Your search keyword '"Elkarmoty, Mohamed"' showing total 3 results

1. 3D modeling of discontinuities using GPR in a commercial size ornamental limestone block

Author

Elkarmoty, Mohamed, Tinti, Francesco, Kasmaeeyazdi, Sara, Bondua, Stefano, and Bruno, Roberto

Subjects

Antennas (Electronics) -- Usage, Blocks (Building materials) -- Research -- Properties, Deterministic models -- Analysis, Ground penetrating radar -- Usage, Business, Construction and materials industries

Abstract

ABSTRACT Discontinuities can be hidden or out-cropping with variable aperture sizes in rock media. Obtaining deterministic geo-spatial features of discontinuities inside quarried ornamental stone blocks is a decision-making tool for [...]

Published

2018

2. EXPERIMENTAL CALIBRATION OF UNDERGROUND HEAT TRANSFER MODELS UNDER A WINERY BUILDING IN A RURAL AREA

Author

Patrizia Tassinari, Francesco Tinti, Alberto Barbaresi, Daniele Torreggiani, Stefano Bonduà, Mohamed Elkarmoty, Marco Ferrari, Tinti, Francesco, Barbaresi, Alberto, Ferrari, Marco, Elkarmoty, Mohamed, Torreggiani, Daniele, Tassinari, Patrizia, and Bonduà, Stefano

Subjects

lcsh:TN1-997, Thermal impact of buildings, 020209 energy, Context (language use), 02 engineering and technology, 7. Clean energy, Civil engineering, Natural (archaeology), ground temperature, ING-IND/28 Ingegneria e sicurezza degli scavi, Lead (geology), AGR/10 Costruzioni rurali e territorio agroforestale, shallow geothermal energy, heat transfer via the ground, Urbanization, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, lcsh:Mining engineering. Metallurgy, Water Science and Technology, Hydrogeology, business.industry, Geothermal energy, lcsh:QE1-996.5, Geology, Geotechnical Engineering and Engineering Geology, Renewable energy, lcsh:Geology, General Energy, Geography, 13. Climate action, Heat transfer, General Earth and Planetary Sciences, Thermal impact of buildings, ground temperature, shallow geothermal energy, heat transfer via the ground, business

Abstract

Površinske temperature i hidrogeološki uvjeti ključni su parametri u mnogim inženjerskim primjenama poput izgradnje podruma i drugih podzemnih prostorija te kod procjene plitkoga geotermalnog potencijala. Međutim, teško je otkriti prirodne, tj. izvorne, toplinske uvjete, poglavito u plitkim, podzemnim, gradskim područjima. Razlog tomu je ljudski utjecaj. Stoga procjena toplinskih varijabli u takvim uvjetima postaje sve važnija, jer raste i uporaba geotermalne energije, posebice kao obnovljivoga izvora. Cilj rada bio je prikazati trodimenzionalni model takvih uvjeta, kalibriran eksperimen-talnim podatcima. Tako je opisano ponašanje topline u podzemlju pod utjecajem građevina u odabranome seoskom području Italije. Temperaturne varijacije u prostoru i vremenu ovisile su o površinskim stijenama (i/ili tlu), klimi i svojstvima same građevine. Svi ti parametri razmatrani su unutar modela sezonskih promjena temperatura. Rezultati modela u područjima niske urbanizacije neizravno upućuju kako promatrani parametri imaju veliku važnost u visoko urbaniziranim područjima. Nadalje takvi rezultati mogu se uključiti u buduće modele plitkoga podzemlja i razmjenji-vača topline te unaprijediti kako njih, tako i opću uporabu geotermalne energije. Ground temperature and hydrogeological conditions are key parameters for many engineering applications, such as the design of building basements and underground spaces and the assessment of shallow geothermal energy potential. Especially in urban areas, in the very shallow depths, it is difficult to find natural undisturbed underground thermal conditions because of anthropic interventions. The assessment of underground behaviour in disturbed conditions will become more and more relevant because of increasing awareness to energy efficiency and renewable energy topics. The purpose of this paper is to show a three-dimensional representation - based on models calibrated on experimental data - of the underground thermal behaviour affected by a building in a rural area in Italy. Temperature varies in space and time and it depends on ground, climate and building characteristics, and all these parameters are taken into account by the seasonal periodic modelling implemented. The results obtained in a context of low urbanization indirectly suggest the importance of these effects in dense urban areas; taking greater account of these aspects could lead to improvements in the design of underground spaces and geo-exchanger fields for geothermal energy exploitation.

Published

2017

3. Suitability Evaluation of Specific Shallow Geothermal Technologies Using a GIS-Based Multi Criteria Decision Analysis Implementing the Analytic Hierarchic Process

Author

Stefano Bonduà, Francesco Tinti, Mohamed Elkarmoty, Sara Kasmaee, Villiam Bortolotti, Tinti, Francesco, Kasmaee, Sara, Elkarmoty, Mohamed, Bonduà, Stefano, and Bortolotti, Villiam

Subjects

ground source heat pump, Control and Optimization, Geographic information system, Computer science, Process (engineering), 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, lcsh:Technology, 7. Clean energy, Construction engineering, ING-IND/28 Ingegneria e sicurezza degli scavi, Thermal, 0202 electrical engineering, electronic engineering, information engineering, geographic information system, Electrical and Electronic Engineering, mapping, Engineering (miscellaneous), Geothermal gradient, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, Geothermal energy, analytic hierarchic process, ING-IND/30 Idrocarburi e fluidi del sottosuolo, Multiple-criteria decision analysis, analytic hierarchic proce, business, shallow geothermal energy, Energy (miscellaneous)

Abstract

The exploitation potential of shallow geothermal energy is usually defined in terms of site-specific ground thermal characteristics. While true, this assumption limits the complexity of the analysis, since feasibility studies involve many other components that must be taken into account when calculating the effective market viability of a geothermal technology or the economic value of a shallow geothermal project. In addition, the results of a feasibility study are not simply the sum of the various factors since some components may be conflicting while others will be of a qualitative nature only. Different approaches are therefore needed to evaluate the suitability of an area for shallow geothermal installation. This paper introduces a new GIS platform-based multicriteria decision analysis method aimed at comparing as many different shallow geothermal relevant factors as possible. Using the Analytic Hierarchic Process Tool, a geolocalized Suitability Index was obtained for a specific technological case: the integrated technologies developed within the GEOTeCH Project. A suitability map for the technologies in question was drawn up for Europe.

Published

2018