CREA Lab

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  • The ERC Proof of Concept project PROVA has been funded

    The ERC Proof of Concept project PROVA has been funded

    We are happy that our ERC Proof of Concept project PROVA (Pitot pRobe for Organic VApours) is among the 62 projects funded by the European Research Council today!

    The ERC PoC project PROVA – Pitot pRobe for Organic VApours –  at the CREA laboratory (crealab.polimi.it) of Politecnico di MIlano will enable to design, build and calibrate a Pitot probe for flow velocity and Mach number measurements in subsonic and supersonic flows of organic vapours, in Organic Rankine Cycle power systems for renewable energy sources. A solution that raised the interest of the leading ORC players, representing over 90% of the market and of relevant manufacturers in close field of applications (oil & gas, compressors). Industrial partners will use our probe to perform mass flow and velocity measurements in turbines and other components, to validate the design or to assess installed system performances.

  • Accepted abstracts at ORC 2019

    Accepted abstracts at ORC 2019

    The following abstracts were submitted and accepted at the 5th international seminar on ORC power systems (ORC 2019).

     

    METHOD OF CHARACTERISTICS-BASED DESIGN AND NUMERICAL SIMULATION OF A MICRO-ORC SUPERSONIC TURBINE NOZZLE RING
    Marta Zocca, Antti Uusitalo, Teemu Turunen-Saaresti and Alberto Guardone

    [button size=’small’ style=” text=’DOWNLOAD’ icon=” icon_color=’#ffffff’ link=’https://crealab.polimi.it/wp-content/uploads/2019/04/abstract.151.ZoccaUusitaloEtAl-ORC19-abstract.pdf’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’normal’ font_weight=’300′ text_align=’center’ margin=’10’]

     

    MASS FLOW RATE OF NON-IDEAL CHOCKED FLOWS IN TURBINE STATORS
    Marta Zocca and Alberto Guardone

    [button size=’small’ style=” text=’DOWNLOAD’ icon=” icon_color=’#ffffff’ link=’https://crealab.polimi.it/wp-content/uploads/2019/04/abstract.170.ZoccaGuardone-ORC2019.pdf’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’normal’ font_weight=’300′ text_align=’center’ margin=’10’]

     

    THE ROLE OF OPERATIONAL VARIABILITY ON THE NON-IDEAL FLOW IN SUPERSONIC TURBINES FOR SUPERCRITICAL ORGANIC RANKINE CYCLES
    Alessandro Romei, Davide Vimercati, Alberto Guardone and Giacomo Persico

    [button size=’small’ style=” text=’DOWNLOAD’ icon=” icon_color=’#ffffff’ link=’https://crealab.polimi.it/wp-content/uploads/2019/04/orc2019_abstract_romei.pdf’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’normal’ font_weight=’300′ text_align=’center’ margin=’10’]

     

    THERMAL STABILITY OF A MIXTURE OF LINEAR SILOXANES
    Simone Gallarini, Andrea Spinelli, Luca Lietti and Alberto Guardone

    [button size=’small’ style=” text=’DOWNLOAD’ icon=” icon_color=’#ffffff’ link=’https://crealab.polimi.it/wp-content/uploads/2019/04/ORC2019-abstract_revfinale.pdf’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’normal’ font_weight=’300′ text_align=’center’ margin=’10’]

     

    EXPERIMENTAL CHARACTERIZATION OF NOZZLE FLOW EXPANSIONS OF SILOXANE MM FOR ORC TURBINES APPLICATIONS
    Giorgia Cammi, Camilla C. Conti, Andrea Spinelli, Fabio Cozzi and Alberto Guardone

    [button size=’small’ style=” text=’DOWNLOAD’ icon=” icon_color=’#ffffff’ link=’https://crealab.polimi.it/wp-content/uploads/2019/04/Abstract_TROVA.pdf’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’normal’ font_weight=’300′ text_align=’center’ margin=’10’]

  • New ERCOFTAC Special Interest Group on NICFD

    New ERCOFTAC Special Interest Group on NICFD

    ERCOFTAC are delighted to announce the creation of a new Special Interest Group (SIG) Non-ideal Compressible-Fuid Dynamics (nicfd)

    The main objectives of the SIG 49 are:

    • Spread the knowledge of NICFD
    • Bring together under the same umbrella researchers working in NICFD and interested in diverse engineering applications
    • Support the organization of the thematic workshops
    • Provide a platform to exchange information between academia and industry
    • Establish benchmarks for NICFD code validation
    • Establish an education network for undergraduate and graduate students as well as industry practitioners in the disciplines pertinent to NICFD

    Provide best practices guidelines for NICFD and possibly organize best practice courses following the example set by other SIGs

     

    [button size=’small’ style=” text=’To find out more about this exciting new SIG click here’ icon=” icon_color=’#ffffff’ link=’https://www.ercoftac.org/special_interest_groups/49_non-ideal_compressible_fluid_dynamics_nicfd_/’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’normal’ font_weight=’300′ text_align=’center’ margin=’10’]

  • AeroPhD Seminars

    AeroPhD Seminars

    Prof. Iaccarino (Stanford University), Prof. Luchini (Università di Salerno) and Prof. Pirozzoli (Sapienza Università di Roma) will present the latest findings in fluid mechanics, discussing on ensemble computing, universality law for turbulent flows and turbulent channel flows in complex geometries in seminars that will be held on Monday January 21st at Aerospace Department of Politecnico di Milano.

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    [button size=’medium’ style=” text=’FIND OUT MORE’ icon=” icon_color=” link=’https://www.eventi.polimi.it/events/aerophd-seminars/’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’italic’ font_weight=’600′ text_align=’center’ margin=’15’]

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  • PhD defence

    On Monday January 28th at 9.00 am in Sala Consiglio of DAER, Giulio Gori and Davide Vimercati will defend their PhD thesis. The committe is composed by Franco Auteri, Gianluca Iaccarino, Sergio Pirozzoli, Paolo Luchini and Edward Cox.

     

    NON-IDEAL STEADY SUPERSONIC FLOWS

    Davide Vimercati

    [button size=’small’ style=” text=’Download summary’ icon=” icon_color=’#ffffff’ link=’https://crealab.polimi.it/wp-content/uploads/2019/04/vimercati_dati_phd.pdf’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’normal’ font_weight=’300′ text_align=’center’ margin=’10’]

     

    NON-IDEAL COMPRESSIBLE-FLUID DYNAMICS: DEVELOPING A COMBINED PERSPECTIVE ON MODELING, NUMERICS AND EXPERIMENTS

    Giulio Gori

    [button size=’small’ style=” text=’Download summary’ icon=” icon_color=’#ffffff’ link=’https://crealab.polimi.it/wp-content/uploads/2019/04/gori_PHD.pdf’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’normal’ font_weight=’300′ text_align=’center’ margin=’10’]

     

     

  • Master Thesis Work on Non-ideal Compressible Flows

    Master Thesis Work on Non-ideal Compressible Flows

    Experimental investigation of non-ideal compressible flows of organic vapors for ORC applications 

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    Advisor: Spinelli Andrea
    Co-Advisors: Giorgia Cammi, Camilla Conti, Simone Gallarini, Alberto Guardone

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    The TROVA (Test Rig for Organic VApors) is a facility built at CREA Lab (Politecnico di Milano) implementing a batch organic Rankine cycle. The turbine is replaced by a test section, where fluid dynamics measurements are performed. Within a high-pressure reservoir an organic fluid (currently a siloxane) is evaporated up to non-ideal saturated, superheated or supercritical thermodynamic conditions. The vapor is then discharged through a planar, converging-diverging nozzle, the simplest test section which realizes an expansion process comparable to the one occurring within ORC turbine blade channels. The vapor is then condensed and pumped back to the high-pressure reservoir. The flow field within the nozzle is characterized by pressure and temperature measurements and by schlieren visualizations, aiming at investigating the different behavior with respect to the ideal gas one. In such a way, also the accuracy of the CFD tools (embedding non-ideal thermodynamic models) employed for the design/analysis of ORC components (and for diverse non-ideal applications) can be verified. Besides nozzle flows, are also of interest the study of non-ideal behavior of oblique and normal shock waves, which are obtained by inserting aerodynamic or bluff bodies within the supersonic flow downstream the TROVA test section.

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    The thesis consists in performing temperature, pressure and velocity measurements and schlieren visualizations in converging diverging nozzles, in the characterization of the fluid dynamics (shock waves) around aerodynamic bodies and in the comparison of experimental values with those obtained by CFD simulations.

    More info: andrea.spinelli@polimi.it

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    [button size=’medium’ style=” text=’APPLY’ icon=” icon_color=” link=’mailto:andrea.spinelli@polimi.it’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’italic’ font_weight=’600′ text_align=’center’ margin=’15’]

  • Master Thesis Work on Thermal Stability

    Master Thesis Work on Thermal Stability

    Experimental Characterization of the thermal stability of mixtures of linear siloxanes: an improved method

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    Advisor: Spinelli Andrea
    Co-Advisor: Simone Gallarini, Alberto Guardone

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    The work aims at evaluating the thermal stability limit (decomposition temperature) of organic fluids (siloxanes) for ORC applications, the fluids are pure and/or in binary mixtures. These fluids are largely employed in energy applications, since they can be favorably exploited in ORCs; indeed, their use leads to high efficiency cycles, they are non-toxic, environmentally friendly (zero ODP, almost zero GWP), relatively low-cost. Their use is limited at high temperature by the molecule cracking and the consequent formation of decomposition products featuring thermodynamic properties different from the original ones. Each fluid exhibits a thermal stability limit whose evaluation is crucial to realize cycles with the highest possible maximum temperature (thus with high efficiency) with no significant decomposition.

    In this perspective the use of mixtures can possibly increase the thermal stability limit with respect to the pure counterparts (this aspect has to be investigated). Different fluids are characterized from the thermal stability perspective; on the contrary, a systematic investigation of pure/binary mixtures of linear siloxanes (MM, MDM, MD2M, MD3M) is still missing in open literature. The work will be carried out at the CREA Laboratory (crealab.polimi.it) and in collaboration with the Laboratory of Catalysis and Catalytic Processesof the Energy Department.

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    The work consists in carrying out tests that include thermal stress of the fluid at increasing temperatures and and the evaluation of the rate of decomposition by means of pressure and temperature measurements (in stress and in saturation conditions) and chemical analysis of the fluid samples (on both the liquid and vapor fraction) before and after the thermal stress..

    More info: andrea.spinelli@polimi.it

     

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    [button size=’medium’ style=” text=’APPLY’ icon=” icon_color=” link=’mailto:andrea.spinelli@polimi.it’ target=’_blank’ color=’#ffffff’ hover_color=’#ffffff’ border_color=” hover_border_color=” background_color=’#dd6719′ hover_background_color=’#f28033′ font_style=’italic’ font_weight=’600′ text_align=’center’ margin=’15’]

  • Open Labs: thank you!

    Open Labs: thank you!

    Thank you!

    It was a great pleasure to have you visiting us for a day.

    You can find all the pictures of the day here

    Milano, 10 novembre 2018, Politecnico Bovisa
    Laboratori aperti al pubblico, dipartimento di Ingegneria Aerospaziale
    foto di Matteo Bergamini, © Lab Immagine Design POLIMI (progettazione, produzione e gestione di prodotti comunicativi) Dipartimento di DESIGN, Politecnico di Milano – 02-2399.7805/06 – labimmagine-design@polimi.it

     

  • CREA LAB welcomes you for DAER Open Labs

    CREA LAB welcomes you for DAER Open Labs

    On saturday 10 november 2018 from 10:00 am to 4:30 pm the DAER, Aerospace science and technology department, of Politecnico di Milano opens his experimental and research laboratories to the public.

    The tour is for free.

    For info click here.

     

  • New paper about thermal stability

    New paper about thermal stability

    Our new paper entitled “Thermal stability of hexamethyldisiloxane and octamethyltrisiloxane” was published by Energy Journal.

     

    You can find further information by clicking here.