooler for buildings in hot and dry climates Journal of Clean Energy Technologies. 2(3), 221-225
• X.F. ZHENG, C.X. LIU, R. BOUKHANOUF, Y.Y. YAN*, W.Z. LI, 2014. Experimental study of a domestic thermoelectric cogeneration system Applied Thermal Engineering. 62(1), 69-79
• GHOZZI, S. and BOUKHANOUF, R., 2014. A Review of Small Scale Distributed Power Generation Technologies Using Solar Energy Driven Stirling Engine In: 5th International Conference on Environmental Science and Technology, 14-16 May 2014 Gdansk, Poland. V69. pp129-135
• ALHARBI, A., BOUKHANOUF, R., HABEEBULLAH, T. and IBRAHIM, H., 2014. Thermal Performance and Environmental Assessment of Evaporative Cooling Systems: Case of Mina Valley, Saudi Arabia In: World Academy of Science, Engineering and Technology, London 26 May 2014. Vol. 8. pp586-590
• GHOZZI S. and BOUKHANOUF, R., 2014. A review of Small Scale Distributed Power Generation Technologies Using Solar Energy In: Proceedings of the Global Conference on Engineering and Technology Management, Istanbul, Turkey. 326-336
• GHOZZI, S. and BOUKHANOUF, R., 2014. A new configuration of MTD Free Piston Stirling Engine for power generation In: International Stirling Engine Conference 16th. Bilbao, spain.
• M ALSAADY, R FU, B LI, BOUKHANOUF, R and Y YAN, 2014. Thermo-physical properties and thermo-magnetic convection of Ferrofluid, Applied Thermal Engineering. Applied Thermal Engineering.
• ALSAADY, M., FU, R., LI, B., BOUKHANOUF, R. and YAN, Y., 2014. Thermo-physical properties and thermo-magnetic convection of ferrofluid: Applied Thermal Engineering Applied Thermal Engineering.
• AMER, O., BOUKHANOUF, R. and IBRAHIM, H., 2014. A Review of Evaporative Cooling Technologies In: 2014 APCBEES Nottingham Conferences Proceeding. 119-125
• HAO, L and BOUKHANOUF, R, 2014. Combined heat and power generation from biomass. In: LIJUN WANG, ed., Sustainable Bioenergy Production: Sustainable Bioenergy Processing CRC PRESS. p417-443
• BOUKHANOUF, R., ALHARBI, A., IBRAHIM, H. G. and KANZARI, M., 2013. INVESTIGATION OF A SUB-WET BULB TEMPERATURE EVAPORATIVE COOLER FOR BUILDINGS In: Sustainable Building and Construction Conference, Coventry University, 2013.
• KANZARI M, BOUKHANOUF R and IBRAHIM H, 2013. Mathematical Modeling of a Sub-Wet BulbTemperature Evaporative Cooling Using Porous Ceramic Materials International Journal of Materials Science and Engineering. 7(12), 235-241
• S. GHOZZI and R. BOUKHANOUF, 2013. A review of Small Scale Distributed Power Generation Technologies Using Solar Energy Driven Stirling Engine: Hong Kong In: 12th International Conference on Sustainable Energy technologies (SET-2013).
• BOUKHANOUF, R. and HADDAD, A., 2013. Simulation and experimental investigation of thermal performance of a miniature flat plate heat pipe Advances in Mechanical Engineering. 2013, 474935
• BOUKHANOUF, R., 2011. Small combined heat and power (CHP) systems for commercial buildings and institutions: Small and Micro Combined Heat and Power
• BOUKHANOUF, R., 2011. Small combined heat and power (CHP) systems for commercial buildings and institutions. In: BEITH, R., ed., Small and micro combined heat and power (CHP) systems: advanced design, performance, materials and applications Woodhead. 365-394
• BOUKHANOUF, R. and HADDAD, A., 2010. A CFD analysis of an electronics cooling enclosure for application in telecommunication systems Applied Thermal Engineering. 30(16), 2426-2434
• BOUKHANOUF, R., GODEFROY, J., RIFFAT, S.B. and WORALL, M., 2008. Design and optimisation of a small-scale tri-generation system International Journal of Low-Carbon Technologies. 3(1), 32-43
• GODEFROY, J., BOUKHANOUF, R. and RIFFAT, S., 2007. Design, testing and mathematical modelling of a small-scale CHP and cooling system (small CHP-ejector trigeneration) Applied Thermal Engineering. 27(1), 68-77
• BOUKHANOUF, R. and RIFFAT, S.B., 2007. Theoritical and experimental investigation of a two-bed adsorption system using a novel adsorber configuration International Journal of Green Energy. 4(2), 119-132
• BOUKHANOUF, R. and SUPASUTEEKUL, A., 2007. Theoretical analysis of an integrated thermoelectric-absorption cooling system International Journal of Low Carbon Technologies. 2(1), 52-64
• BOUKHANOUF, R., HADDAD, A., NORTH, M.T. and BUFFONE, C., 2006. Experimental investigation of a flat plate heat pipe performance using IR thermal imaging camera Applied Thermal Engineering. 26(17-18), 2148-2156
• HADDAD, A., BOUKHANOUF, R. and BUFFONE, C., 2006. Testing of a Vapour Chamber Used in Electronics Cooling In: 9th International Conference on Advanced Computational Methods in Heat Transfer. 269-278
• GODEFROY,J., BOUKHANOUF,R. and RIFFAT,S., 2006. Testing, Simulation and Analysis of Small-scale Trigeneration System In: CIBSE National Conference.
• GILLOTT,M., JIANG,L., BOUKHANOUF,R. and LI,Z., 2006. Experimental Investigation of Revolving Heat Pipes for Enhanced Thermoelectric Heat Pumping In: 5th International Conference on Sustainable Energy Technologies (SET2006), 30 August – 1 September 2006.
• HADDAD, A., BOUKHANOUF, R. and BUFFONE, C., 2006. Testing of vapour chamber used in electronics cooling. In: SUNDEN, B. and BREBBIA, C. A., eds., Advanced Computational Methods in Heat Transfer IX 53. 269-278
• GODEFRY J, BOUKHANOUF R and RIFFAT S., 2006. Small-scale Trigeneration: A theoritical and experimental study In: 5th International Conference on Sustainable Energy Technologies.
• RIFFAT, S.B., ZHAO, X., BOUKHANOUF, R. and DOHERTY, P.S., 2005. Theoretical and experimental investigation of a novel hybrid heat-pipe solar collector International Journal of Green Energy. 1(4), 515-542
• HADDAD,A., BOUKHANOUF,R., NORTH,M. and BOUFFONE,C., 2005. Vapour Chamber HP performance as seen through an IR camera In: 4th International conf. on Sustainable Energy Technology.
• RIFFAT, S.B., ZHAO, X. and DOHERTY, P.S., 2004. Investigation of a Novel Hybrid Heat Pipe Solar Collector/CHP System In: 3rd International Conference on Sustainable Energy Technologies.
• BOUKHANOUF,R., GODEFROY,J. and RIFFAT,S.B., 2004. Small Scale CHP-Ejector cooling System In: 3rd International Conference on Sustainable Energy Technologies.
• SHUTTLEWORTH, R. AND BOUKHANOUF, R, 2002. Clamping arrangements for diaphragms in Stirling Engines: Patent GB2367098 01/01/1900 00:00:00
• SHUTTLEWORTH, R. AND BOUKHANOUF, R., 2002. Improvements in linear alternators for use with Stirling Engines: Patent WO0227899 01/01/1900 00:00:00
• SHUTTLEWORTH, R. AND BOUKHANOUF, R., 2002. Improvement in Free Piston Stirling Engines: Patent WO0227175 01/01/1900 00:00:00
• SHUTTLEWORTH, R. AND BOUKHANOUF, R., 2002. Improvements in Stirling Engines with flexible diaphragms: Patent WO0227176 01/01/1900 00:00:00
• SHUTTLEWORTH, R. AND BOUKHANOUF, R., 2002. Spring support systems for a displacer piston of a Stirling Engine: Patent GB2367335 01/01/1900 00:00:00 (In Press.)
• BOUKHANOUF,R., RIFFAT,S.B. and SHUTTLEWORTH,R., 2001. Diaphragm stirling engine design In: 2nd International Heat Powered Cycles Conference.
• RIFFAT,S.B. and BOUKHANOUF,R., 2001. Design and Testing of a Compact Heat Pipe Absorber System In: International Conference on Energy Conversion and Application. 949-954
• BOUKHANOUF, R. AND SHUTTLEWORTH, R., 1998. A Stirling Engine and a Combined Heat and Power system using a Stirling engine: Patent GB2298903 01/01/1900 00:00:00