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Laser Diagnostics and Modeling of Combustion [electronic resource] /
Combution phenomena in practical applications are too complicated to understand quantitatively in terms of the intrinsic fundamental processes. This is why many academic investigations have been of little use in the design or improvement of practical combustion systems. During the last decade, experimental methods for obtaining local and instantaneous infomation have been developed. Also, modeling techniques, particularly those by numerical simulation have become promising. With these points as background, a special research project on "Dynamic Modeling and Laser Diagnosis on Combution" has been carried out from 1983 through the 1985 fiscal year, under a Grant-in-Aid from the Ministry of Education, Science and Culture of Japan. The research has focused on developing laser diagnostics and modeling techniques which could be useful for analyzing the details of processes in practical continuous and intermittent combution sysytem. More than sixty members from about thirty universities and a national laboratory joined in this project, covering mechanical, chemical, physical, electronics and computation researches. Members were divided into five subject groups: (1) Velocity measurments, (2) Spray and soot measurments, (3) Temperature and species concentration measurments, (4) Premixed combution modeling, and (5) Diffusion combution modeling. Besides group meetings, general meetings have been held twice every year and symposia were held six times during the period to promote the research project.
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| Format: | Texto biblioteca |
| Language: | eng |
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Berlin, Heidelberg : Springer Berlin Heidelberg,
1987
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| Subjects: | Engineering., Renewable energy resources., Thermodynamics., Engineering design., Machinery., Manufacturing industries., Machines., Tools., Renewable energy sources., Alternate energy sources., Green energy industries., Waste management., Renewable and Green Energy., Engineering Design., Machinery and Machine Elements., Manufacturing, Machines, Tools., Waste Management/Waste Technology., |
| Online Access: | http://dx.doi.org/10.1007/978-3-642-45635-0 |
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Engineering. Renewable energy resources. Thermodynamics. Engineering design. Machinery. Manufacturing industries. Machines. Tools. Renewable energy sources. Alternate energy sources. Green energy industries. Waste management. Engineering. Renewable and Green Energy. Engineering Design. Machinery and Machine Elements. Manufacturing, Machines, Tools. Thermodynamics. Waste Management/Waste Technology. Engineering. Renewable energy resources. Thermodynamics. Engineering design. Machinery. Manufacturing industries. Machines. Tools. Renewable energy sources. Alternate energy sources. Green energy industries. Waste management. Engineering. Renewable and Green Energy. Engineering Design. Machinery and Machine Elements. Manufacturing, Machines, Tools. Thermodynamics. Waste Management/Waste Technology. |
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Engineering. Renewable energy resources. Thermodynamics. Engineering design. Machinery. Manufacturing industries. Machines. Tools. Renewable energy sources. Alternate energy sources. Green energy industries. Waste management. Engineering. Renewable and Green Energy. Engineering Design. Machinery and Machine Elements. Manufacturing, Machines, Tools. Thermodynamics. Waste Management/Waste Technology. Engineering. Renewable energy resources. Thermodynamics. Engineering design. Machinery. Manufacturing industries. Machines. Tools. Renewable energy sources. Alternate energy sources. Green energy industries. Waste management. Engineering. Renewable and Green Energy. Engineering Design. Machinery and Machine Elements. Manufacturing, Machines, Tools. Thermodynamics. Waste Management/Waste Technology. Iinuma, Kazuo. editor. Ohsawa, Toshihiko. editor. Asanuma, Tsuyoshi. editor. Doi, Junta. editor. SpringerLink (Online service) Laser Diagnostics and Modeling of Combustion [electronic resource] / |
| description |
Combution phenomena in practical applications are too complicated to understand quantitatively in terms of the intrinsic fundamental processes. This is why many academic investigations have been of little use in the design or improvement of practical combustion systems. During the last decade, experimental methods for obtaining local and instantaneous infomation have been developed. Also, modeling techniques, particularly those by numerical simulation have become promising. With these points as background, a special research project on "Dynamic Modeling and Laser Diagnosis on Combution" has been carried out from 1983 through the 1985 fiscal year, under a Grant-in-Aid from the Ministry of Education, Science and Culture of Japan. The research has focused on developing laser diagnostics and modeling techniques which could be useful for analyzing the details of processes in practical continuous and intermittent combution sysytem. More than sixty members from about thirty universities and a national laboratory joined in this project, covering mechanical, chemical, physical, electronics and computation researches. Members were divided into five subject groups: (1) Velocity measurments, (2) Spray and soot measurments, (3) Temperature and species concentration measurments, (4) Premixed combution modeling, and (5) Diffusion combution modeling. Besides group meetings, general meetings have been held twice every year and symposia were held six times during the period to promote the research project. |
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Texto |
| topic_facet |
Engineering. Renewable energy resources. Thermodynamics. Engineering design. Machinery. Manufacturing industries. Machines. Tools. Renewable energy sources. Alternate energy sources. Green energy industries. Waste management. Engineering. Renewable and Green Energy. Engineering Design. Machinery and Machine Elements. Manufacturing, Machines, Tools. Thermodynamics. Waste Management/Waste Technology. |
| author |
Iinuma, Kazuo. editor. Ohsawa, Toshihiko. editor. Asanuma, Tsuyoshi. editor. Doi, Junta. editor. SpringerLink (Online service) |
| author_facet |
Iinuma, Kazuo. editor. Ohsawa, Toshihiko. editor. Asanuma, Tsuyoshi. editor. Doi, Junta. editor. SpringerLink (Online service) |
| author_sort |
Iinuma, Kazuo. editor. |
| title |
Laser Diagnostics and Modeling of Combustion [electronic resource] / |
| title_short |
Laser Diagnostics and Modeling of Combustion [electronic resource] / |
| title_full |
Laser Diagnostics and Modeling of Combustion [electronic resource] / |
| title_fullStr |
Laser Diagnostics and Modeling of Combustion [electronic resource] / |
| title_full_unstemmed |
Laser Diagnostics and Modeling of Combustion [electronic resource] / |
| title_sort |
laser diagnostics and modeling of combustion [electronic resource] / |
| publisher |
Berlin, Heidelberg : Springer Berlin Heidelberg, |
| publishDate |
1987 |
| url |
http://dx.doi.org/10.1007/978-3-642-45635-0 |
| work_keys_str_mv |
AT iinumakazuoeditor laserdiagnosticsandmodelingofcombustionelectronicresource AT ohsawatoshihikoeditor laserdiagnosticsandmodelingofcombustionelectronicresource AT asanumatsuyoshieditor laserdiagnosticsandmodelingofcombustionelectronicresource AT doijuntaeditor laserdiagnosticsandmodelingofcombustionelectronicresource AT springerlinkonlineservice laserdiagnosticsandmodelingofcombustionelectronicresource |
| _version_ |
1756264209944936448 |
| spelling |
KOHA-OAI-TEST:1769672018-07-30T22:55:33ZLaser Diagnostics and Modeling of Combustion [electronic resource] / Iinuma, Kazuo. editor. Ohsawa, Toshihiko. editor. Asanuma, Tsuyoshi. editor. Doi, Junta. editor. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg,1987.engCombution phenomena in practical applications are too complicated to understand quantitatively in terms of the intrinsic fundamental processes. This is why many academic investigations have been of little use in the design or improvement of practical combustion systems. During the last decade, experimental methods for obtaining local and instantaneous infomation have been developed. Also, modeling techniques, particularly those by numerical simulation have become promising. With these points as background, a special research project on "Dynamic Modeling and Laser Diagnosis on Combution" has been carried out from 1983 through the 1985 fiscal year, under a Grant-in-Aid from the Ministry of Education, Science and Culture of Japan. The research has focused on developing laser diagnostics and modeling techniques which could be useful for analyzing the details of processes in practical continuous and intermittent combution sysytem. More than sixty members from about thirty universities and a national laboratory joined in this project, covering mechanical, chemical, physical, electronics and computation researches. Members were divided into five subject groups: (1) Velocity measurments, (2) Spray and soot measurments, (3) Temperature and species concentration measurments, (4) Premixed combution modeling, and (5) Diffusion combution modeling. Besides group meetings, general meetings have been held twice every year and symposia were held six times during the period to promote the research project.I Laser Diagnostics -- 1. Laser Velocimetry -- 1.1 Sizing and velocity measurement of particles in spray jet using a two-colour, four-beam LDV -- 1.2 Measurements of turbulent structures in premixed flame with multi-point LDVs -- 1.3 Velocity measurements in combustion fields using a Laser-2-Focus velocimeter -- 2. LDV Application -- 2.1 Simultaneous measurement of temperature and velocity in turbulent diffusion flames by Rayleigh scattering and LDV system -- 2.2 Flow characteriscs of an unsteady jet ejected into a prechamber spark ignition engine -- 2.3 The flow characteristics in a swirl type combustor -- 2.4 Velocity and turbulence measurements in model gas-turbine combustion chambers and comparison with a model calculation -- 3. Spray Measurement -- 3.1 Development of a time-resolved particle sizer and spray sizing in high back-pressure injection -- 3.2 A new direct analysis method for measuring particle size and location by inline hologram -- 3.3 Determination of the characteristics of diesel spray by the bidirectional light scattering image processing method -- 3.4 Measurements of the fuel vapor concentration in a diesel spray by analysis of reconstructed hologram images -- 4. Soot Measurement -- 4.1 Laser schlieren photography for visualizing soot in a diesel flame in a rapid compression machine -- 4.2 On the simultaneous measurement of the diameter of soot particle and its optical constant in flames -- 5. Raman Spectroscopy -- 5.1 CARS thermometry for high pressure gases -- 5.2 Measuring temprature in propane-air pre-mixed laminar flame using the IRS method -- 5.3 Multiple species concentration and temperature measurements in hydrocarbon flame by pulsed laser Raman -- 5.4 Application of UV and VUV excimer lasers in combustion measurements using enhanced Raman scattering -- 6. Non-Raman Spectroscopy -- 6.1 Using two-photon absorption to measure the temperature and concentration of nitric oxide in propane/oxygen flames -- 6.2 Measuring the mass fraction burned of a methane-air mixture by a diode-laser absorption spectrometry -- 6.3 A laser light-scattering method for investigating the ionized state in a propagating flame -- 7. Image Technique -- 7.1 Development of a twin pulse high-speed holography system to measure combustion -- 7.2 Monochromatic image acquisition system for real-time observations of continuous and pulsed emission of light -- 7.3 Combustion diagnostics by electronic speckle pattern interferometry using a CCD image sensor -- 8. Image Processing -- 8.1 Measurement of three-dimensional flame temperature fields by holographic interferometery and computed tomography -- 8.2 Three-dimensional measurement of the shape of combustion flames -- II Modeling -- 9. Molecular Process Analysis -- 9.1 Laser-induced fluorescence of unstable intermediates in combustion: HSO and H2CS -- 9.2 Collisional deactivation of vibrationally highly excited hexafluoro-benzene molecules -- 9.3 The vibrational relaxation of N2 coupled with H2-O2 combustion reactions behind shoch waves -- 10. Combustion Analysis in Piston Engine -- 10.1 Spark ignition process in internal combution engines -- 10.2 Turbulent combustion in the cylinder of a spark-ignition engine -- 10.3 Experiments on turbulent burning velocities of premixed mixtures in a closed bomb -- 10.4 Gas velocity and turbulence measurement in a spark ignition engine using a LDA with a fiber-optic pick-up -- 10.5 Photographic measurement of air entrainment in two-dimensional fuel jets -- 10.6 Effects of in-cylinder air flow on diesel combustion -- 11. Combustion Analysis in Burner System -- 11.1 Direct measurements of the turbulent transport of momentum and heat in the swirling flame -- 11.2 Time scale distribution of laminar flamelets in turbulent premixd flames -- 11.3 Development of a laboratory automation system for measuring the characteristics of transient gas jets -- 12. Flow Simulation -- 12.1 Multidimensional modeling of flow and heat transfer during the intake and compression processes in a motored engine cylinder -- 12.2 Prediction of gas flows in a internal combustion engines -- 13. Combustion Simulation -- 13.1 Wall quenching of methane-air flame -- 13.2 Numerical simulation of laminar flame propagation in constant volume vessels -- 13.3 A theoretical study of supercritical liquid fuel combustion -- 13.4 Turbulent mixing model of diesel combustion -- 13.5 Modeling the structure of a turbulent diffusion flame over a flat plate with fuel injection.Combution phenomena in practical applications are too complicated to understand quantitatively in terms of the intrinsic fundamental processes. This is why many academic investigations have been of little use in the design or improvement of practical combustion systems. During the last decade, experimental methods for obtaining local and instantaneous infomation have been developed. Also, modeling techniques, particularly those by numerical simulation have become promising. With these points as background, a special research project on "Dynamic Modeling and Laser Diagnosis on Combution" has been carried out from 1983 through the 1985 fiscal year, under a Grant-in-Aid from the Ministry of Education, Science and Culture of Japan. The research has focused on developing laser diagnostics and modeling techniques which could be useful for analyzing the details of processes in practical continuous and intermittent combution sysytem. More than sixty members from about thirty universities and a national laboratory joined in this project, covering mechanical, chemical, physical, electronics and computation researches. Members were divided into five subject groups: (1) Velocity measurments, (2) Spray and soot measurments, (3) Temperature and species concentration measurments, (4) Premixed combution modeling, and (5) Diffusion combution modeling. Besides group meetings, general meetings have been held twice every year and symposia were held six times during the period to promote the research project.Engineering.Renewable energy resources.Thermodynamics.Engineering design.Machinery.Manufacturing industries.Machines.Tools.Renewable energy sources.Alternate energy sources.Green energy industries.Waste management.Engineering.Renewable and Green Energy.Engineering Design.Machinery and Machine Elements.Manufacturing, Machines, Tools.Thermodynamics.Waste Management/Waste Technology.Springer eBookshttp://dx.doi.org/10.1007/978-3-642-45635-0URN:ISBN:9783642456350 |