Your search keyword '"Davide Bascone"' showing total 6 results

1. A modelling approach for the comparison between intensified extraction in small channels and conventional solvent extraction technologies

Author

Panagiota Angeli, Davide Bascone, and Eric S. Fraga

Subjects

Pressure drop, Materials science, business.industry, Applied Mathematics, General Chemical Engineering, Nuclear criticality safety, Separator (oil production), Process design, General Chemistry, PUREX, Industrial and Manufacturing Engineering, Spent nuclear fuel, Nonlinear system, Mass transfer, Process engineering, business

Abstract

In this paper, the application of small channels to the extraction separations in spent nuclear fuel reprocessing has been investigated via a modelling approach. The results are compared with conventional liquid-liquid extraction technologies such as mixer-settlers and pulsed columns, using models from the literature. In the model mass transfer, redox reactions, pressure drop and nuclear criticality are taken into account, as well as manifold and two-phase separator designs for the small-scale technology. The resulting model, posed as an optimisation problem, is a mixed integer nonlinear problem, implemented in the General Algebraic Modeling System (GAMS). An alternative flowsheet for the codecontamination section of the PUREX process, as a case study, has been investigated. The results show that the small-scale technology could be beneficial, in particular in terms of volumetric mass transfer coefficients, nuclear criticality safety and short residence time, which improves neptunium separation and reduces solvent degradation.

Published

2019

2. Modelling and Nonlinear Model Predictive Control of a Twin Screw Feeder

Author

Federico Galvanin, Davide Bascone, Salvador García-Muñoz, and Nilay Shah

Subjects

0209 industrial biotechnology, Computer science, 020208 electrical & electronic engineering, Process (computing), 02 engineering and technology, Dead time, Nonlinear system, Model predictive control, 020901 industrial engineering & automation, Control and Systems Engineering, Control theory, Control system, 0202 electrical engineering, electronic engineering, information engineering, Mass flow rate, Range (statistics)

Abstract

In this work, a dynamic model of a twin screw feeder, for continuous tablet manufacturing, has been developed. In particular, a First Order Plus Dead Time (FOPDT) model has been suggested. The delayed dynamics depends on operating conditions, equipment design and physical properties of the bulk solid. Model parameters are estimated by fitting the model to experimental data. Due to the nonlinear input-output relationships and the time delays involved, a Nonlinear Model Predictive Control (NMPC) is investigated to maintain an accurate mass flow rate, with the ultimate goal to improve product homogeneity in an inherently complex process. The performance of the designed control system is found to be satisfactory in a wide operating range and its potential use in a continuous manufacturing process is worth being investigated in the future.

Published

2019

3. Hybrid mechanistic-empirical approach to the modeling of twin screw feeders for continuous tablet manufacturing

Author

Federico Galvanin, Salvador García-Muñoz, Nilay Shah, Davide Bascone, and Eli Lilly & Company (USA)

Subjects

Engineering, Technology, Engineering, Chemical, BULK-DENSITY, General Chemical Engineering, FLOW, 02 engineering and technology, Industrial and Manufacturing Engineering, VALIDATION, 09 Engineering, 020401 chemical engineering, HOPPERS, 0204 chemical engineering, Process engineering, Science & Technology, PHARMACEUTICAL PROCESSES, business.industry, General Chemistry, PERFORMANCE, Chemical Engineering, 021001 nanoscience & nanotechnology, POWDERS, THEORETICAL-ANALYSIS, STRESSES, SIMULATION, 0210 nano-technology, business, 03 Chemical Sciences

Abstract

Nowadays, screw feeders are popular equipment in the pharmaceutical industry. However, despite the increasing research in the last decade in the manufacturing of powder-based products, there is still a lack of knowledge on the physics governing the dynamic behavior of these systems. As a result, data-driven models have often been used to address process design, optimization, and control applications. In this paper, a methodology for the modeling of twin screw feeders has been suggested. A first order plus dead time model has been developed, where a hybrid mechanistic-empirical approach has been used. Different powders and two screw feeder geometries have been investigated. The model predictions are in good agreement with the experimental measurements when the 35 mm diameter screws are employed. When the 20 mm diameter screws are used, the validity range of the model is limited for the least cohesive powders, suggesting that their screw speed-dependent resistance to flow in small screws requires further investigations.

Published

2020

4. Simulation of a regeneration plant for spent pickling solutions via spray roasting

Author

Marco Morreale, Serena Randazzo, F. Santoro, Andrea Cipollina, Davide Bascone, Giorgio Micale, Bascone, D., Cipollina, A., Morreale, M., Randazzo, S., Santoro, F., and Micale, G.

Subjects

Waste management, Pyrohydrolysis plant, Water flow, Ocean Engineering, Hydrochloric acid, 02 engineering and technology, 021001 nanoscience & nanotechnology, Pollution, Process simulation, chemistry.chemical_compound, pyrohydrolysis plant, hydrochloric acid regeneration, 020401 chemical engineering, chemistry, Fluidized bed, Hazardous waste, Hydrochloric acid regeneration, Pickling, Environmental science, 0204 chemical engineering, 0210 nano-technology, Water Science and Technology, Roasting, Waste disposal

Abstract

Nowadays, pyrohydrolysis techniques are widely applied for regeneration of spent pickling liquors providing an excellent environmental and economical strategy to the problem of waste disposal/recovery, also thanks to the high acid recovery efficiencies (>99%) achieved. In fact, in these processes, iron chlorides are converted into iron oxides and hydrogen chloride at high temperature in spray roasting or fluidized bed reactors. Though the state-of-the-art technologies have been successfully applied only to large-scale plants, the development of small-scale units, able to perform a delocalized regeneration of spent solutions where these latter are actually produced, would be strongly needed in order to minimize the transportation of hazardous spent pickling and fresh HCl solutions to/from pickling factories from/to large centralized regeneration plants. In the present work, a steady-state simulation model for regeneration of spent pickling liquor via spray roasting has been developed, aiming at the analysis of performance of a small-scale unit. The simulation and optimization of the process has been carried out using Aspen Plus simulator. A simplified model of the spray roaster, based on the data collected from studies reported in the literature, has been implemented and exported from Aspen Custom Modeler. Solid recovery from roaster off-gases has been obtained by a cyclone and a Venturi scrubber, where the spent pickling liquor is concentrated prior to be sprayed into the reactor. Hydrogen chloride is absorbed in an adiabatic absorber, where a sub-azeotropic (18–20 wt%) hydrochloric solution is obtained. Prior to the stack, a scrubber is required to wash off the exhaust gases. Several parametric studies have been performed. Different designs of solid separators have been compared in order to investigate the particulate separation efficiency of the process, while absorption column’s packing types and rinse water flow rates have been varied in order to investigate their effects on HCl recovery and acid gas emissions.

Published

2016

5. Optimal design of a COEX process for spent nuclear fuel reprocessing using small channels

Author

Davide Bascone, Eric S. Fraga, and Panagiota Angeli

Subjects

Optimal design, business.industry, Scale (chemistry), chemistry.chemical_element, Uranium, Spent nuclear fuel, Plutonium, chemistry, Mass transfer, Environmental science, Extraction (military), Process engineering, business, Contactor

Abstract

The use of small channels for liquid-liquid extraction seems to be promising, since hydrodynamics are more easily controlled and mass transfer is enhanced. The use of small scale contactors may be particularly beneficial for spent nuclear fuel (SNF) reprocessing, due to the small size and consequent safety improvements. In this paper, a mathematical model for the intensified liquid-liquid extraction in small channels has been developed. A multi-component system is considered, including most of the components in the SNF. The resulting model is a large scale mixed integer nonlinear optimisation problem. A novel design of the COEX (co-extraction of uranium and plutonium) process, employing small channels, is presented. Results show that several improvements are obtained, compared to traditional technologies, in terms of safety and solvent degradation.

Published

2018

6. Mathematical Modelling of Intensified Extraction for Spent Nuclear Fuel Reprocessing

Author

Eric S. Fraga, Panagiota Angeli, and Davide Bascone

Subjects

Nuclear fuel cycle, Engineering, business.industry, 020209 energy, Nuclear engineering, Extraction (chemistry), Process design, 02 engineering and technology, 021001 nanoscience & nanotechnology, Spent nuclear fuel, Liquid–liquid extraction, Scientific method, 0202 electrical engineering, electronic engineering, information engineering, 0210 nano-technology, business, Contactor

Abstract

The preliminary design of a process consisting of extraction, back extraction and solvent recycling using small extractors has been investigated. In this paper a mathematical model of multicomponent Liquid-Liquid Extraction (LLE) during segmented flow in small channels is presented. The resulting model, suitable for applications to Spent Nuclear Fuel (SNF) reprocessing, can be used to explore alternative flowsheets for the nuclear fuel cycle employing the novel two-phase contactors. Case studies have shown that, using small scale contactors, significant improvements may be achieved.

Published

2017