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Panagiotis PSALIDAS

PARIS

Résultats examens 2026

RETROUVEZ GRATUITEMENT Le résultat du bac à ParisLe résultat du brevet à Paris Le résultat du BTS à Paris

En résumé

Mes compétences :
Machines tournantes
Process Engineering
Pétrochimie
Génie des Procédés
Polymères
Pétrole
Raffinage
Optimisation des process
Logistique
Thermodynamique

Entreprises

  • Armée Grecque - Ingénieur chimiste

    2015 - maintenant Neuf (9) mois de service militaire obligatoire comme ingénieur chimiste au Laboratoire des carburants et des lubrifiants de l'armée grecque. Contrôle de la qualité et des tests de combustibles militaires (diesel, essence et carburant aviation) et de lubrifiants. Plusieurs méthodes d'analyse, y compris la distillation, point d'éclair, etc.
    En charge d'une équipe de 10 personnes.

  • Aker Solutions - Ingénieur Process

    Vincennes 2014 - 2014 Dimensionnement d'équipements, d'instrument et des lignes, préparation DataSheets, contrôle des documents, UPSTREAM

  • Axens - Ingénieur Procédés

    Rueil-Malmaison 2013 - 2013 Process Engineering for the "Middle Distillates and Conversion" Business Line. Sizing of Equipment (Pumps, Drums, Compressors, Heat Exchangers), design of instrumentation (Control valves, valves ON/OFF), Preparation of Data Sheets, Preparation of Process Book, Development of PIDs and PFDs, simulation (PRO II).

  • Center of Research and Technology Hellas (Greece) - Ingénieur Procédés

    2011 - 2011 "Catalyst Evaluation for Waste Cooking Oil Hydroprocessing"

    Catalytic hydroprocessing is an effective technology with various applications in the petrochemical industry that is lately expanding in the area of biofuels production. The selection of a hydroprocessing catalyst is a critical step defining the hydrotreating products yields and their corresponding quality as well as the expected run-length of the process. This work involved the process of selecting a suitable hydroprocessing catalyst for the conversion of waste cooking oil into biofuels. In particular, three commercial catalysts were evaluated: a hydrotreating catalyst (A), a severe hydrocracking catalyst (C) and a mild-hydrocracking catalyst (B). The catalyst effectiveness was assessed over a temperature range suggested by the catalyst manufacturers, covering a temperature range of 330-390°C, under constant LHSV (1hr-1) and a range of pressure 8.27–13.79MPa. As the three catalysts explored have different applications, their corresponding operating ranges vary significantly. However, in this study most parameters were maintained at equal level. The hydrotreating catalyst (A) exhibited the highest conversion (~83%) as well as the highest diesel selectivity. In all cases the diesel yields were over 94%. Catalyst A showed a drastic activity on heteroatoms removal. In terms of saturation indicated by the C/H ratio, catalysts A and C appeared better than catalyst B. Therefore, catalyst A was the best catalyst for WCO hydroprocessing for biodiesel production.

Formations

  • IFP School / ENSPM

    Rueil Malmaison 2012 - 2013 Diplome d'Ingénieur

    Refining Processes
    Monomers Manufacturing
    Polymers
    Thermodynamics
    Process Control
    Polymers Manufacturing (injection molding)
    Oil & Gas Economics
    Logistics
    Process Optimization

  • Aristotle University Of Thessaloniki

    Thessaloniki 2005 - 2012 Ingénieur génie chimie

    Thermodynamics, Process Dynamics, Maths, Engineering, Economics, Transfer phenomena, Process Control, Process Engineering, Chemistry.
    Sujet de mémoire: "Catalyst Evaluation for Waste Cooking Oil Hydroprocessing"

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