Dottorato in Energetica , 34^o ciclo (2018-2021)

Dottorato concluso nel 2022

Profilo

Argomento di ricerca

Model- and sensor-based algorithms for air-path, combustion and emission control in diesel engines

Interessi di ricerca

Clean Mobility and Innovative Powertrains

Biografia

Diesel powertrains will remain an indispensable energy carrier to meet the CO2 emission targets in the short-term, especially for light-duty and heavy-duty applications. Innovative solutions are needed in order to increase thermal efficiency and decrease engine-out and tailpipe emissions (especially NOx, PM), so as to meet the more and more stringentregulations. Among the different technologies which have been recently proposed, a significant contribution will be given by the development of advanced techniques for the control (sensor-based or model-based) of in-cylinder combustion and pollutant formation processes. This has been made possible by the recent advances in the performance of modern ECUs.
The research goal is to develop and assess model-based and sensor-based algorithms for air path, combustion and emission control in diesel engines. This requires to address the following problems:

Find appropriate black-box model structure: family and order. The model complexity has to be as small as possible.
Development of test procedures: how to extract as much information as possible, in a reasonable amount of time, from the real system in order to build the model.
EGR mass flow estimation: obtaining the HP and LP EGR mass flows given the intake O2 concentration and LAMBDA measurements.
Control variable selection: correlations between variables involved in the combustion process and the pollutant emission (NOx).

The adoption of model based control systems will offer several advantages over the traditional map-based approach, both on terms of calibration effort (maps are expensive to build) and engine performance increase and emission reduction. Self-adaptive features for the models and the control system can be added exploiting the informations coming from the available sensors. This method well suits control systems realized through maching learning algorithms.

Didattica

Insegnamenti

Corso di laurea magistrale

Combustion engines and their application to vehicle. A.A. 2019/20, AUTOMOTIVE ENGINEERING (INGEGNERIA DELL'AUTOVEICOLO). Collaboratore del corso
Propulsion systems and their applications to vehicles. A.A. 2020/21, AUTOMOTIVE ENGINEERING (INGEGNERIA DELL'AUTOVEICOLO). Collaboratore del corso
Propulsion systems and their applications to vehicles. A.A. 2021/22, AUTOMOTIVE ENGINEERING (INGEGNERIA DELL'AUTOVEICOLO). Collaboratore del corso
Automotive control systems. A.A. 2020/21, INGEGNERIA INFORMATICA (COMPUTER ENGINEERING). Collaboratore del corso
Automotive control systems. A.A. 2021/22, INGEGNERIA INFORMATICA (COMPUTER ENGINEERING). Collaboratore del corso

MostraNascondi A.A. passati

Corso di laurea di 1° livello

Fondamenti di macchine e di oleodinamica. A.A. 2018/19, INGEGNERIA MECCANICA. Collaboratore del corso
Fondamenti di macchine e di oleodinamica. A.A. 2019/20, INGEGNERIA MECCANICA. Collaboratore del corso
Fondamenti di macchine e di oleodinamica. A.A. 2020/21, INGEGNERIA MECCANICA. Collaboratore del corso
Fondamenti di macchine e di oleodinamica. A.A. 2021/22, INGEGNERIA MECCANICA. Collaboratore del corso

MostraNascondi A.A. passati

Pubblicazioni

Pubblicazioni durante il dottorato Vedi tutte le pubblicazioni su Porto@Iris

Ventura, Loris; Malan, Stefano (2022)
Air path and combustion controls coordination in diesel engine. In: Proceedings of the 2022 22nd International Conference on Control, Automation and Systems, BEXCO, Busan, Corea del Sud, Nov. 27~Dec. 01, 2022, pp. 354-359. ISBN: 978-89-93215-25-0
Contributo in Atti di Convegno (Proceeding)
Ventura, Loris (2022)
Development and assessment of model-based and sensor-based algorithms for combustion and emission control in diesel engines. relatore: FINESSO, ROBERTO; MALAN, STEFANO ALBERTO; , 34. XXXIV Ciclo, P.: 149
Doctoral Thesis
Ventura, Loris; Manelli, Andrea; Malan, Stefano (2021)
Diesel Engine Cycle to Cycle Feed-forward plus Closed-loop Combustion Control. In: 6th IFAC Conference on Engine and Powertrain Control, Simulation and Modeling, Tokyo, August 23-25, 2021, pp. 119-125
Contributo in Atti di Convegno (Proceeding)
Ventura, Loris; Malan, Stefano (2020)
Intake O2 Concentration Estimation in a Turbocharged Diesel Engine through NOE. In: Conference on Sustainable Mobility, Catania, 4-7 October 2020
Contributo in Atti di Convegno (Proceeding)
Ventura, Loris; Finesso, Roberto; Malan, Stefano A.; D'Ambrosio, Stefano; Manelli, Andrea (2019)
Model-based design of closed loop controllers of the air-path in a heavy duty diesel engine. In: 74° Congresso Nazionale ATI, Modena, 2019
Contributo in Atti di Convegno (Proceeding)
Manelli, Andrea; Finesso, Roberto; D'Ambrosio, Stefano; Ventura, Loris (2019)
Model-based control of torque and nitrogen oxide emissions in a Euro VI 3.0L diesel engine through model-in-the-loop. In: 74° Congresso Nazionale ATI, Modena, 2019
Contributo in Atti di Convegno (Proceeding)
Hu, S.; D'Ambrosio, S.; Finesso, R.; Manelli, Andrea; Marzano, M. R.; Mittica, A.; ... (2019)
Comparison of physics-based, semi-empirical and neural network-based models for model-based combustion control in a 3.0 L diesel engine. In: ENERGIES, vol. 12. ISSN 1996-1073
Contributo su Rivista

Mostra altre pubblicazioniMostra meno pubblicazioni

Loris Ventura

Dottorato in Energetica , 34o ciclo (2018-2021)

Tesi:

Tutori:

Presentazione della ricerca: