J.B. Ramos scite author profile

a b s t r a c tA novel flat heat pipe design has been developed and utilised as a building envelope and thermal solar collector with and without (PV) bonded directly to its surface. The design of the new solar collector has been validated through full scale testing in Cardiff, UK where solar/thermal, uncooled PV and PV/T tests were carried out on three identical systems, simultaneously. The tests showed a solar/thermal energy conversion efficiency of around 64% for the collector with no PV and 50% for the system with the PV layer on it. The effect of cooling on the solar/electrical energy conversion efficiency was also investigated and an efficiency increase of about 15% was recorded for the cooled PV system due to the provided homogenous cooling. The new flat heat pipe solar collector is given the name "heat mat" and, in addition to being an efficient solar collector type, it is also designed to convert a building envelope materials to become energy-active. A full size roof that utilise this new building envelope material is reported in this paper to demonstrate the way this new collector is integrated as a building envelope material to form a roof. A thermal absorption test, in a controlled environment, from the ambient to the heat mat with no solar radiation is also reported. The test has proved the heat mat as an efficient thermal absorber from the ambient to the intermediate fluid that deliver the heat energy to the heat pump system.

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Experimental and numerical investigation of a cross flow air-to-water heat pipe-based heat exchanger used in waste heat recovery

Ramos

Chong

Jouhara

2016

International Journal of Heat and Mass Transfer

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This paper applies CFD modelling and numerical calculations to predict the thermal performance of a cross flow heat pipe based heat exchanger. The heat exchanger under study transfers heat from air to water and it is equipped with six water-charged wickless heat pipes, with a single-pass flow pattern on the air side (evaporator) and two flow passes on the water side (condenser). For the purpose of CFD modelling, the heat pipes were considered as solid devices of a known thermal conductivity which was estimated by experiments conducted on the exact same heat pipe configuration under an entire testing range. The CFD results were compared with the experimental and the numerical results and it was found that the modelling predictions are within 10% of the experimental results. Keywordsheat pipe; heat exchanger; CFD modelling; heat recovery. Nomenclature π Pi ρ Density σ Surface tension Subscripts act Actual b Boiling c Condenser cd/cond Condensation e Evaporator h Heat transfer coefficient i Inside in inner k Conduction l Liquid phase min Minimum n Number of pipes o Outside s Surface sat Saturation t Total ts thermosyphon

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Performance evaluation of a multi-pass air-to-water thermosyphon-based heat exchanger

Mroue

Ramos

Wrobel

et al. 2017

Energy

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Development and validation of a TRNSYS type to simulate heat pipe heat exchangers in transient applications of waste heat recovery

Brough

Ramos

Delpech

et al. 2021

International Journal of Thermofluids

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J.B. Ramos

The performance of a novel flat heat pipe based thermal and PV/T (photovoltaic and thermal systems) solar collector that can be used as an energy-active building envelope material

Experimental and numerical investigation of a cross flow air-to-water heat pipe-based heat exchanger used in waste heat recovery

Performance evaluation of a multi-pass air-to-water thermosyphon-based heat exchanger

Development and validation of a TRNSYS type to simulate heat pipe heat exchangers in transient applications of waste heat recovery

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