| Les deux révisions précédentes Révision précédente Prochaine révision | Révision précédente |
| public:modeles:rotor_28b:accueil [2023/03/19 19:39] – [Original model] ikrambeghdadi | public:modeles:rotor_28b:accueil [2023/04/05 09:04] (Version actuelle) – modification externe 127.0.0.1 |
|---|
| **[[https://gitlab.lava.polymtl.ca/depots_publics/modeles/catalogue_aubes/-/tree/master/rotor28b|Git project]]** | **[[https://gitlab.lava.polymtl.ca/depots_publics/modeles/catalogue_aubes/-/tree/master/rotor28b|Git project]]** |
| </modal> | </modal> |
| ===== Original model ===== | ===== About ===== |
| |
| Rotor 28B is part of a research program to study the effects of aspect ratio, diffusion factor, and solidity on rotors. To do so, experimental studies have been conducted on a series of high-hub-tip-radius-ratio compressor stages representative of the middle and latter stages of axial-flow compressors. In fact, 14 middle stages were tested to assess the effects on performance of varying both diffusion through the rotor and stator blades and blade aspect ratio. Among these 14 stages, there are rotors 23B, 24A, 25A, 26B, 27A and 28B. Both the tip diameter and the hub-tip radius ratio were held constant throughout each stage at 50.8 centimeters and 0.8, respectively. | Rotor 28B is part of a research program to study the effects of aspect ratio, diffusion factor, and solidity on rotors. To do so, experimental studies have been conducted on a series of high-hub-tip-radius-ratio compressor stages representative of the middle and latter stages of axial-flow compressors. In fact, 14 middle stages were tested to assess the effects on performance of varying both diffusion through the rotor and stator blades and blade aspect ratio. Among these 14 stages, there are rotors 23B, 24A, 25A, 26B, 27A and 28B. Both the tip diameter and the hub-tip radius ratio were held constant throughout each stage at 50.8 centimeters and 0.8, respectively. |
| |
| * Original technical report [(cite:britsch1979design>Britsch. «Design and overall performance of four highly loaded, high speed inlet stages for an advanced high-pressure-ratio core compressor » 1979. {{ https://ntrs.nasa.gov/citations/19790025039|pdf}})]: <code>@TechReport{britsch1979design, | * Original technical report [(cite:britsch1979design>Britsch //et al//. «Design and overall performance of four highly loaded, high speed inlet stages for an advanced high-pressure-ratio core compressor » 1979. {{ https://ntrs.nasa.gov/citations/19790025039|pdf}})]: <code>@TechReport{britsch1979design, |
| author = {Britsch, Werner R. and Osborn, Walter M. and Laessig, Mark R.}, | author = {Britsch, Werner R. and Osborn, Walter M. and Laessig, Mark R.}, |
| date = {1979}, | date = {1979}, |
| </code> | </code> |
| * Picture : | * Picture : |
| |
| {{ :public:modeles:rotor_28b:gene_aubes_nasa_image_rotor28b.png?300 |}} | {{ :public:modeles:rotor_28b:gene_aubes_nasa_image_rotor28b.png?300 |}} |
| <caption>https://catalog.archives.gov/id/17446213</caption> | <caption>Fig1. https://catalog.archives.gov/id/17446213</caption> |
| | * <code>@Misc{brown1975records, |
| <code>@Misc{brown1975records, | |
| author = {Brown, M.}, | author = {Brown, M.}, |
| title = {Rotor 28B - Stator 22. {R}ecords of the {N}ational {A}eronautics and {S}pace {A}dministration, 1903 - 2006. {P}hotographs relating to agency activities, facilities and personnel, 1975 - 2013}, | title = {Rotor 28B - Stator 22. {R}ecords of the {N}ational {A}eronautics and {S}pace {A}dministration, 1903 - 2006. {P}hotographs relating to agency activities, facilities and personnel, 1975 - 2013}, |
| note = {\href{https://catalog.archives.gov/id/17446213}{https://catalog.archives.gov/id/17446213}, 1975 }, % for Fig. 1} | url = {https://catalog.archives.gov/id/17446213}} |
| </code> | </code> |
| |
| <callout type="info" icon="true" title="Useful documents"> | <callout type="info" icon="true" title="Useful documents"> |
| * [[https://gitlab.lava.polymtl.ca/depots_publics/modeles/catalogue_aubes/-/tree/master/rotor28b|downloadable models]] (Git project) | * [[https://gitlab.lava.polymtl.ca/depots_publics/modeles/catalogue_aubes/-/tree/master/rotor28b|downloadable models]] (Git project) |
| * {{ :public:modeles:rotor_28b:rotor28b_original.csv | NASA technical report}} (.pdf) | * {{ :public:modeles:rotor_28b:rotor28b.pdf | NASA technical report}} (.pdf) |
| * {{ :public:modeles:rotor_28b:rotor28b_original.csv | geometrical parameters file}} (.csv), usable as input of OpenMCAD[(cite:Kojtych_2022_gene_aubes>Kojtych S., Batailly A. «OpenMCAD, an open blade generator: from Multiple-Circular-Arc profiles to Computer-Aided Design model» 2022. {{ https://hal.science/hal-03923093|code en libre accès}})] to generate reference blade models. | * {{ :public:modeles:rotor_28b:rotor28b_original.csv | geometrical parameters file}} (.csv), usable as input of OpenMCAD[(cite:Kojtych_2022_gene_aubes>Kojtych S., Batailly A. «OpenMCAD, an open blade generator: from Multiple-Circular-Arc profiles to Computer-Aided Design model» 2022. {{ https://hal.science/hal-03923093|open source code}})] to generate reference blade models. |
| </callout> | </callout> |
| |
| The **reference blade** is defined with multiple-circular arc profiles[(cite:Crouse_1969_computer)] given in the original NASA report[(cite:britsch1979design)]. Corresponding models are computed with the open-source code OpenMCAD[(cite:Kojtych_2022_gene_aubes)]. | The **reference blade** is defined with multiple-circular arc profiles[(cite:Crouse_1969_computer)] given in the original NASA report[(cite:britsch1979design)]. Corresponding models are computed with the open-source code OpenMCAD[(cite:Kojtych_2022_gene_aubes)]. |
| |
| ===== Geometry ===== | ==== Geometry ==== |
| |
| The geometry of rotor 28B is described in the [[https://ntrs.nasa.gov/citations/19790025039|original NASA report]] by the following tables. The length are in centimeters and the angles in degrees. | The geometry of rotor 28B is described in the [[https://ntrs.nasa.gov/citations/19790025039|original NASA report]] by the following tables. The length are in centimeters and the angles in degrees. |
| {{ :public:modeles:rotor_28b:gene_aubes_nasa_geom_rotor28b.png?400 |}} | {{ :public:modeles:rotor_28b:gene_aubes_nasa_geom_rotor28b.png?400 |}} |
| |
| ===== Aerodynamic design ===== | ==== Aerodynamic design ==== |
| |
| ^ ^ unit ^ values ^ | ^ ^ unit ^ value ^ |
| ^ pressure ratio | [-] | 1.399 | | ^ pressure ratio | [-] | 1.399 | |
| ^ mass flow | [kg/s] | 9.46 | | ^ mass flow | [kg/s] | 9.46 | |
| ^ rotative speed | [rad/s] | 960.28 | | ^ rotative speed | [rad/s] | 960.28 | |
| |
| ===== Material properties ===== | ==== Material properties ==== |
| |
| The original material of the rotor 28B is not defined in the NASA report. | The original material of the rotor 28B is not defined in the NASA report. A 200-grade maraging steel is considered: |
| |
| Considered properties: 200-grade maraging steel : | ^ ^ unit ^ value ^ |
| | |
| ^ ^ unité ^ valeurs ^ | |
| ^ alloy | [-] | 18-Ni-200-maraging | | ^ alloy | [-] | 18-Ni-200-maraging | |
| ^ Young's modulus | [GPa] | 180 | | ^ Young's modulus | [GPa] | 180 | |
| </col> | </col> |
| <col md="4"> | <col md="4"> |
| {{:public:modeles:rotor_28b:28b_intra.png?200|}} | {{ :public:modeles:rotor_28b:28b_intra.png?200 |}} |
| <caption>pressure side</caption> | <caption>pressure side</caption> |
| </col> | </col> |
| <col md="4"> | <col md="4"> |
| {{:public:modeles:rotor_28b:28b_extra.png?200|}} | {{ :public:modeles:rotor_28b:28b_extra.png?200 |}} |
| <caption>suction side</caption> | <caption>suction side</caption> |
| </col> | </col> |
| |
| |
| ===== Initial blade ===== | ==== Initial blade ==== |
| |
| The **initial blade** is defined with in-house LAVA parameters[(cite:Kojtych_2022_Methodology)] computed from the reference blade CAD model. The initial blade is usually used as starting point for an optimization process. Its geometry is similar to the one of the reference blade. | The **initial blade** is defined with in-house LAVA parameters[(cite:Kojtych_2022_Methodology)] computed from the reference blade CAD model. The initial blade is usually used as starting point for an optimization process. Its geometry is similar to the one of the reference blade. |
| ===== À propos ===== | ===== À propos ===== |
| |
| Le rotor 28B fait partie d'un programme de recherche visant à étudier les effets de l’allongement, du facteur de diffusion et de la solidité des rotors. Pour ce faire, des études expérimentales ont été menées sur une série d'étages de compresseurs à fort rapport entre les rayons du moyeu et de la tête d’aube, représentatifs des étages moyens et avancés des compresseurs à flux axial. En effet, 14 étages intermédiaires ont été testés pour évaluer les effets sur les performances de la variation de la diffusion et de l’allongement des aubes. Parmi ces 14 étages, on trouve les rotors 23B, 24A, 25A, 26B, 27A et 28B. Le diamètre de l'extrémité des aubes et le rapport entre les rayons du moyeu et de la tête d’aube ont été maintenus constants tout au long de chaque étage à 50.8 centimètres et 0.8, respectivement. | Le rotor 28B fait partie d'un programme de recherche visant à étudier les effets de l’allongement, du facteur de diffusion et de la solidité des rotors. Pour ce faire, des études expérimentales ont été menées sur une série d'étages de compresseurs à fort rapport entre les rayons du moyeu et de la tête d’aube, représentatifs des étages moyens et avancés des compresseurs à flux axial. En effet, 14 étages intermédiaires ont été testés pour évaluer les effets sur les performances de la variation de la diffusion et de l’allongement des aubes. Parmi ces 14 étages, on trouve les rotors 23B, 24A, 25A, 26B, 27A et 28B. Le diamètre de l'extrémité des aubes et le rapport entre les rayons du moyeu et de la tête d’aube ont été maintenus constants tout au long de chaque étage, respectivement à 50,8 centimètres et 0,8. |
| |
| * Rapport technique original [(cite:britsch1979design>Britsch. «Design and overall performance of four highly loaded, high speed inlet stages for an advanced high-pressure-ratio core compressor » 1979. {{ https://ntrs.nasa.gov/citations/19790025039|pdf}})]: <code>@TechReport{britsch1979design, | * Rapport technique original [(cite:britsch1979design>)]: <code>@TechReport{britsch1979design, |
| author = {Britsch, Werner R. and Osborn, Walter M. and Laessig, Mark R.}, | author = {Britsch, Werner R. and Osborn, Walter M. and Laessig, Mark R.}, |
| date = {1979}, | date = {1979}, |
| </code> | </code> |
| * Photographie : | * Photographie : |
| |
| {{ :public:modeles:rotor_28b:gene_aubes_nasa_image_rotor28b.png?300 |}} | {{ :public:modeles:rotor_28b:gene_aubes_nasa_image_rotor28b.png?300 |}} |
| <caption>https://catalog.archives.gov/id/17446213</caption> | <caption>Fig1. https://catalog.archives.gov/id/17446213</caption> |
| | * <code>@Misc{brown1975records, |
| <code>@Misc{brown1975records, | |
| author = {Brown, M.}, | author = {Brown, M.}, |
| title = {Rotor 28B - Stator 22. {R}ecords of the {N}ational {A}eronautics and {S}pace {A}dministration, 1903 - 2006. {P}hotographs relating to agency activities, facilities and personnel, 1975 - 2013}, | title = {Rotor 28B - Stator 22. {R}ecords of the {N}ational {A}eronautics and {S}pace {A}dministration, 1903 - 2006. {P}hotographs relating to agency activities, facilities and personnel, 1975 - 2013}, |
| note = {\href{https://catalog.archives.gov/id/17446213}{https://catalog.archives.gov/id/17446213}, 1975 }, % for Fig. 1} | url = {https://catalog.archives.gov/id/17446213}} |
| </code> | </code> |
| |
| * [[https://gitlab.lava.polymtl.ca/depots_publics/modeles/catalogue_aubes/-/tree/master/rotor28b|modèles téléchargeables]] (lien vers projet Git) | * [[https://gitlab.lava.polymtl.ca/depots_publics/modeles/catalogue_aubes/-/tree/master/rotor28b|modèles téléchargeables]] (lien vers projet Git) |
| * {{ :public:modeles:rotor_28b:rotor28b.pdf | rapport technique original}} de la NASA (.pdf) | * {{ :public:modeles:rotor_28b:rotor28b.pdf | rapport technique original}} de la NASA (.pdf) |
| * {{ :public:modeles:rotor_28b:rotor28b_original.csv | fichier de paramètres géométriques}} (.csv), utilisable en entrée de OpenMCAD[(cite:Kojtych_2022_gene_aubes>Kojtych S., Batailly A. «OpenMCAD, an open blade generator: from Multiple-Circular-Arc profiles to Computer-Aided Design model» 2022. {{ https://hal.science/hal-03923093|code en libre accès}})] pour générer l'aube de référence | * {{ :public:modeles:rotor_28b:rotor28b_original.csv | fichier de paramètres géométriques}} (.csv), utilisable en entrée de OpenMCAD[(cite:Kojtych_2022_gene_aubes>)] pour générer l'aube de référence |
| </callout> | </callout> |
| |
| L'**aube de référence** est définie par des profils de type arcs circulaires multiples[(cite:Crouse_1969_computer>Crouse //et al//. «A computer program for composing compressor blading from simulated circular-arc elements on conical surfaces » 1969. NASA-TN-D-5437. {{ https://ntrs.nasa.gov/citations/19690027504|pdf}})], donnés dans le rapport technique original de la NASA[(cite:britsch1979design)]. Les modèles associés sont obtenus avec le code en libre accès OpenMCAD[(cite:Kojtych_2022_gene_aubes)]. | L'**aube de référence** est définie par des profils de type arcs circulaires multiples[(cite:Crouse_1969_computer>Crouse //et al//. «A computer program for composing compressor blading from simulated circular-arc elements on conical surfaces » 1969. NASA-TN-D-5437. {{ https://ntrs.nasa.gov/citations/19690027504|pdf}})], donnés dans le rapport technique original de la NASA[(cite:britsch1979design)]. Les modèles associés sont obtenus avec le code en libre accès OpenMCAD[(cite:Kojtych_2022_gene_aubes)]. |
| |
| ===== Géométrie ===== | ==== Géométrie ==== |
| |
| La géométrie du rotor 28B est décrite dans le [[https://ntrs.nasa.gov/citations/19790025039|rapport d'origine de la NASA]] par les tableaux suivants. Les grandeurs sont en centimètres et en degrés. | La géométrie du rotor 28B est décrite dans le [[https://ntrs.nasa.gov/citations/19790025039|rapport d'origine de la NASA]] par les tableaux suivants. Les grandeurs sont en centimètres et en degrés. |
| {{ :public:modeles:rotor_28b:gene_aubes_nasa_geom_rotor28b.png?400 |}} | {{ :public:modeles:rotor_28b:gene_aubes_nasa_geom_rotor28b.png?400 |}} |
| |
| ===== Caractéristiques aérodynamiques ===== | ==== Caractéristiques aérodynamiques ==== |
| ^ ^ unités ^ valeurs ^ | ^ ^ unités ^ valeurs ^ |
| ^ taux de compression | [-] | 1,399 | | ^ taux de compression | [-] | 1,399 | |
| ^ vitesse de rotation | [rad/s] | 960,28 | | ^ vitesse de rotation | [rad/s] | 960,28 | |
| |
| ===== Propriétés matériau ===== | ==== Propriétés matériau ==== |
| |
| Le matériau original du rotor 28B n'est pas défini dans le rapport de la NASA. | Le matériau original du rotor 28B n'est pas défini dans le rapport de la NASA. Un acier maraging de grade 200 est considéré : |
| | |
| Propriétés considérées : un acier maraging de grade 200 : | |
| |
| ^ ^ unité ^ valeurs ^ | ^ ^ unité ^ valeurs ^ |
| </col> | </col> |
| <col md="4"> | <col md="4"> |
| {{:public:modeles:rotor_28b:28b_intra.png?200|}} | {{ :public:modeles:rotor_28b:28b_intra.png?200 |}} |
| <caption>intrados</caption> | <caption>intrados</caption> |
| </col> | </col> |
| <col md="4"> | <col md="4"> |
| {{:public:modeles:rotor_28b:28b_extra.png?200|}} | {{ :public:modeles:rotor_28b:28b_extra.png?200 |}} |
| <caption>extrados</caption> | <caption>extrados</caption> |
| </col> | </col> |
| |
| ^ Mode ^ Type ^ Pulsation propre (rad/sec) ^ Fréquence propre (Hz) ^ | ^ Mode ^ Type ^ Pulsation propre (rad/sec) ^ Fréquence propre (Hz) ^ |
| | 1 | 1B | 8345,01 | 1328,15 | | | 1 | 1F | 8345,01 | 1328,15 | |
| | 2 | 1T | 18238,58 | 2902,76 | | | 2 | 1T | 18238,58 | 2902,76 | |
| | 3 | 2B | 28121,40 | 4475,66 | | | 3 | 2F | 28121,40 | 4475,66 | |
| |
| |
| |
| ^ Mode ^ Type ^ Pulsation propre (rad/sec) ^ Fréquence propre (Hz) ^ | ^ Mode ^ Type ^ Pulsation propre (rad/sec) ^ Fréquence propre (Hz) ^ |
| | 1 | 1B | 8253,97 | 1313,66 | | | 1 | 1F | 8253,97 | 1313,66 | |
| | 2 | 1T | 18215,39 | 2899,07 | | | 2 | 1T | 18215,39 | 2899,07 | |
| | 3 | 2B | 28231,55 | 4493,19 | | | 3 | 2F | 28231,55 | 4493,19 | |
| |
| |
| |
| ^ Mode ^ Type ^ Pulsation propre (rad/sec) ^ Fréquence propre (Hz) ^ | ^ Mode ^ Type ^ Pulsation propre (rad/sec) ^ Fréquence propre (Hz) ^ |
| | 1 | 1B | 8255,79 | 1313,95 | | | 1 | 1F | 8255,79 | 1313,95 | |
| | 2 | 1T | 18231,98 | 2901,71 | | | 2 | 1T | 18231,98 | 2901,71 | |
| | 3 | 2B | 28284,64 | 4501,64 | | | 3 | 2F | 28284,64 | 4501,64 | |
| |
| |
| |
| </tabs> | |
| </pane> | </pane> |
| | </tabs> |