75 results on '"Scargiali, Francesca"'
Search Results
2. CFD simulations of the transition between non-aerated and aerated conditions in uncovered unbaffled stirred tanks
- Author
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Schembri, Luca, Caputo, Giuseppe, Ciofalo, Michele, Grisafi, Franco, Lima, Serena, and Scargiali, Francesca
- Published
- 2025
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3. Systematic screening for the biocatalytic hydration of fatty acids from different oily substrates by Elizabethkingia meningoseptica oleate hydratase through a Design-of-experiments approach
- Author
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Biundo, Antonino, Lima, Serena, Ciaccia, Marianna, Ciliberti, Cosetta, Serpico, Annabel, Agrimi, Gennaro, Scargiali, Francesca, and Pisano, Isabella
- Published
- 2024
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4. Valorisation of microalga Chlorella sp. into furans in the presence of Nb2O5 catalysts
- Author
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Lima, Serena, García-López, Elisa I., Krivtsov, Igor, Ilkaeva, Marina, Bornes, Carlos, Mafra, Luís, Liotta, Leonarda F., Villar-Rodil, Silvia, Paredes, Juan I., Marcì, Giuseppe, and Scargiali, Francesca
- Published
- 2024
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5. Valorisation of Chlorella sp. biomass in 5-HMF through a two-step conversion in the presence of Nb2O5 and NbOPO4 and optimisation through reactive extraction
- Author
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Lima, Serena, García-López, Elisa I., Adawy, Alaa, Marcì, Giuseppe, and Scargiali, Francesca
- Published
- 2023
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6. Flashing lights affect the photophysiology and expression of carotenoid and lipid synthesis genes in Nannochloropsis gaditana
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Lima, Serena, Lokesh, Jep, Schulze, Peter S.C., Wijffels, Rene H., Kiron, Viswanath, Scargiali, Francesca, Petters, Sebastian, Bernstein, Hans C., and Morales-Sánchez, Daniela
- Published
- 2022
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- View/download PDF
7. Flashing light emitting diodes (LEDs) induce proteins, polyunsaturated fatty acids and pigments in three microalgae
- Author
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Lima, Serena, Schulze, Peter S.C., Schüler, Lisa M., Rautenberger, Ralf, Morales-Sánchez, Daniela, Santos, Tamára F., Pereira, Hugo, Varela, João C.S., Scargiali, Francesca, Wijffels, René H., and Kiron, Viswanath
- Published
- 2021
- Full Text
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8. Lutein Production and Extraction from Microalgae: Recent Insights and Bioactive Potential
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Montuori, Eleonora, primary, Lima, Serena, additional, Marchese, Arima, additional, Scargiali, Francesca, additional, and Lauritano, Chiara, additional
- Published
- 2024
- Full Text
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9. Development of an Electrochemical Sensor for Nitrate Analysis in Municipal Wastewaters Treated by Microalgae.
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Lima, Serena, Spinoso, Alice, Patella, Bernardo, Cosenza, Alessandro, Giambalvo, Francesco, Aiello, Giuseppe, Inguanta, Rosalinda, Caputo, Giuseppe, and Scargiali, Francesca
- Subjects
MICROALGAE ,ELECTROCHEMICAL sensors ,WASTEWATER treatment ,NITRATE analysis ,HETEROTROPHIC bacteria - Abstract
Microalgae are photosynthetic microorganisms which may be employed in several fields. Amongst them, an emerging but promising sector of application is their usage for the remediation of wastewaters. They result particularly effective in treating municipal wastewaters, often resulting in nitrate concentrations exceeding the requirements for discharging treated wastewater into the sea. Furthermore, another advantage of using microalgae in civil wastewater treatment is the cooperation with heterotrophic bacteria which may naturally occur in the water or be introduced through sewage sludge in wastewater treatment plants (WTPs). Microalgae, in fact, produce oxygen which may be used by these bacteria reducing the overall operational costs of the WTP. The assessment of nitrogen compound concentrations in wastewater involves various techniques, with ionic chromatography (IC) and spectrometric methods being commonly used in laboratory settings. However, these methods have drawbacks such as the need for skilled personnel, time-consuming processes, and impracticality for in situ and real-time analysis. To address these issues, electrochemical sensors present a viable alternative. These sensors require portable instruments with low power requirements and can be miniaturized using nanotechnology. Electrochemical sensors operate by reducing/oxidizing the target analyte on the working electrode surface. The choice of electrode material is crucial for sensor sensitivity, and copper is found to exhibit excellent electrocatalytic properties for reducing nitrate ions in acidic media. In this study, a cost-effective electrochemical sensor made of copper was developed for quantifying nitrate in wastewater. The entire electrochemical cell was constructed from a common substrate used in Printed Circuit Boards (PCB). The whole fabrication procedure was optimized in order to obtain a reproducible fabrication procedure. The reference and counter electrodes were modified with graphite and Ag/AgCl paste, respectively. The results demonstrated that the sensor can effectively quantify nitrate ions in wastewater. Moreover, it can be employed during microalgal treatment to assess the in vivo reduction of nitrate, offering a practical and efficient solution for real-time monitoring of nitrogen compounds in wastewater treatment processes. [ABSTRACT FROM AUTHOR]
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- 2024
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10. Kinetic of the Sewage Treatment: The Consumption of Organic Carbon of The Microalga Chlorella sp
- Author
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Lima Serena, Amari Valerio, Schembri Luca, Grisafi Franco, Caputo Giuseppe, Scargiali Francesca, Lima Serena, Amari Valerio, Schembri Luca, Grisafi Franco, Caputo Giuseppe, and Scargiali Francesca
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wastewater treatment ,Chlorella ps ,microalgae ,Settore ING-IND/25 - Impianti Chimici ,kinetic parameter - Abstract
As well known, microalgae are eukaryotic or procaryotic microorganisms able to photosynthesize, namely transforming inorganic substrates and sun light into organic compounds and chemical energy. They result very promising in treating civil wastewaters thanks to their ability to employ nitrates and phosphates as nutrients (Lima et al., 2019). Autotrophic microalgae are, anyway, not useful in decreasing the organic carbon content of wastewaters, and for this reason, they cooperate with heterotrophic bacteria. The usefulness of microalgaebacteria consortia in treating wastewaters and the ratio of their inoculum was investigated in a previous work (Lima, 2022a). Contrarily to autotrophic microalgae, mixotrophic microalgae are able to decrease the organic content of the matrix in which they are grown. In this work, we preliminarily investigated the capability of the autochthonous microalga Chlorella sp. CW2 to grow in mixotrophy and decrease the organic content of the artificial wastewater in which they are grown. Several batch cultivations were performed with glucose in different concentrations. Kinetic parameters were obtained and employed to determine the dilution rate (D) ideal for the abatement of glucose from the artificial wastewater.
- Published
- 2023
11. Exploitation of Microalgae Biomass under an Integrated Biorefinery Approach.
- Author
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Lima, Serena, Biundo, Antonino, Caputo, Giuseppe, Isabel García-López, Elisa, Marcì, Giuseppe, Agrimi, Gennaro, Pisano, Isabella, and Scargiali, Francesca
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MICROALGAE ,BIOMASS ,ENERGY consumption ,RENEWABLE energy sources ,ENERGY industries - Abstract
As known, microalgae are an appealing source of chemicals and high-value compounds which find application in nutraceuticals, cosmetics and pharmaceutics. Fatty acids (FA), in particular, have drawn attention to the possibility of employing them as a source of biodiesel alternatively to fossil fuels. In addition, several lipid derivatives have been found in microalgae and may be employed in several biotechnological applications. Hydroxy fatty acids can be substrates for several industrial applications thanks to their functionalization, which increases their reactivity and, for this reason, can be used as functional building blocks to produce a multitude of bio-based materials. Recently, a promising method for the chemical modification of unsaturated-FAs (U-FA) has appeared. In fact, U-FA may be modified by members of the hydratase enzyme family to produce saturated and unsaturated hydroxy fatty acids with high stereo- and regio-selectivity. These enzymes are able to introduce a water molecule to the double bond present in the free fatty acids (FFA) Oleic Acid (OA), Linoleic Acid (LA), producing 10-hydroxy fatty acids (10-hydroxy-FAs). Furthermore, the carbohydrate component of the microalgal biomass may be converted into furfuryl compounds and, in particular in 5-hydroxyl methyl furfural (5-HMF). This is one of the chemical bio-compound different from petroleum-derived ones with the highest added value and may be obtained through lignocellulosic biomasses or hexoses sugars through acid catalysis. It is defined platform molecule because it is the precursor of several compounds for the chemical industry. In this work, we aimed to optimize a circular bioprocess by performing, starting from the same biomass, two different processes: the biotransformation of microalgal FFAs through the employment of a genetically modified E. coli on one side, and the conversion of the remaining biomass in furfuryl products. The first process allowed the production of very interesting lipid derivatives with biotechnological applications, including 10 hydroxy-stearic acid and 10-hydroxy-octadecenoic acid. The second process was obtained through heterogeneous catalysis based on niobium phosphate. This procedure represents a high-innovative application of microalgal biomass and allows the simultaneous exploitation of FAs and carbohydrates. This may result in an increase in the commercial value of microalgal biomass. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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12. Experimental and Computational Study of Supercritical Fluid Extraction (SFE) of Omega-3 Components from Fish Oil in Structured Packing.
- Author
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Schembri, Luca, Caputo, Giuseppe, Ciofalo, Michele, Grisafi, Franco, Lima, Serena, and Scargiali, Francesca
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SUPERCRITICAL fluid extraction ,FISH oils ,COMPUTATIONAL fluid dynamics ,EICOSAPENTAENOIC acid ,DOCOSAHEXAENOIC acid - Abstract
The benefits of polyunsaturated fatty acids and their implications for human health have gained scientific attention to their extraction from biological sources, not being produced by the human body. Most known industrial productions of omega-3 fatty acids often work under operating conditions that may degrade these components and they often use toxic or flammable solvents that can adversely affect human health. In this sense, innovative and interesting prospects are provided by Supercritical Fluid Extraction (SFE). In this work, two parallel studies were carried out: an experimental activity in a laboratory apparatus using supercritical carbon dioxide (scCO2) and preliminary computational fluid dynamics (CFD) simulations, limited to the hydrodynamic aspects of the process. In the experimental apparatus a Sulzer® EX structured packing, made up of corrugated metal gauze sheets, was used as the column filler. The study made it possible to identify the optimal operating conditions leading to an enrichment of the starting mixture in Eicosapentaenoic acid (EPA) and Docosahexaenoic acid (DHA), target products. CFD simulations were based on the Volume of Fluid (VOF) approach, suitable to the present complex multiphase system with two phases in close contact (transesterified fish oil and scCO2). The meatus created by the corrugations of the metal gauze was chosen as the calculation domain representative of the system. The computations were performed by the commercial software Ansys Fluent®, which allowed the prediction of the hydrodynamic evolution of the system through transient simulations. CFD predictions were in qualitative agreement with the experimental results. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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13. Modelling Nannochloropsis gaditana Growth in Reactors with Different Geometries, Determination of Kinetic Parameters and Biochemical Analysis in Response to Light Intensity
- Author
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Lima, Serena, primary, Brucato, Alberto, additional, Caputo, Giuseppe, additional, Schembri, Luca, additional, and Scargiali, Francesca, additional
- Published
- 2022
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- View/download PDF
14. Kinetic of the Sewage Treatment: The Consumption of Organic Carbon of The Microalga Chlorella sp.
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Lima, Serena, Amari, Valerio, Schembri, Luca, Grisafi, Franco, Caputo, Giuseppe, and Scargiali, Francesca
- Subjects
SEWAGE purification ,MICROALGAE ,PROKARYOTES ,GLUCOSE ,DILUTION - Abstract
As well known, microalgae are eukaryotic or procaryotic microorganisms able to photosynthesize, namely transforming inorganic substrates and sun light into organic compounds and chemical energy. They result very promising in treating civil wastewaters thanks to their ability to employ nitrates and phosphates as nutrients (Lima et al., 2019). Autotrophic microalgae are, anyway, not useful in decreasing the organic carbon content of wastewaters, and for this reason, they cooperate with heterotrophic bacteria. The usefulness of microalgae- bacteria consortia in treating wastewaters and the ratio of their inoculum was investigated in a previous work (Lima, 2022a). Contrarily to autotrophic microalgae, mixotrophic microalgae are able to decrease the organic content of the matrix in which they are grown. In this work, we preliminarily investigated the capability of the autochthonous microalga Chlorella sp. CW2 to grow in mixotrophy and decrease the organic content of the artificial wastewater in which they are grown. Several batch cultivations were performed with glucose in different concentrations. Kinetic parameters were obtained and employed to determine the dilution rate (D) ideal for the abatement of glucose from the artificial wastewater. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
15. Catalytic Conversion of Glucose and Chlorella sp. into Furans in the Presence of Niobium Oxide.
- Author
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García-López, Elisa I., Lima, Serena, Marcì, Giuseppe, and Scargiali, Francesca
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CHLORELLA ,NIOBIUM oxide ,FURANS ,HYDROXYMETHYLFURFURAL ,AQUEOUS solutions ,GLUCOSE analysis - Abstract
A series of Nb
2 O5 solid catalysts have been prepared to be used for the catalytic dehydration of glucose and sugars from algae Chlorella sp. into added value furans. The glucose transformation gave rise to 5-hydroxymethylfurfural (5-HMF). Chlorella sp. was used in the same catalytic conditions to be valorised to furans. By preliminary studies we concluded that the algae aqueous suspension needed a previous treatment in the presence of SiO2 pellets to liberate the carbohydrates that in the catalytic reaction in the presence of Nb2O5 materials gave rise 5-HMF and furfural. The best operative conditions and Nb2 O5 catalysts were individuated. The most performant Nb2 O5 catalyst also showed an excellent reusability without deactivation. The selectivity to furans was related to the acidity of the solid used as catalyst. [ABSTRACT FROM AUTHOR]- Published
- 2023
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16. Civil Wastewater Remediation through Employment of Indigenous Microalgae and Sewage Sludge.
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Lima, Serena, D'Agostino, Noemi, Brucato, Alberto, Caputo, Giuseppe, Grisafi, Franco, and Scargiali, Francesca
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INDUSTRIAL waste site remediation ,MICROALGAE ,SEWAGE sludge ,POLLUTANTS ,CHEMICAL oxygen demand - Abstract
Microalgae are photosynthetic microorganisms that can employ some inorganic pollutant compounds as nutrients, for example nitrates and phosphates. Traditional wastewater treatment comprises oxidation ponds in which the Activated Sludge performs the oxidation of the organic matter. Microalgae may be well applied in these processes. In this work, we tested the potential of remediation of a mixture of a local microalga, Chlorella sp. Pozzillo, and activated sludge and compared it to controls of only microalga and only activated sludge. We found that the mixture of bacteria and microalgae leads to an improvement in nitrogen removal up to the 83,68%, while phosphorous removal is improved when the autochthonous microalgae are used alone. The abatement of the Chemical Oxygen Demand was of 59,17% when using the microalgae and activated sludge consortium, while it was higher (-76,67%±0) when using the only activated sludge. The biomass was also analysed for its content in lipids and carbohydrates. This information may be useful to assess the best industrial application for the biomass obtained from civil wastewaters remediation process, in accordance with principles of circular economy and waste-to-resources view. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
17. Combined Gasification-Oxidation System for Waste Treatment with Supercritical Water: LCA and Performance Analysis
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Iannotta, Pasquale, primary, Caputo, Giuseppe, additional, Scargiali, Francesca, additional, Longo, Sonia, additional, Cellura, Maurizio, additional, and Brucato, Alberto, additional
- Published
- 2020
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18. Combined effect of nutrient and flashing light frequency for a biochemical composition shift in Nannochloropsis gaditana grown in a quasi‐isoactinic reactor
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Lima, Serena, primary, Villanova, Valeria, additional, Grisafi, Franco, additional, Brucato, Alberto, additional, and Scargiali, Francesca, additional
- Published
- 2020
- Full Text
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19. Supercritical Water Gasification of Waste Oils as a Source of Syngas.
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Maniscalco, Marco, Iannotta, Pasquale, Scargiali, Francesca, Grisafi, Franco, Brucato, Alberto, and Caputo, Giuseppe
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PETROLEUM waste ,SYNTHESIS gas ,SUPERCRITICAL water ,OIL gasification ,RAPESEED oil ,AUTOCLAVES - Abstract
A huge amount of waste oil is produced worldwide. Also substantial amount of virgin oils is available that are interesting candidates for upgrading into syngas. Supercritical water gasification (SCWG) can be considered as an aqueous phase reforming process to produce syngas from oils. In this work, a variety of waste and virgin oils were gasified in a continuous down-flow autoclave reactor at supercritical conditions. Experiments were carried out at 430 °C and 660 °C, 25 MPa, with a residence time in the range 103-170 s, in order to investigate gasification and carbon efficiency, hydrogen yield and composition of the produced gas. All the analysed feedstocks were suspended in water at various concentrations before gasification. Pyrolysis bio-oil showed a gasification efficiency of 74 % and 86 % for mixtures with 3 and 10 oil/water wt ratio, respectively. Waste motor oil, suspended in water at a concentration of 1 % wt thanks to the use of surfactants, was successfully gasified with a gasification efficiency of 73 %. Virgin motor oil gasification efficiency higher than 60% had been obtained for both analysed concentrations (5 % wt and 10 % wt of oil). Gasification of rapeseed oil at 5 % wt showed a gasification efficiency close to 88 %. On the contrary, the gasification of sunflower oil at 430 °C showed that this temperature is not high enough to obtain acceptable gasification efficiencies that varied from 20 % to 15 % for concentrations of oil from 2 % wt to 8 % wt, respectively. The analysis of the gas composition, in all the studied cases, showed that the obtained gas stream was rich in H
2 , CH4 and CO2 , with variable quantities of light hydrocarbons (C2 H4 , C2 H6 and C3 H8 ). [ABSTRACT FROM AUTHOR]- Published
- 2021
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20. A Porous Media Model for the Numerical Simulation of Acoustic Attenuation by Perforated Liners in the Presence of Grazing Flows.
- Author
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Wang, Jianguo, Rubini, Philip, Qin, Qin, and Scargiali, Francesca
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POROUS materials ,GAS turbine combustion ,COMPUTER simulation ,INTERNAL combustion engines - Abstract
Featured Application: Passive control devices for combustion noise reduction in gas turbine engines and/or other general flow noises. In this paper, a novel model is proposed for the numerical simulation of noise-attenuating perforated liners. Effusion cooling liners offer the potential of being able to attenuate combustion instabilities in gas turbine engines. However, the acoustic attenuation of a perforated liner is a combination of a number of interacting factors, resulting in the traditional approach of designing perforated combustor liners relying heavily on combustor rig tests. On the other hand, direct computation of thousands of small-scale holes is too expensive to be employed as an engineering design tool. In recognition of this, a novel physical velocity porous media (PVPM) model was recently proposed by the authors as a computationally less demanding approach to represent the acoustic attenuation of perforated liners. The model was previously validated for the normal incidence of a sound wave by comparison with experimental data from impedance tubes. In this paper, the model is further developed for configurations where the noise signal propagates in parallel with the perforated liners, both in the presence and absence of a mean flow. The model is significantly improved and successfully validated within coexisting grazing and bias flow scenarios, with reference to a series of well-recognized experimental data. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
21. On Finding the Right Sampling Line Height through a Parametric Study of Gas Dispersion in a NVB.
- Author
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Doumbia, E. Moustapha, Janke, David, Yi, Qianying, Zhang, Guoqiang, Amon, Thomas, Kriegel, Martin, Hempel, Sabrina, and Scargiali, Francesca
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PRESSURE drop (Fluid dynamics) ,COMPUTATIONAL fluid dynamics ,IDEAL gases ,MIXING height (Atmospheric chemistry) ,POROUS materials ,WIND speed - Abstract
The tracer gas method is one of the common ways to evaluate the air exchange rate in a naturally ventilated barn. One crucial condition for the accuracy of the method is that both considered gases (pollutant and tracer) are perfectly mixed at the points where the measurements are done. In the present study, by means of computational fluids dynamics (CFD), the mixing ratio NH 3 /CO 2 is evaluated inside a barn in order to assess under which flow conditions the common height recommendation guidelines for sampling points (sampling line and sampling net) of the tracer gas method are most valuable. Our CFD model considered a barn with a rectangular layout and four animal-occupied zones modeled as a porous medium representing pressure drop and heat entry from lying and standing cows. We studied three inflow angles and six combinations of air inlet wind speed and temperatures gradients covering the three types of convection, i.e., natural, mixed, and forced. Our results showed that few cases corresponded to a nearly perfect gas mixing ratio at the currently common recommendation of at least a 3 m measurement height, while the best height in fact lied between 1.5 m and 2.5 m for most cases. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
22. Biocrude from Nannochloropsis gaditana by Hydrothermal Liquefaction: An Experimental Design Approach.
- Author
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Sánchez-Bayo, Alejandra, Megía Hervás, Irene, Rodríguez, Rosalía, Morales, Victoria, Bautista, Luis Fernando, Vicente, Gemma, and Scargiali, Francesca
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BIOMASS liquefaction ,EXPERIMENTAL design ,FACTORIAL experiment designs ,LIQUEFIED natural gas - Abstract
The aim of the present work was focused on optimising the yield and quality of the biocrude obtained by hydrothermal liquefaction (HTL) of Nannochloropsis gaditana. Temperature, reaction time and microalga concentration were the variables used to carry out an experimental factorial design with a central composite design. The responses chosen were the biocrude yield and the nitrogen and oxygen content in the biocrude phase. A second-order model was obtained to predict the responses as a function of these variables. Temperature is the most determining factor with a positive influence on biocrude yield. The maximum biocrude yield (42.3 ± 0.8 wt%) was obtained at 320 °C, 10 min of reaction and 10 wt% microalgae concentration, and the nitrogen and oxygen content significantly decreased with respect to their corresponding levels in the initial microalgal biomass. The HHV value of the biocrude was 35.7 MJ/kg. The biocrude was composed of 30% of linear and branched hydrocarbons. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
23. CFD Simulation of a Hyperloop Capsule Inside a Low-Pressure Environment Using an Aerodynamic Compressor as Propulsion and Drag Reduction Method.
- Author
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Lluesma-Rodríguez, Federico, González, Temoatzin, Hoyas, Sergio, Scargiali, Francesca, and Sergio, Hoyas Calvo
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DRAG reduction ,DRAG (Aerodynamics) ,HYPERLOOP ,HIGH speed ground transportation ,MACH number ,DRAG force ,COMPRESSORS - Abstract
Featured Application: Hyperloop. One of the most restrictive conditions in ground transportation at high speeds is aerodynamic drag. This is even more problematic when running inside a tunnel, where compressible phenomena such as wave propagation, shock waves, or flow blocking can happen. Considering Evacuated-Tube Trains (ETTs) or hyperloops, these effects appear during the whole route, as they always operate in a closed environment. Then, one of the concerns is the size of the tunnel, as it directly affects the cost of the infrastructure. When the tube size decreases with a constant section of the vehicle, the power consumption increases exponentially, as the Kantrowitz limit is surpassed. This can be mitigated when adding a compressor to the vehicle as a means of propulsion. The turbomachinery increases the pressure of part of the air faced by the vehicle, thus delaying the critical conditions on surrounding flow. With tunnels using a blockage ratio of 0.5 or higher, the reported reduction in the power consumption is 70%. Additionally, the induced pressure in front of the capsule became a negligible effect. The analysis of the flow shows that the compressor can remove the shock waves downstream and thus allows operation above the Kantrowitz limit. Actually, for a vehicle speed of 700 km/h, the case without a compressor reaches critical conditions at a blockage ratio of 0.18, which is a tunnel even smaller than those used for High-Speed Rails (0.23). When aerodynamic propulsion is used, sonic Mach numbers are reached above a blockage ratio of 0.5. A direct effect is that cases with turbomachinery can operate in tunnels with blockage ratios even 2.8 times higher than the non-compressor cases, enabling a considerable reduction in the size of the tunnel without affecting the performance. This work, after conducting bibliographic research, presents the geometry, mesh, and setup. Later, results for the flow without compressor are shown. Finally, it is discussed how the addition of the compressor improves the flow behavior and power consumption of the case. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
24. Electric Stimulation of Astaxanthin Biosynthesis in Haematococcus pluvialis.
- Author
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Fitriana, Hana-Nur, Lee, Soo-Youn, Choi, Sun-A, Lee, Ji-Ye, Kim, Bo-Lam, Lee, Jin-Suk, Oh, You-Kwan, and Scargiali, Francesca
- Subjects
ASTAXANTHIN ,ELECTRIC stimulation ,BIOELECTROCHEMISTRY ,BIOSYNTHESIS ,ALGAL cells ,REACTIVE oxygen species - Abstract
The green microalga Haematococcus pluvialis accumulates astaxanthin, a potent antioxidant pigment, as a defense mechanism against environmental stresses. In this study, we investigated the technical feasibility of a stress-based method for inducing astaxanthin biosynthesis in H. pluvialis using electric stimulation in a two-chamber bioelectrochemical system. When a cathodic (reduction) current of 3 mA (voltage: 2 V) was applied to H. pluvialis cells for two days, considerable lysis and breakage of algal cells were observed, possibly owing to the formation of excess reactive oxygen species at the cathode. Conversely, in the absence of cell breakage, the application of anodic (oxidation) current effectively stimulated astaxanthin biosynthesis at a voltage range of 2–6 V, whereas the same could not be induced in the untreated control. At an optimal voltage of 4 V (anodic current: 30 mA), the astaxanthin content in the cells electro-treated for 2 h was 36.9% higher than that in untreated cells. Our findings suggest that electric treatment can be used to improve astaxanthin production in H. pluvialis culture if bioelectrochemical parameters, such as electric strength and duration, are regulated properly. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
25. CFD-Simulink Modeling of the Inflatable Solar Dryer for Drying Paddy Rice.
- Author
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Salvatierra-Rojas, Ana, Ramaj, Iris, Romuli, Sebastian, Müller, Joachim, and Scargiali, Francesca
- Subjects
SOLAR dryers ,RICE drying ,UPLAND rice ,PADDY fields ,DRYING ,COMPUTATIONAL fluid dynamics - Abstract
Small-scale farmers in developing Asian countries have minimal agricultural mechanisms available to them. In the Philippines, postharvest losses in rice production can reach about 36% in the drying process alone. Thus, the inflatable solar dryer (ISD) was developed through the collaboration of the University of Hohenheim, the International Rice Research Institute, and GrainPro Philippines Inc. Although the ISD was successfully tested with different agricultural products, further characterization of the ISD design is required for predicting the drying performance. To this end, the airflow behavior in the ISD was simulated using computational fluid dynamics (CFD) via ANSYS Fluent. Moreover, a thermal model was developed in MATLAB/Simulink by taking into account heat transfer in the heating area and coupled heat and mass transfer within the drying area. Three batches of drying experiments were performed and airflow measurements were taken inside the dryer to validate the models. The MATLAB/Simulink model was further used to predict the drying performance under various weather conditions spanning 10 years. The simulated temperatures and moisture content in the ISD showed high accuracy (mean absolute percentage error (MAPE) < 10%) with the experimental data. The proposed dynamic model provides an efficient computational tool that can be applied to predict the drying performance and to optimize the ISD design. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
26. Evaluation of Algae-Based Biodiesel Production Topologies via Inherent Safety Index (ISI).
- Author
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González-Delgado, Angel Darío, García-Martínez, Janet B., Barajas-Solano, Andrés F., and Scargiali, Francesca
- Subjects
ELECTRIC power consumption ,BIOMASS liquefaction ,ENERGY consumption ,BIODIESEL fuels ,FOSSIL fuels ,TOPOLOGY - Abstract
Increasing energy needs have led to soaring fossil fuel consumption, which has caused several environmental problems. These environmental aspects along with the energy demand have motivated the search for new energy systems. In this context, biofuels such as biodiesel have been developing into a substitute for conventional fuels. Microalgae are considered a promising option for biodiesel production due to their high lipid content. Therefore, it is important to analyze the technical aspects of the biodiesel production system. In this work, the inherent safety analysis of three emerging topologies for biodiesel production from microalgae was performed using the inherent safety index (ISI) methodology. Selected topologies include biodiesel production via lipid extraction and transesterification, in-situ transesterification, and hydrothermal liquefaction (HTL). The results revealed that the processes are inherently unsafe achieving total inherent safety index scores of 30, 29, and 36. The main risks in the cases were associated with the chemical safety index. Operating conditions represented no risk for topologies 1 and 2, while for topology 3 pressure and temperature were identified as critical variables. In general, topology 2 showed better performance from a safety perspective. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
27. Study on the Variable-Temperature Drying Process of Corn Drying in an Industrial Corn-Drying System Equipped with a Self-Adaptive Control Heat Exchanger.
- Author
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Li, Bin, Zeng, Zhiheng, Zhang, Xuefeng, Zhang, Ye, Scargiali, Francesca, and Markatos, N. C.
- Subjects
ADAPTIVE control systems ,HEAT exchangers ,HEATING control ,ENTHALPY ,ENERGY consumption ,DENTAL adhesives ,CORN stover - Abstract
To realize energy-saving and efficient industrial grain drying, the present work studied the variable-temperature drying process of corn drying in a novel industrial corn-drying system with a heat recycling and self-adaptive control function. The drying kinetics, thermal performance, heat-loss characteristics and the heat-recycling performance of the drying system under different allocations between flue gas and hot air were investigated, and the optimized drying process was proposed and compared with two constant drying processes. The results showed that the optimized drying process exhibited better drying kinetic and thermal performance than the two constant drying processes. More specifically, the total heat loss, total energy consumption and specific energy consumption of the optimized drying process were ascertained to be 36,132.85 MJ, 48,803.99 MJ and 7290.27 kJ/kg, respectively, which were lower than those of the other two processes. On the other hand, the thermal efficiency of the drying chamber for the optimized drying process was ascertained to be varied within the range of 6.81–41.71%. Overall, the validation results showed that the optimized drying process can significantly improve the drying performance of the drying system. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
28. Study on the Leakage and Inter-Stage Pressure Drop Characteristics of Two-Stage Finger Seal.
- Author
-
Zhao, Hailin, Su, Hua, Chen, Guoding, Zhang, Yanchao, and Scargiali, Francesca
- Subjects
SEALING devices ,ROOT-mean-squares ,FINITE element method ,LEAKAGE ,LONGEVITY - Abstract
Featured Application: Two-stage finger seal is a novel and revolutionary compliant seal, which has the characteristics of high speed, pressure and temperature capacity, low leakage, low cost, and long life time. It can be used in the secondary flow system of aeroengines. To solve the high leakage and high wear problems faced by sealing devices in aeroengines under the condition of high axial pressure difference, the two-stage finger seal is proposed in this paper. The finite element method and computational fluid dynamics (FEM/CFD) coupling iterative algorithm of the two-stage finger seal is developed and validated. Then the performance advantages of two-stage finger seal compared to the one-stage finger seal are studied, as well as the leakage and the inter-stage pressure drop characteristics of two-stage finger seal are investigated. Finally, the measure to improve the inter-stage imbalance of pressure drop of two-stage finger seal is proposed. The results show that the two-stage finger seal has lower leakage and lower contact pressure than the one-stage finger seal at high axial pressure difference, but there exists an inter-stage imbalance of pressure drop. Increasing the axial pressure difference and the root mean square (RMS) roughness of finger element can aggravate the imbalance of pressure drop, while the radial displacement excitation of rotor has little influence on it. The results also indicate that the inter-stage imbalance of pressure drop of the two-stage finger seal can be improved by increasing the number of finger elements of the 1st finger seal and decreasing the number of finger elements of the 2nd finger seal. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
29. Aerodynamic Shape Optimization of NREL S809 Airfoil for Wind Turbine Blades Using Reynolds-Averaged Navier Stokes Model—Part II.
- Author
-
Akram, Md Tausif, Kim, Man-Hoe, and Scargiali, Francesca
- Subjects
WIND turbine blades ,AEROFOILS ,VERTICAL axis wind turbines ,STRUCTURAL optimization ,DRAG coefficient ,ENERGY harvesting ,SHEARING force ,WIND power - Abstract
Sustainability has become one of the most significant considerations in everyday work, including energy production. The fast-growing trend of wind energy around the world has increased the demand for efficient and optimized airfoils, which has paved the way for energy harvesting systems. The present manuscript proposes an aerodynamically optimized design of the well-known existing NREL S809 airfoil for performance enhancement of the blade design for wind turbines. An integrated code, based on a genetic algorithm, is developed to optimize the asymmetric NREL S809 airfoil by class shape transformation (CST) and the parametric section (PARSEC) parameterization method, analyzing its aerodynamic properties and maximizing the lift of the airfoil. The in-house MATLAB code is further incorporated with XFOIL to calculate the coefficient of lift, coefficient of drag and lift-to-drag ratio at angles of attack of 0° and 6.2° by the panel technique and validated with National Renewable Energy Laboratory (NREL) experimental results provided by The Ohio State University (OSU). On the other hand, steady-state CFD analysis is performed on an optimized S809 airfoil using the Reynolds-averaged Navier–Stokes (RANS) equation with the K–ω shear stress transport (SST) turbulent model and compared with the experimental data. The present method shows that the optimized airfoil by CST is predicted, with an increment of 11.8% and 9.6% for the lift coefficient and lift-to-drag ratio, respectively, and desirable stability parameters obtained for the design of the wind turbine blades. These characteristics significantly improve the overall aerodynamic performance of new optimized airfoils. Finally, the aerodynamically improved results are reported for the design of the NREL Phase II, Phase III and Phase VI HAWT blades. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
30. Municipal Wastewater: A Sustainable Source for the Green Microalgae Chlorella vulgaris Biomass Production.
- Author
-
Pacheco, Diana, Rocha, A. Cristina S., Garcia, Analie, Bóia, Ana, Pereira, Leonel, Verdelhos, Tiago, Scargiali, Francesca, and Hai, Faisal I.
- Subjects
CHLORELLA vulgaris ,MICROALGAE ,SEWAGE disposal plants ,WASTEWATER treatment ,BIOMASS production ,SEWAGE ,INDUSTRIAL wastes - Abstract
The need to reduce the costs associated with microalgae cultivation encouraged scientific research into coupling this process with wastewater treatment. Thus, the aim of this work was to assess the growth of Chlorella vulgaris (Chlorophyta) in different effluents from a municipal wastewater treatment plant (WWTP), namely secondary effluent (SE) and sludge run-off (SR). Assays were performed, under the same conditions, in triplicate with 4 dilution ratios of the wastewaters (25%, 50%, 75% and 100%) with the standard culture medium bold basal medium double nitrated (BBM2N) as a control. The capability of C. vulgaris for biomass production, chlorophyll synthesis and nutrients removal in the SE and SR was evaluated. The 25% SE and 25% SR showed increased specific growth rates (0.47 and 0.55 day
−1 , respectively) and higher biomass yields (8.64 × 107 and 1.95 × 107 cells/mL, respectively). Regarding the chlorophyll content, the 100% SR promoted the highest concentration of this pigment (2378 µg/L). This green microalga was also able to remove 94.8% of total phosphorus of SE, while in 50% SR, 31.2% was removed. Removal of 73.9% and 65.9% of total nitrogen in 50% and 100% SR, respectively, was also observed. C. vulgaris growth can, therefore, be maximized with the addition of municipal effluents, to optimize biomass production, while cleansing the effluents. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
31. Comparisons of the Uncoupled Effects of CO 2 on the CH 4 /O 2 Counterflow Diffusion Flame under High Pressure.
- Author
-
Chen, Ying, Wang, Jingfu, Zhang, Xiaolei, Li, Conghao, and Scargiali, Francesca
- Subjects
COUNTERFLOWS (Fluid dynamics) ,FLAME temperature ,CARBON dioxide ,FLAME ,STRAIN rate - Abstract
A comprehensive numerical investigation of the uncoupled chemical, thermal, and transport effects of CO
2 on the temperature of CH4 /O2 counterflow diffusion flame under high pressure up to 5 atm was conducted. Three pairs of artificial species were introduced to distinguish the chemical effect, thermal effect, and the transport effect of CO2 on the flame temperature. The numerical results showed that both the chemical effect and the thermal effect of the CO2 dilution in the oxidizer side can decrease the flame temperature significantly, while the transport effect of CO2 can only slightly increase the flame temperature and can even be ignored. The reduction value of the temperature caused by the chemical effect of CO2 grows linearly, while that caused by the thermal effect increases exponentially. The R P c h e m and R P t h e r m a l are defined to explain the temperature reduction percentage due to the chemical effect and the thermal effect of CO2 in the total temperature reduction caused by CO2 dilution, respectively. The R P c h e m decreases with the increase of the pressure, the strain rate, and the CO2 dilution ratio, while the R P t h e r m a l behaves in the opposite manner. In the above conditions, the chemical effect plays a dominant role on the flame temperature reduction. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
32. Validation of Heat-Level Vapor Phase Soldering Process and Workspace Leakage Detection with Applied Pressure Sensors.
- Author
-
Alaya, Mohamed Amine, Illés, Balázs, Bušek, David, Géczy, Attila, and Scargiali, Francesca
- Subjects
PRESSURE sensors ,LEAK detection ,SOLDER & soldering ,CONDENSATION ,THERMOCOUPLES ,GASES - Abstract
Featured Application: The paper presents the application of pressure sensors and the obtained pressure/height profiles next to the generally used soldering temperature profiles for precise control of heat-level type vapour phase reflow soldering ovens in electronics manufacturing. Electronic manufacturing principles are continuously developing, further improving assembly quality and productivity. There is a continuous need to apply novel and improved methods of process monitoring to provide accurate measurement and control during assembling. In this paper, a new principle for monitoring filmwise condensation-based heat-level—vapour phase soldering (HL-VPS) is presented to improve the process control. The experiment is based on thermocouple sensors in fusion with a sensitive gauge type pressure sensor. The aim is to precisely identify the steps of condensation-based reflow heat transfer process with commercially available components and the mindset of possible retrofitting in the generally used HL-VPS soldering ovens. It was found that the gauge sensor can follow the state of the workspace more precisely as the thermocouples, by monitoring the hydrostatic state of the vapour. The pressure (time) function gives information about the build-up of the vapour column, highlighting four characteristic steps (phases) of the process, meaning: immersion of the sample to be soldered, condensation-based heat transfer, solder-break, and cooling. Combined application with thermocouples enables more precise control, improving soldering quality and can reduce idle time of the oven. In addition, it was showed that the gauge type sensors could highlight any failure in the oven sealing by a sensor signal threshold detection. The original concept of workspace identification also fits the present and future industry 4.0 directives. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
33. Effects of Bulk Flow Pulsations on Film Cooling with Two Sister Holes.
- Author
-
Baek, Seung Il, Ahn, Joon, and Scargiali, Francesca
- Subjects
FILM flow ,INTERNAL combustion engines ,GAS turbines ,SISTERS ,JET impingement - Abstract
In a triple-hole system comprising a primary hole and two sister holes, when the sister holes are positioned slightly downstream of the main hole under steady flow conditions, their jets generate an anti-counter-rotating vortex pair. Vortex interactions between the jets increase the effectiveness of adiabatic film cooling. In this study, a series of large-eddy simulations were conducted to understand how pulsations in the main flow affect film cooling in a triple hole. To understand the effects of pulsations on film cooling performance is important for better cooling design of the gas turbine engines. The numerical simulations were carried out on a flat plate geometry with a triple cylindrical hole system at 35° injection angle. The pulsations were approximately sinusoidal, and their effect on film cooling was investigated at several frequencies (2, 16, and 32 Hz) and Strouhal numbers (Sr = 0.1005, 0.8043, and 1.6085) at an average blowing ratio of 0.5. The results for the triple-hole system were compared with those for a single hole for the same amount of cooling air and the same cross-sectional area of the holes. Increasing the Strouhal number of the main flow decreased η in both systems. However, at each Strouhal number, η was higher in the triple hole. Furthermore, the triple-hole system was found to be better for film cooling than a single-hole system for higher values of the pulsation Strouhal number. Contours of time-averaged film cooling effectiveness and dimensionless temperature, instantaneous film cooling effectiveness contours on a test plate, mean velocity magnitude contours in the hole, and Q-contours for the triple holes under the application of pulsations to the flow were investigated. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
34. Vacuum air-lift bioreactor for microalgae production
- Author
-
Marotta, G., SCARGIALI, Francesca, LIMA, Serena, CAPUTO, Giuseppe, GRISAFI, Franco, BRUCATO, Alberto, Marotta, G., Scargiali, F., Lima, S., Caputo, G., Grisafi, F., and Brucato, A.
- Subjects
lcsh:Computer engineering. Computer hardware ,Settore ING-IND/25 - Impianti Chimici ,photo bioreactor ,Microalgae ,lcsh:TP155-156 ,lcsh:TK7885-7895 ,lcsh:Chemical engineering - Abstract
Microalgae production is receiving an increasing interest both by research institutions and commercial companies (Di Caprio et al., 2016). This is due to the growing consciousness of the need to move towards renewable, sustainable feedstoks for commodities production (Wang et al., 2012). However, process development at industrial scale, either based on open or closed photobioreactors, still is in a rather early stage and there is room for further development (Morweiser et al., 2010), especially aimed at reducing process costs. In this work an innovative low-cost technology for microalgae production, currently under development at Palermo University, is described. The main ways through which the goal of costs containment is pursued are (i) the adoption of thin walled transparent tubing for the photo bioreactor, and (ii) an evacuated-head air-lift system. To the aim of providing a proof-of-concept of these ideas, a 500-liter pilot plant was built. This is presently being operated in semi-continuous mode under solar irradiation and external climatic conditions.
- Published
- 2017
35. Particle distribution in unbaffled stirred vessels
- Author
-
TAMBURINI, Alessandro, SCARGIALI, Francesca, MICALE, Giorgio Domenico Maria, BRUCATO, Alberto, Tamburini, A., Scargiali, F., Micale, G., and Brucato, A.
- Subjects
Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimici ,Settore ING-IND/24 - Principi Di Ingegneria Chimica ,lcsh:Computer engineering. Computer hardware ,Settore ING-IND/25 - Impianti Chimici ,lcsh:TP155-156 ,lcsh:TK7885-7895 ,Chemical Engineering (all) ,lcsh:Chemical engineering - Abstract
The present work is devoted to providing an insight into the solid-particle distribution within top-covered unbaffled stirred tanks via purposely collected local experimental data. Experiments were carried out on a lab- scale unbaffled stirred tank by making use of a recently introduced technique named Laser Sheet Image Analysis (LSIA). In its original formulation, the technique includes an image post-processing procedure to delete reflection effects on results. In the framework of the present work, a method combining the use of purposely produced fluorescent particles and a suitable camera high pass filter was devised and presented. Results collected with (new method) and without (old fashion) fluorescent particles were compared for comparison purposes and a satisfactory agreement was found, thus validating both the procedures devised to delete reflections. LSIA technique in the novel version was used to investigate the distribution of solid particles at different agitation speeds in an unbaffled tank stirred by either a marine propeller or by a Rushton turbine. On overall, collected results show that the propeller configuration provides somewhat better particle distribution throughout the tank as compared with Rushton turbine operated at the same agitation speed. The two stable toroidal attractors for solid particles there observed are recognizable also here, though with a configuration significantly different due to the diverse flow fields.
- Published
- 2017
36. Reflection-refraction effects on light distribution inside tubular photobioreactors
- Author
-
Marotta, Gaspare, primary, Pruvost, Jeremy, additional, Scargiali, Francesca, additional, Caputo, Giuseppe, additional, and Brucato, Alberto, additional
- Published
- 2017
- Full Text
- View/download PDF
37. Top-covered unbaffled stirred tanks: experiments and numerical simulations
- Author
-
TAMBURINI, Alessandro, SCARGIALI, Francesca, CIPOLLINA, Andrea, MICALE, Giorgio Domenico Maria, CIOFALO, Michele, BRUCATO, Alberto, Tamburini, A, Scargiali, F, Cipollina, A, Micale, M, Ciofalo, M, and Brucato, A
- Subjects
CFD, Mixing, Stirred tank ,CFD, Mixing, Stirred tanks ,Unbaffled - Abstract
In this work computational fluid dynamics was employed to predict the flow field of an unbaffled stirred tank from steady to turbulent conditions
- Published
- 2015
38. Comparison of Agitators Performance for Particle Suspension in Top-Covered Unbaffled Vessels
- Author
-
TAMBURINI, Alessandro, CIPOLLINA, Andrea, GRISAFI, Franco, SCARGIALI, Francesca, MICALE, Giorgio Domenico Maria, BRUCATO, Alberto, Tamburini, A, Cipollina, A, Grisafi, F, Scargiali, F, Micale, GDM, and Brucato, A
- Subjects
Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimici ,lcsh:Computer engineering. Computer hardware ,Settore ING-IND/25 - Impianti Chimici ,lcsh:TP155-156 ,lcsh:TK7885-7895 ,lcsh:Chemical engineering ,Mixing, Stirred Tanks, Solid-Liquid Suspensions, Unbaffled Tanks - Abstract
Power savings is a problem of crucial importance nowadays. In process industry, suspension of solid particles into liquids is usually obtained by employing stirred tanks, which often are very power demanding. Notwithstanding tanks provided with baffles are traditionally adopted for this task, recent studies have shown that power reductions can be obtained in top-covered unbaffled vessels. In the present work experiments were carried out in a top-covered unbaffled vessel with a diameter T=0.19m and filled with distilled water and silica particles. Two different turbines were tested: a standard six-bladed Rushton Turbine (RT) and a 45° four bladed Pitched Blade Turbine (PBT). For the case of the PBT both the up-pumping (PBT-Up) and the down- pumping (PBT-Down) operation mode were tested. Two different impeller sizes D (T/3 and T/2) and clearances C (T/3 and T/10) were investigated. The effects of particle size and concentration were also assessed. Investigations concern the assessment of the minimum impeller speed for complete suspension (Njs) along with the measurement of the relevant power consumption (Pjs) aiming at identifying the most efficient tank-turbine configuration among those investigated here. Results were also compared with corresponding ones pertaining to baffled tanks (obtained via correlations available in the literature). Results have shown that the RT with D=T/3 and C=T/3 and the PBT-Up with D=T/2 and C=T/10 appear to be the most convenient (least power demanding) options. Finally, a significant power saving with respect to the most efficient baffled configurations was observed thus confirming the convenience of operating solid-liquid suspensions in an unbaffled system for all those processes where the mixing time is not a limiting factor.
- Published
- 2015
39. Pollutants Removal from Municipal Sewage by Means of Microalgae.
- Author
-
Lima, Serena, Villanova, Valeria, Richiusa, Monica, Grisafi, Franco, Scargiali, Francesca, and Brucato, Alberto
- Subjects
POLLUTANTS ,SEWAGE purification ,MICROALGAE ,CHEMICAL energy ,CHEMICAL oxygen demand - Abstract
Microalgae are microorganisms able to photosynthesize, namely transforming inorganic substrates and sun light into organic compounds and chemical energy. The industry of microalgae has expanded in the last decades and several applications are now developed, making their biomass interesting under an economic perspective. Nannochlopsis gaditana is one of the most interesting species already employed in industry because of its high content in lipids that could be employed as source for biodiesel synthesis but also in other fields such as cosmetic and pharmaceutic. One of the most promising application is the exploitation of microalgal grow for bioremediating wastewaters polluted with inorganic nutrients such as nitrates and phosphates that microalgae are able to employ as nutrients. Bio-treatment of wastewaters by using microalgae has the advantage to reclassify the water and preserve it from wasting while producing a valuable biomass. In this work, a microalgal strain, Nannochloropsis gaditana, was employed for testing its performance in the bioremediation of municipal sewages. The wastewater was taken from a municipal plant, after the primary treatment, and the algae processing was aimed at replacing the secondary treatment. Algal growth in its growth medium and in the sewage was compared and algal biomass was characterized. Biochemical Oxygen Demand (BOD), Chemical Oxygen Demand (COD), total nitrogen and total phosphorous levels of the sewage before and after algae treatment were also determined in order to evaluate the efficiency of this microalgal strain on wastewater bioremediation. Our results showed that N. gaditana grows better in wastewater than in the control growth medium and it is able to efficiently remove nutrients from the sewage. However, COD and BOD values did not decrease after algal treatment. These results suggest that the use of selected bacteria and/or yeast strains (together with microalgae) could improve the efficiency of wastewater treatments decreasing BOD and COD values. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
40. CFD Simulation of Radially Stirred Baffled and Unbaffled Tanks.
- Author
-
Tamburini, Alessandro, Gagliano, Gaetano, Scargiali, Francesca, Micale, Giorgio, Brucato, Alberto, and Ciofalo, Michele
- Subjects
COMPUTATIONAL fluid dynamics ,TANKS ,MIXING ,CRYSTALLIZATION ,TURBULENT flow ,SOLID-liquid interfaces - Abstract
Stirred tanks typically employed in process industries are provided with baffles. Although the presence of baffles is known to guarantee good mixing rates, unbaffled vessels may be compulsory in some applications as crystallization, bioremediation, biotechnology and ore industry. A better understanding of unbaffled stirred vessels flow dynamics may allow (i) a proper design to be performed and (i) conditions/processes where baffle presence can be avoided to be recognized. In the present study, the k-ω SST was used to simulate an unbaffled tank from early to fully turbulent regime (Re≈600-33,000). The unbaffled tank simulated has a diameter T=0.19m and is stirred by a standard sixbladed Rushton turbine with diameter D=T/2 and clearance C=T/3. A corresponding baffled tank was also simulated in order to compare the the two systems. A time dependent Sliding Grid approach was employed for the baffled tank to account for the impeller-to-baffle relative rotation. Conversely, for the case of the unbaffled vessel, a reference frame rotating with the impeller was adopted. Experimental literature data concerning the power and pumping numbers were employed for the simulation validation. RANS results were in good agreement with the experimental data for the baffled case at the largest Re, whereas predictions for the unbaffled vessel exhibited a less satisfactory agreement with experimental data. The latter finding may be due to the poor capability of the two-equations model to manage the anisotropic turbulence typical of high swirling flows. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
41. Oxygen Transfer Performances of Unbaffled Bio_Reactors with Various Aspect Ratios
- Author
-
SCARGIALI, Francesca, GRISAFI, Franco, MICALE, Giorgio Domenico Maria, TAMBURINI, Alessandro, BRUCATO, Alberto, Busciglio, A, Scargiali F., Busciglio A., Grisafi F., Micale G., Tamburini A., Brucato A., Scargiali, F, Busciglio, A, Grisafi, F, Micale, G, Tamburini, A, and Brucato, A
- Subjects
Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimici ,lcsh:Computer engineering. Computer hardware ,Settore ING-IND/25 - Impianti Chimici ,lcsh:TP155-156 ,stirred tanks, unbaffled, gas-liquid ,lcsh:TK7885-7895 ,UNBAFFLED STIRRED VESSELS ,lcsh:Chemical engineering ,Multiphase bioreactor ,Free-surface vortice ,Oxygen mass transfer - Abstract
Cultivation of microorganisms, plants or animal cells requires liquid agitation in order to ensure oxygen and nutrient transfer and to maintain cell suspension. Many studies on animal cell damage due to mechanical agitation and sparging aeration have shown that mechanical damage of freely suspended animal cells is in most cases associated with bursting bubbles at the air–liquid interface (Barrett et al., 2010). Gas bubbles are usually generated by direct air sparging aimed at supplying oxygen to the culture medium. Mechanical agitation may also introduce gas bubbles in the culture medium via vortexing entrainment from the free surface. In this work oxygen transfer performance of an unbaffled stirred bioreactor, with various aspect ratios, is presented in view of its use as a biochemical reactor for animal cell growth. In practice oxygen mass transfer occurs through the (more or less deep) free surface vortex which takes place when agitation is started in unbaffled vessels. If this vortex is not allowed to reach impeller blades, bubble formation and subsequent bursting at the free-surface is avoided. Experimental results show that this kind of bioreactor can provide sufficient oxygen mass transfer for animal cell growth, so resulting in a viable alternative to the more common sparged reactors. The mass- transfer performance observed with the different aspect ratio configurations is also presented and discussed.
- Published
- 2014
42. Apparato di sintesi su letto catalitico e separazione di fasi liquido-gas
- Author
-
BRUCATO, Alberto, GRISAFI, Franco, MICALE, Giorgio Domenico Maria, SCARGIALI, Francesca, Busciglio, A, Roccaforte, F, Di Lella, E., Brucato, A, Grisafi, F, Micale, GDM, Scargiali, F, Busciglio, A, Roccaforte, F, and Di Lella, E
- Subjects
Settore ING-IND/25 - Impianti Chimici ,biodiesel, reattore-separatore ,catalisi eterogenea - Abstract
Apparato di sintesi su letto catalitico e di separazione dei prodotti di sintesi comprendenti una fase gassosa e due fasi liquide, una fase liquida più pesante e l’altra fase liquida più leggera, l’apparato comprendente - un modulo di sintesi (M1) comprendente un primo tubo (1) provvisto ad una prima estremità di un’apertura e chiuso ad una seconda estremità da una griglia (7), il primo tubo (1) essendo atto a contenere al suo interno un letto catalitico (6); - ed un modulo di separazione (M2) per separare le due fasi liquide e la fase gassosa provenienti dal modulo di sintesi (M1), comprendente un secondo tubo (1’) disposto adiacente alla seconda estremità del primo tubo (1), comunicante con esso ad una sua prima estremità, ed avente ad una sua seconda estremità un elemento di chiusura (13) provvisto di un foro passante.
- Published
- 2011
43. Vortex shape in unbaffled stirred vessels: experimental study via digital image analysis
- Author
-
Busciglio, A, Davì, ML, GRISAFI, Franco, SCARGIALI, Francesca, BRUCATO, Alberto, Busciglio A., Grisafi F., Scargiali F., Daví M.L., Brucato A., Busciglio, A, Grisafi, F, Scargiali, F, Davì, ML, and Brucato, A
- Subjects
lcsh:Computer engineering. Computer hardware ,Settore ING-IND/25 - Impianti Chimici ,digital image analysi ,lcsh:TP155-156 ,bioreactors ,lcsh:TK7885-7895 ,surface vortex ,ComputingMethodologies_DOCUMENTANDTEXTPROCESSING ,unbuffled stirred vessel ,UNBAFFLED STIRRED VESSELS ,lcsh:Chemical engineering ,unbuffled stirred vessels ,Free-surface vortice ,ComputingMilieux_MISCELLANEOUS ,ComputingMethodologies_COMPUTERGRAPHICS - Abstract
There is a growing interest in using unbaffled stirred tanks for addressing certain processing needs. In this work, digital image analysis coupled with a suitable shadowgraphy-based technique is used to investigate the shape of the free-surface vortex that forms in uncovered unbaffled stirred tanks. The technique is based on back-lighting the vessel and suitably averaging vortex shape over time. Impeller clearance from vessel bottom and tank filling level are varied to investigate their influence on vortex shape. A correlation is finally proposed to fully describe vortex shape also when the vortex encompasses the impeller.
- Published
- 2011
44. Mass transfer and hydrodynamic characteristics of a Long Draft Tube Self-ingesting Reactor (LDTSR) for gas-liquid-solid operations
- Author
-
SCARGIALI, Francesca, GRISAFI, Franco, BRUCATO, Alberto, Busciglio, A, Scargiali, F, Busciglio, A, Grisafi, F, and Brucato, A
- Subjects
three phase system ,Settore ING-IND/25 - Impianti Chimici ,gas-liquid-solid ,self-inducing reactors - Abstract
Gas-liquid stirred vessels are widely employed to carry out chemical reactions involving a gas reagent and a liquid phase. The usual way for introducing the gas stream into the liquid phase is through suitable distributors placed below the impeller. An interesting alternative is that of using “self ingesting” vessels where the headspace gas phase is injected and dispersed into the vessel through suitable surface vortices. In this work the performance of a Long Draft Tube Self-ingesting Reactor dealing with gas-liquid-solid systems, is investigated. Preliminary experimental results on the effectiveness of this contactor for particle suspension and gas-liquid mass transfer performance in presence of solid particles are presented. It is found that the presence of low particle fractions causes a significant increase in the minimum speed required for vortex ingestion of the gas. Impeller pumping capacity and gas-liquid mass transfer coefficient are found to be affected by the presence of solid particles, though to a lesser extent than with other self-ingesting devices.
- Published
- 2011
45. Local gas-liquid hold-up and interfacial area via light sheet and image analysis
- Author
-
Busciglio, A, SCARGIALI, Francesca, GRISAFI, Franco, BRUCATO, Alberto, Busciglio, A, Scargiali, F, Grisafi,F, and Brucato, A
- Subjects
Settore ING-IND/25 - Impianti Chimici ,Gas-Liquid flows, Bubbles, BSD, LIF-SABS, local hold-up, interfacial area - Abstract
Particle Image Velocimetry techniques coupled with advanced Image Processing tools are receiving an increasing interest for measuring flow quantities and local bubble-size distributions in gas-liquid contactors. In this work, an effective experimental technique for measuring local gas hold-up and interfacial area, as well as bubble size distribution, is discussed. The technique, hereafter referred to as Laser Induced Fluorescence with Shadow Analysis for Bubble Sizing (LIF-SABS) is based on laser sheet illumination of the gas-liquid dispersion and synchronized camera, i.e. on equipment typically available within PIV set-ups. The liquid phase is made fluorescent by a suitable dye, and an optical filter is placed in front of the camera optics, in order to allow only fluoresced light to reach the camera CCD. In this way bubbles intercepted by the laser sheet are clearly identified thanks to the neat shade resulting in the images. This allows excluding from subsequent analysis all bubbles visible in the images but not actually intercepted by the laser sheet, so resulting in better spatial resolution and data reliability. When trying to analyze image information the problem arises that bubble sizes are generally underestimated, due to the fact that the laser sheet randomly cuts bubbles over non-diametrical planes, leading to an apparent bubble size distribution even in the ideal case of single sized bubbles. Clearly in the case of bubbles with a size distribution the experimental information obtained is affected by the superposition of effects. A statistical correction for estimating local gas hold-up and specific interfacial area from relevant apparent data as obtained by laser sheet illumination and image analysis is discussed and applied to preliminary experimental data obtained in a gas-liquid stirred vessel.
- Published
- 2010
46. AREA-TO-VOLUME DATA TRANSLATION IN THE MEASUREMENT OF BUBBLE SIZE DISTRIBUTIONS VIA LASER SHEET AND IMAGE ANALYSIS
- Author
-
BUSCIGLIO, Antonio, GRISAFI, Franco, SCARGIALI, Francesca, BRUCATO, Alberto, Busciglio A., Grisafi F., Scargiali F., Brucato A., BUSCIGLIO, A, GRISAFI, F, SCARGIALI, F, and BRUCATO, A
- Subjects
lcsh:Computer engineering. Computer hardware ,Gas-liquid dispersion ,Settore ING-IND/25 - Impianti Chimici ,MIXING ,BUBBLE SIZE DISTRIBUTION ,lcsh:TP155-156 ,lcsh:TK7885-7895 ,lcsh:Chemical engineering ,gas-liquid, hold up, image analysis - Abstract
Not available.
- Published
- 2009
47. A NOVEL TECHNIQUE FOR MEASURING LOCAL BUBBLE SIZE DISTRIBUTION
- Author
-
BUSCIGLIO, Antonio, BRUCATO, Alberto, SCARGIALI, Francesca, GRISAFI, Franco, Busciglio, A., Brucato, A, Scargiali, F, and Grisafi, F
- Subjects
Settore ING-IND/25 - Impianti Chimici ,gas-liquid systems, stirred vessels, image analysis, bubble size distribution - Abstract
A novel experimental technique for measuring the local gas hold-up and the statistical distribution of local bubble size, is proposed. The technique is based on laser sheet illumination of the gas-liquid dispersion and synchronized camera, i.e. on equipment typically available in PIV set-ups. The liquid phase is made fluorescent by a suitable dye, and a band-pass optical filter is placed in front of the camera optics, in order to allow only fluoresced light to reach the camera CCD. In this way bubbles intercepted by the laser sheet are clearly identified thanks to the neat shade resulting in the images. This allows excluding from subsequent analysis all bubbles visible in the images but not actually intercepted by the laser sheet, so resulting in better spatial resolution and data reliability. Preliminary data obtained in a stirred gas-liquid dispersion confirm the technique viability and reliability.
- Published
- 2009
48. CFD simulation of a mixing-sensitive reaction in unbaffled vessels
- Author
-
GRISAFI, Franco, SCARGIALI, Francesca, BRUCATO, Alberto, Prof. Sauro Pierucci, Grisafi, F, Scargiali, F, and Brucato, A
- Subjects
stirred vessel ,mixing-sensitive reaction ,Settore ING-IND/25 - Impianti Chimici ,CFD - Abstract
Stirred tanks are widely used in the process industry, often to carry out complex chemical reactions. In many of such cases the perfect mixing hypothesis is not applicable for modelling purposes, and more detailed modelling approaches are required in order to accurately describe the reactor behaviour. In this work a fully predictive modelling approach, based on Computational Fluid Dynamics, is developed. Model predictions are compared with original experimental data obtained in un unbaffled stirred vessel with a parallel-competitive, mixing sensitive reaction scheme. Notably, satisfactory results are obtained at all injection rates with no recourse to micro-mixing model, thus confirming the major role played by macro-mixing in the investigated system.
- Published
- 2008
49. Gas-liquid dispersions in mechanically agitated contactors
- Author
-
SCARGIALI, Francesca and SCARGIALI F
- Published
- 2007
50. Combined Gasification-Oxidation System for Waste Treatment with Supercritical Water: LCA and Performance Analysis.
- Author
-
Iannotta, Pasquale, Caputo, Giuseppe, Scargiali, Francesca, Longo, Sonia, Cellura, Maurizio, and Brucato, Alberto
- Abstract
In this study the environmental performance of a first-of-its-kind integrated process based on supercritical water gasification and oxidation (SCW-GcO), was evaluated using life cycle assessment (LCA). The process was applied to the treatment of carbon black and used oil as model wastes. Mass and energy balances were performed using Aspen Plus, and the environmental assessment was carried out through SimaPro. A "from cradle to grave" approach was chosen for the analysis, considering impact categories such as climate change, ozone depletion, human toxicity, particulate matter, land use, resource depletion, and other relevant indicators. The environmental profile of the SCW-GcO process was compared to other technologies for the treatment of dangerous wastes, solvent mixtures, and exhaust mineral oils by using the Ecoinvent database. It is shown that SCW-GcO allows for reduced impacts in different categories and the obtention of a favorable positive life cycle energy balance, achieving good environmental performance. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
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