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91	Αλληλεπίδραση υποκατεστημένων τριαζινών στη διεπιφάνεια εδάφους - ύδατος Κωβαίος, Ηλίας 03 March 2008 (has links) Στην εργασία αυτή μελετήθηκε η ρόφηση και η εκρόφηση του παρασιτοκτόνου ατραζίνη (atrazine) σε πρότυπες εδαφικές ουσίες καθώς και σε ένα τυπικό δείγμα εδάφους, τόσο σε αντιδραστήρες διαλείποντος έργου (batch) όσο και σε πληρωμένες κλίνες (bed). Ως πρότυπες ουσίες επιλέχθηκαν η πυριτία (silica-gel, SiO2), η αλούμινα (γ-alumina, Al2O3), το ανθρακικό ασβέστιο (calcite, CaCO3) και το χουμικό οξύ (humic acid). Η ατραζίνη ροφείται σημαντικά στο χουμικό οξύ στην πυριτία και στο έδαφος, όμως βρέθηκε ότι έχει πολύ μεγαλύτερη συγγένεια για το χουμικό οξύ σε σύγκριση με την πυριτία. Η ατραζίνη δεν έδειξε να ροφείται στη γ-αλούμινα και το CaCO3, ανεξαρτήτως από τις πειραματικές συνθήκες που χρησιμοποιήθηκαν. Σε όλες τις περιπτώσεις, η κινητική μελέτη έδειξε δύο διακριτά στάδια: ένα πρώτο γρήγορο στάδιο ρόφησης της ατραζίνης, διαδεχόμενο από ένα δεύτερο πιο αργό στάδιο. Η κινητική της ρόφησης υπακούει ικανοποιητικά στο μοντέλο Elovich. Στα χρονικά πλαίσια που μελετήθηκε η ρόφηση και η εκρόφηση, η διεργασία είναι αντιστρεπτή και η ατραζίνη εκροφείται ποσοτικά. Οι ισόθερμοι ρόφησης της ατραζίνης λήφθηκαν σε διαφορετικές τιμές ιοντικής ισχύος, pH και θερμοκρασίας και υπακούουν στο μοντέλο Freundlich. Σε όλες τις περιπτώσεις που μελετήθηκαν, η αύξηση της ιοντικής ισχύος του διαλύματος προκάλεσε αύξηση της ροφημένης ποσότητας της ατραζίνης. Η ρόφηση της ατραζίνης μειώνεται καθώς το pH του διαλύματος αυξάνεται. Όσον αφορά στην πυριτία, η ρόφηση της ατραζίνης φαίνεται ότι γίνεται κυρίως μέσω δεσμών υδρογόνου με τις υδροξυλομάδες της επιφάνειας. Όσον αφορά στο χουμικό οξύ, το σημαντικότερο ρόλο στη ρόφηση παίζει η διάχυση της ατραζίνης προς το εσωτερικό του στερεού όπου η ρόφηση επιτυγχάνεται κυρίως μέσω υδρόφοβων αλληλεπιδράσεων. Η προσρόφηση της ατραζίνης στην πυριτία αυξάνεται σημαντικά καθώς αυξάνεται η θερμοκρασία του διαλύματος, μια τάση που δεν παρατηρείται κατά τη ρόφηση της ατραζίνης στο χουμικό οξύ. Η θερμοδυναμική ανάλυση έδειξε ότι η ρόφηση στα μοντέλα εδάφους είναι φυσική αφού παρατηρήθηκαν τιμές της ενθαλπίας ρόφησης στην περιοχή των 10 kJ mol-1. Οι λαμβανόμενες ισόθερμοι ρόφησης από τα πειράματα σε πληρωμένες κλίνες ήταν σε καλή συμφωνία με αυτές που λήφθηκαν από τα πειράματα στους αντιδραστήρες διαλείποντος έργου. Η παρουσία χουμικού οξέος στις κλίνες προκαλεί με το χρόνο δραστική μείωση της διαπερατότητας. / Adsorption and desorption of the herbicide atrazine was investigated on the principal inorganic constituents of soil, as well as on a typical Greek soil sample. The studies were conducted both in batch, stirred reactors and in packed beds. Silica-gel (SiO2), γ-alumina (Al2O3) and calcite (CaCO3), were selected as model inorganic substances. Humic acid was selected as a model substance representative of the organic part of soil. Significant adsorption of atrazine was measured on the humic acid, silica and on the soil suspensions in electrolyte solutions. Atrazine exhibited higher affinity for humic acid rather than for silica. Atrazine did not adsorb on γ-alumina and on CaCO3 regardless the experimental conditions (pH range or total solid available for adsorption). In all cases, kinetic results have shown two distinct features: a first, fast sorption step, followed by a second, slow step. The kinetics data of atrazine uptake on both substrates yielded satisfactory fit to the Elovich model. Atrazine was found to be completely desorbed from both the humic acid and the silica substrates. Adsorption isotherms for atrazine were obtained at different values of ionic strength, pH and temperature. The adsorption data gave the best fit to the Freundlich model. In all cases investigated, the amount of adsorbed atrazine increased upon increasing the ionic strength of the solution. The adsorption of atrazine decreased with increasing solution pH. The adsorption of atrazine on silica was primarily dominated by the formation of hydrogen bonds with the surface hydroxyl groups. In the case of humic acid, the diffusion of atrazine to the interior of the solid seemed to play the most significant role. Inside the organic substance particles, sorption took place mainly through hydrophobic interactions. The sorption of atrazine on silica surface increased considerably with increasing temperature, a trend not found in the case of humic acid. The thermodynamic analysis yielded adsorption energy values of the order of 10 kJ mol-1 suggesting physical adsorption. The isotherms obtained from the packed bed experiments were in a good agreement with those obtained from batch experiments. Finally, humic acid grains, mixed with silica in packed beds, were found to change morphology upon hydration which resulted to swelling. The humic substances clogged a large portion of the pores of the packed beds, decreasing drastically their permeability. Ατραζίνη Προσρόφηση σε πυριτία Πληρωμένες κλίνες 668.654 Atrazine Adsorption isotherms Adsorption on silica Adsorption on humic substances Hydrophobic interactions Electrostatic interactions Packed bed reactors Thermodynamics of adsorption
92	パイロットスケ―ルの気液並流充填層内の局所液分布の解析中村, 正秋 03 1900 (has links) 科学研究費補助金研究種目:一般研究(C) 課題番号:62550695 研究代表者:中村正秋研究期間:1987-1988年度液膜流局所液分布トリクルベッド気液並流充填層潅液充填層灌液充填層 Trickle bed reactor Gas-liquid cocurrent flow Packed bed reactor
93	Kolloidabscheidungen im Tiefenfilter Waske, Anja 13 February 2012 (has links) (PDF) Die vorliegende Arbeit zeigt die Anwendung tomographischer und bildverarbeitender Methoden an Partikelabscheidungen in Filterschüttungen. Im betrachteten Tiefenfilter wird dabei der besonders praxisrelevante Fall abstoßender Wechselwirkung zwischen der Filterkorn-Oberfläche und Kolloid realisiert. Die durch Röntgentomographie erzeugten dreidimensionalen Bilddatensätze werden unter Zuhilfenahme eines einfachen geometrischen Modells ausgewertet, wodurch Aussagen zur lokalen Position der Kolloidabscheidungen an einem repräsentativen Filterkorn getroffen werden können. Die experimentellen Ergebnisse werden hinsichtlich der derzeit bekannten Filtertheorie diskutiert. Tiefenfiltration Kolloide Wasseraufbereitung Röntgentomographie Schüttbett Filterzelle Abscheidung Bildverarbeitung Straining deep bed filtration colloid water treatment X-ray tomography packed bed filter cell deposition image analysis straining ddc:620 rvk:ZL 7150
94	Valorisation enzymatique des huiles végétales Severac, Etienne 21 October 2010 (has links) Cette étude a porté sur le développement de procédés continus performants de production d’esters à partir de l’huile de tournesol hautement oléique vierge ou raffinée en réacteurs enzymatiques à lit fixe, très productifs et stables dans le temps. Un procédé de transestérification continue en réacteur à lit fixe utilisant Novozyme 435 (lipase B de candida antarctica immobilisée sur Lewatit VP OC 1600), biocatalyseur non régio-spécifique, a été optimisé pour transformer de l’huile vierge de tournesol hautement oléique en esters butyliques. Les phénomènes de partition des composés polaires (phospholipides présents initialement dans l’huile, du glycérol co-produits etc.) entre milieu réactionnel et support enzymatique ont été gérés grâce à l’utilisation de tert-butanol, un solvant polaire. Les conditions assurant le meilleur compromis entre stabilité, productivité et rendements de production d’esters ont été obtenues pour une concentration initiale en huile de 500mM et un rapport molaire entre substrats de 5. De telles conditions permettent une productivité de 13,8 tonnes.an-1.kg de Novozyme 435-1. Le réacteur ainsi dimensionné s’est avéré stable pendant 50 jours consécutifs sans aucune perte d’activité, permettant de minimiser le coût élevé de l’enzyme. L’originalité du procédé est l’utilisation d’huiles vierges contenant des antioxydants naturels (phospholipides, tocophérols etc.). Nous avons démontré que ces composés mineurs sont préservés au cours du procédé de transestérification. Cela confère aux esters formés de remarquables propriétés de résistances à l’oxydation.La pertinence économique du procédé a été améliorée grâce au développement d’un nouveau biocatalyseur sur support hydrophobe (l’Accurel MP) permettant d’éviter toute adsorption de composés polaires. Une analyse économique du procédé (maximisation de la valeur nette actualisée) a permis de rationaliser les conditions optimales d’immobilisation. Une économie de l’ordre de 50% sur les coûts générés tout au long du temps de vie du procédé a pu ainsi être obtenue. En conditions de transestérification continue, aucune différence dans le profil de produits par rapport à Novozyme 435 n’a été observée. Finalement, une alternative à la transestérification directe de l‘huile a été envisagée. Une première phase d’hydrolyse de l’huile est suivie d’un procédé de récupération des acides gras qui sont dans un second temps estérifiés enzymatiquement. Pour réaliser cette dernière étape, le meilleur système réactionnel s’est avéré être le milieu sans solvant. Un réacteur continu d’estérification de l’acide oléique avec l’isobutanol a été optimisé. Cela a permis un réacteur stable pendant 54 jours consécutifs et respectant les critères des biotechnologies blanches. Une productivité annuelle de 126 tonnes.kg de Novozyme 435-1 a été atteinte. Cela représente une amélioration de la productivité d’un facteur 9,2 par rapport au procédé de transestérification développée précédemment / This work focused on the development of efficient continuous processes for the production of esters from crude or refined high oleic sunflower oil with enzymatic packed bed reactor presenting high levels of productivity and stability. A process of continuous transesterification in packed bed reactor using Novozyme 435 (lipase B from Candida antarctica immobilized onto Lewatit VP OC 1600), a non-specific biocatalyst, was optimized to transformation of high-oleic sunflower oil into butylic esters. The phenomena of partition of polar compounds (phospholipids found in crude oils, produced glycerol etc.) between the reaction medium and the enzymatic support were managed using tert-butanol, a polar solvent. The conditions that enabled the best compromise between stability, productivity and production yields were obtained with an initial oil concentration of 500 mM and a molar ratio between co-substrates of 5. Such conditions enabled a productivity of 13.8 tons.kg-1.kg of Novozyme 435-1 to be reached. The reactor exhibited great stability for 50 consecutive days without any loss of activity. That enabled to minimize the high costs of the enzyme. The novelty of the process was the use of crude oils, containing high levels of natural antioxidants (phospholipids, tocopherols etc.). We demonstrated that these minor components of oils were preserved during the transesterification process. It conferred the synthesized esters some remarkable properties of oxidative resistance.The economic relevance of the process was improved thanks to the development of a new biocatalyst onto a very hydrophobic support (Accurel MP) in order to avoid any adsorptions of polar compounds. An economic analysis (maximisation of the net present value) enabled to rationalize the optimal immobilisation conditions. Over the whole process, it enabled a 50% saving on the global expenses.__ In continuous transesterification conditions, no difference in the product profile was noticed between the new biocatalyst and Novozyme 435.Finally, an alternative to direct transesterification of oil was considered. A first stage of oil hydrolysis is followed by a process of fatty acid recovery and a stage of enzymatic esterification into esters. In order to realize/complete this last stage, the best reaction system was a solvent-free medium. A continuous reactor for the esterification of oleic acid with isobutanol was optimized. It enabled a reactor stable/a stable reactor for 54 consecutive days, respecting the conditions of white biotechnologies. An annual productivity of 126 tons.year-1.kg of Novozyme 435-1 was reached. That represented a productivity improvement by a factor of 9.2 in comparison with the transesterification process. Lipases Huiles végétales Esters d’acides gras Transestérification Estérification Réacteur à lit fixe Stabilité opérationnelle Productivité Stabilité oxydative Lipases Vegetable oils Fatty acid alkyl esters Transesterification Esterification Packed bed reactor Operational stability Productivity Oxidative stability Economic pertinence/relevance 572.7 580
95	Kolloidabscheidungen im Tiefenfilter Waske, Anja 17 October 2011 (has links) Die vorliegende Arbeit zeigt die Anwendung tomographischer und bildverarbeitender Methoden an Partikelabscheidungen in Filterschüttungen. Im betrachteten Tiefenfilter wird dabei der besonders praxisrelevante Fall abstoßender Wechselwirkung zwischen der Filterkorn-Oberfläche und Kolloid realisiert. Die durch Röntgentomographie erzeugten dreidimensionalen Bilddatensätze werden unter Zuhilfenahme eines einfachen geometrischen Modells ausgewertet, wodurch Aussagen zur lokalen Position der Kolloidabscheidungen an einem repräsentativen Filterkorn getroffen werden können. Die experimentellen Ergebnisse werden hinsichtlich der derzeit bekannten Filtertheorie diskutiert. info:eu-repo/classification/ddc/620 ddc:620
96	Flash Pyrolysis and Fractional Pyrolysis of Oleaginous Biomass in a Fluidized-bed Reactor Urban, Brook John January 2015 (has links) No description available. Chemical Engineering Environmental Engineering Engineering pyrolysis flash pyrolysis biomass bio oil flash pyrolysis of bio mass bio oil production venturi packed-bed condenser fluidized bed reactor fluidized bed terminal velocity triglyceride fatty acid
97	Measurement of effective diffusivity : chromatographic method (pellets & monoliths) Zhang, Runtong January 2013 (has links) This thesis aims to find out the effective diffusivity (Deff) of a porous material – γ-alumina, using an unsteady state method with two inert gases at ambient condition with no reactions. For porous materials, Deff is important because it determines the amount of reactants that transfers to the surface of pores. When Deff is known, the apparent tortuosity factor of γ-alumina is calculated using the parallel pore model. The apparent tortuosity factor is important because: (a) it can be used to back-calculate Deff at reacting conditions; (b) once Deff with reactions is known, the Thiele modulus can be calculated and hence the global reaction rate can be found; (c) apparent tortuosity factor is also important for modelling purposes (e.g. modelling a packed-bed column or a catalytic combustion reactor packed with porous γ-alumina in various shapes and monoliths). Experimental measurements were performed to determine the effective diffusivity of a binary pair of non-reacting gases (He in N2, and N2 in He) in spherical γ-alumina pellets (1 mm diameter), and in γ-alumina washcoated monoliths (washcoat thickness 20 to 60 µm, on 400 cpsi (cells per square inch) cordierite support). The method used is based on the chromatographic technique, where a gas flows through a tube, which is packed with the sample to be tested. A pulse of tracer gas is injected (e.g. using sample loops: 0.1, 0.2, 0.5 ml) and by using an on-line mass spectrometer the response in the outlet of the packed bed is monitored over time. For the spherical pellets, the tube i.d. = 13.8 mm and the packed bed depths were 200 and 400 mm. For monoliths the tube i.d. = 7 mm and the packed lengths were 500 and 1000 mm. When the chromatographic technique was applied to the monoliths, it was observed that experimental errors can be significant, and it is very difficult to interpret the data. However, the technique worked well with the spherical pellets, and the effective diffusivity of He in N2 was 0.75 – 1.38 × 10-7 m2 s-1, and for N2 in He was 1.81 – 3.10 × 10-7 m2 s-1. Using the parallel pore model to back-calculate the apparent tortuosity factor, then a value between 5 to 9.5 was found for the pellets. 660.2995
98	Improved Prediction of Adsorption-Based Life Support for Deep Space Exploration Karen N. Son (5930285) 17 January 2019 (has links) <div>Adsorbent technology is widely used in many industrial applications including waste heat recovery, water purification, and atmospheric revitalization in confined habitations. Astronauts depend on adsorbent-based systems to remove metabolic carbon dioxide (CO<sub>2</sub>) from the cabin atmosphere; as NASA prepares for the journey to Mars, engineers are redesigning the adsorbent-based system for reduced weight and optimal efficiency. These efforts hinge upon the development of accurate, predictive models, as simulations are increasingly relied upon to save cost and time over the traditional design-build-test approach. Engineers rely on simplified models to reduce computational cost and enable parametric optimizations. Amongst these simplified models is the axially dispersed plug-flow model for predicting the adsorbate concentration during flow through an adsorbent bed. This model is ubiquitously used in designing fixed-bed adsorption systems. The current work aims to improve the accuracy of the axially dispersed plug-flow model because of its wide-spread use. This dissertation identifies the critical model inputs that drive the overall uncertainty in important output quantities then systematically improves the measurement and prediction of these input parameters. Limitations of the axially dispersed plug-flow model are also discussed, and recommendations made for identifying failure of the plug-flow assumption.</div><div><br></div><div>An uncertainty and sensitivity analysis of an axially disperse plug-flow model is first presented. Upper and lower uncertainty bounds for each of the model inputs are found by comparing empirical correlations against experimental data from the literature. Model uncertainty is then investigated by independently varying each model input between its individual upper and lower uncertainty bounds then observing the relative change in predicted effluent concentration and temperature (<i>e.g.</i>, breakthrough time, bed capacity, and effluent temperature). This analysis showed that the LDF mass transfer coefficient is the largest source of uncertainty. Furthermore, the uncertainty analysis reveals that ignoring the effect of wall-channeling on apparent axial dispersion can cause significant error in the predicted breakthrough times of small-diameter beds.</div><div><br></div><div>In addition to LDF mass transfer coefficient and axial-dispersion, equilibrium isotherms are known to be strong lever arms and a potentially dominant source of model error. As such, detailed analysis of the equilibrium adsorption isotherms for zeolite 13X was conducted to improve the fidelity of CO<sub>2</sub> and H<sub>2</sub>O on equilibrium isotherms compared to extant data. These two adsorbent/adsorbate pairs are of great interest as NASA plans to use zeolite 13X in the next generation atmospheric revitalization system. Equilibrium isotherms describe a sorbent’s maximum capacity at a given temperature and adsorbate (<i>e.g.</i>, CO<sub>2</sub> or H<sub>2</sub>O) partial pressure. New isotherm data from NASA Ames Research Center and NASA Marshall Space Flight Center for CO<sub>2</sub> and H<sub>2</sub>O adsorption on zeolite 13X are presented. These measurements were carefully collected to eliminate sources of bias in previous data from the literature, where incomplete activation resulted in a reduced capacity. Several models are fit to the new equilibrium isotherm data and recommendations of the best model fit are made. The best-fit isotherm models from this analysis are used in all subsequent modeling efforts discussed in this dissertation.</div><div><br></div><div>The last two chapters examine the limitations of the axially disperse plug-flow model for predicting breakthrough in confined geometries. When a bed of pellets is confined in a rigid container, packing heterogeneities near the wall lead to faster flow around the periphery of the bed (<i>i.e.</i>, wall channeling). Wall-channeling effects have long been considered negligible for beds which hold more than 20 pellets across; however, the present work shows that neglecting wall-channeling effects on dispersion can yield significant errors in model predictions. There is a fundamental gap in understanding the mechanisms which control wall-channeling driven dispersion. Furthermore, there is currently no way to predict wall channeling effects a priori or even to identify what systems will be impacted by it. This dissertation aims to fill this gap using both experimental measurements and simulations to identify mechanisms which cause the plug-flow assumption to fail.</div><div><br></div><div>First, experimental evidence of wall-channeling in beds, even at large bed-to-pellet diameter ratios (<i>d</i><sub>bed</sub>/<i>d</i><sub>p</sub>=48) is presented. These experiments are then used to validate a method for accurately extracting mass transfer coefficients from data affected by significant wall channeling. The relative magnitudes of wall-channeling effects are shown to be a function of the adsorption/adsorbate pair and geometric confinement (<i>i.e.</i>, bed size). Ultimately, the axially disperse plug-flow model fails to capture the physics of breakthrough when nonplug-flow conditions prevail in the bed.</div><div><br></div><div>The final chapter of this dissertation develops a two-dimensional (2-D) adsorption model to examine the interplay of wall-channeling and adsorption kinetics and the adsorbent equilibrium capacity on breakthrough in confined geometries. The 2-D model incorporates the effect of radial variations in porosity on the velocity profile and is shown to accurately capture the effect of wall-channeling on adsorption behavior. The 2-D model is validated against experimental data, and then used to investigate whether capacity or adsorption kinetics cause certain adsorbates to exhibit more significant radial variations in concentration compared than others. This work explains channeling effects can vary for different adsorbate and/or adsorbent pairs—even under otherwise identical conditions—and highlights the importance of considering adsorption kinetics in addition to the traditional <i>d</i><sub>bed</sub>/<i>d</i><sub>p</sub> criteria.</div><div><br></div><div>This dissertation investigates key gaps in our understanding of fixed-bed adsorption. It will deliver insight into how these missing pieces impact the accuracy of predictive models and provide a means for reconciling these errors. The culmination of this work will be an accurate, predictive model that assists in the simulation-based design of the next-generation atmospheric revitalization system for humans’ journey to Mars.</div> Mechanical Engineering adsorption life-support systems human space exploration Reduced-order modeling equilibrium adsorption isotherms uncertainty analysis Verification and Validation (V&V) simulation-based design breakthrough curve analysis dispersions linear driving force (LDF) approximation axially dispersed plug-flow model packed-bed reactors fixed bed porous media
99	熱・化学変換を利用する昇温型高温ヒ-トパイプに関する研究松田, 仁樹, 板谷, 義紀, 渡辺, 藤雄 03 1900 (has links) 科学研究費補助金研究種目:一般研究(B) 課題番号:06452428 研究代表者:松田仁樹研究期間:1994-1995年度触媒反応ケミカルヒ-トパイプ管壁反応器熱エネルギ-輸送熱交換ケミカルヒ-トポンプ反応平衡触媒充填層 Heat Exchange Catalytic Reaction Thermal Energy Transportation Chemical Heat Pipe Chemical Heat Pump Equilibrium of Reaction Tube-Wall Reactor Catalytic Packed-Bed
100	Materials and thermal storage systems by sensible heat for thermodynamic electro-solar plants / Matériaux et systèmes de stockage thermique en chaleur sensible pour centrales électro-solaires thermodynamiques Nahhas, Tamar 27 October 2017 (has links) L'énergie solaire est connue pour sa nature intermittente par rapport aux ressources d’énergie fossile. Cette observation souligne la nécessité d'utilisation d’un système de stockage d'énergie thermique. Le système de stockage thermocline est considéré comme un système de stockage rentable. La présente thèse vise à étudier le potentiel des roches basaltiques et siliceuses comme des candidates matériaux de stockage pour les centrales solaires concentrées. Les études expérimentales des propriétés thermo-physiques et thermomécaniques de ces roches à des températures allant jusqu'à 1000°C montrent que ces roches offrent de bonnes propriétés thermiques par rapport aux matériaux classiques de stockage. L'analyse du système de stockage thermocline sur un lit de roches à air direct est réalisée par une approche numérique. En outre, cette recherche vise également à évaluer l’impact environnementale de ce type de système de stockage en effectuant une analyse comparative de son cycle de vie. Enfin, une étude complémentaire réalisée dans le but de produire une carte d'indice de pertinence a permis d’identifier les zones les plus appropriées pour la construction des centrales solaires en Egypte. L'originalité de cette approche alternative pour le stockage d'énergie thermique est qu’elle combine la performance et la disponibilité des matériaux de stockage tout en réduisant leurs impacts environnementaux et financiers. / Compare to fossil fuel energy resources, solar energy is known for its intermittent nature. This observation highlights the need for the use of a thermal energy storage system. The thermocline storage system is considered as a cost-effective storage system. This thesis aims to study the potential of basalt and silex rocks as candidate storage materials for concentrated solar power plants. Experimental studies of the thermo-physical and thermo-mechanical properties of these rocks at temperatures up to 1000°C show that these rocks offer good thermal properties compared with conventional storage materials. The analysis of the thermocline storage system of air rock-packed bed is carried out using a numerical approach. This research also aims to assess the environmental impact of this type of storage system by conducting a comparative analysis of its life cycle. Finally, a complementary study carried out with the aim of producing a relevance index map made it possible to identify the most suitable areas for the construction of solar power plants in Egypt. The originality of this alternative approach for thermal energy storage is that it combines the performance and availability of storage materials while reducing their environmental and financial impacts. Centrale solaire thermodynamique Stockage thermique Thermocline sur lit de roche Silex Basalte Simulation numérique Analyse du cycle de vie Analyse GIS Concentrating solar power plants Thermal energy storage Silex Basalt Numerical simulation Life cycle analysis GIS analysis 620

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