PVAdpat
In the PVadapt project, combined innovations in modular construction and modular photovoltaics will lead to the creation of an adaptable and multifunctional building integrated photovoltaics (BIPV) system of substantially lower cost than conventional solutions available today.
A flexible and low cost production of photovoltaics in automated processes will be employed to produce PV modules as well as elements with integrated heat pipe-based heat recovery.
These active energy components will be combined with passive and sustainable components with structural, mechanical, thermal and other functions to produce prefabricated BIPV modules. Indeed, prefabrication will be a key element in order to achieving cost reductions, as well as guaranteeing quick installation with low disruption.
The project will also employ a sustainable by design philosophy with all the parts of the system being recyclable/reusable and waste-based raw material supply chains will be established. A Smart Envelope System featuring grid connectivity, load prediction and shifting and intelligent energy management systems with predictive algorithms will be integrated in the PVadapt turn-key BIPV system.
The two-component integrated BIPV system will be produced separately and an assembly/joining method will be developed for on-site integration. The Structural & Thermal components features a construction grade steel frame and a Thermal Component based on three main material formulations. The second part of the system consists of a Heat Mat bonded to PV modules. The combination of the two will produce “building blocks” of sufficient customization to allow components suitable for roof and façade installations, as well as new construction.
Professor Hussam Jouhara - Having worked in academia and the industry, Hussam has unique expertise in working on applied heat exchangers and energy-related research activities with direct support from research councils and various UK and international industrial partners. He has extensive expertise in designing and manufacturing various types of heat exchangers, including heat pipes and heat pipe-based heat exchangers for low, medium and high temperature applications. His work in the field of heat pipe based heat exchangers resulted in novel designs for recouperators, steam generators & condensers and flat heat pipes. These have been implemented across various industries including, but not limited to: food, electronics thermal management and low to high industrial waste heat recovery and Energy from Waste. Over the last few years, he has successfully managed to achieve new designs for industrial waste heat recovery and many thermal systems that have enhanced the performance of various industrials processes in the UK, Europe and world-wide. He is also an elected member of the Senate of СʪÃÃÊÓƵ London.
Throughout his academic and industrial career, he received over £14.1M research funding from various UK/EU based research councils (RCUK & EU H2020) and from British and European industrial partners. He is a published author of academic books with many filed patents in areas related to heat pipes engineering and manufacturing and Energy from Waste systems. He is a Chartered Engineer and Fellow of both Engineers Ireland (Ireland) and IMechE (UK).
Hussam is the founder and the Head of the Heat Pipe and Thermal Management Research Group in СʪÃÃÊÓƵ London.
Major projects as a Principal Investigator in Brunel:
Technical Director of: Innovative WAter recoverY Solutions (iWAYS) - H2020
Technical Coordinator of: Heat Pipe Technologies for Industrial Applications (ETEKINA) - H2020
Technical Coordinator of: Prefabrication, Recyclability and Modularity for cost reductions in Smart BIPV systems (PVADAPT) - H2020
Climate and cultural based design and market valuable technology solutions for Plus Energy Houses. (CULTRAL-E) - H2020
Innovative Polymer-Based Composite Systems for High-Efficient Energy Scavenging And Storage (InComEss) - H2020
Design for Resource and Energy efficiency in cerAMic kilns (DREAM) - H2020
STEP – Heat Pipe Design Challenge for Hot Plasma Cooling - UKAEA
High-Power and High-Energy Battery Systems with Integrated Structural Thermal Management for Heavy-Duty Applications - Innovate UK
Roadmap for Industry - Academia collaboration between Universidad Pontificia Bolivariana, Argos Cement Company, СʪÃÃÊÓƵ London and Econotherm in heat recovery in large industrial systems - Royal Academy of Engineering
Conceptual Feasibility of a Heat Pipe as a Structural and Thermal Member in an Automotive Battery Pack Design - Innovate UK
IMproving Power bAttery Cooling Technologies (IMPACT) - Innovate UK
Room Temperature Passive Heat Recovery with Heat Pipe - Innovate UK
Controllable bidirectional heat recovery device - Knowledge Transfer Network
Erva Mate Drying - Innovate UK
Active refrigeration shelf with thermal storage - Innovate UK
EDUCATION
Ph. D. (Mechanical Engineering), 2004, University of Manchester, UK
PROFESSIONAL CREDENTIALS
Institution of Mechanical Engineers (UK): Chartered Member and Fellow (CEng, FIMechE)
CIBSE (UK): Fellow (CEng FCIBSE)
Engineers Ireland: Chartered Engineer and Fellow (CEng, IntPE, FIEI)
Institute of Refrigeration (UK): Member (M.Inst.R)
TEACHING CREDENTIALS
P. G. Cert. in Higher Education, 2010, СʪÃÃÊÓƵ, Uxbridge, UB8 3PH, UK.
Senior Fellow of the Higher Education Academy (SFHEA), 2017, UK