ReactionDesign CHEMKIN-PRO version 15131
ReactionDesign CHEMKIN-PRO version 15131 | 624.9 mb
Reaction Design, a leading developer of chemistry simulation software, presentsversion 15131 of Chemkin PRO, is the gold standard for modeling and simulatinggas-phase and surface chemistry that is used for the conceptual development ofcombustion systems in cars, trucks, jet engines, boilers and equipment used inmaterials processing applications.
CHEMKIN-PRO includes core solver enhancements that cut simulation times fromdays to hours or hours to minutes for complex models with large mechanismsmaking it as much as 25 times faster than previous versions of CHEMKIN - morethan an order of magnitude faster than competing codes in demandingapplications.
CHEMKIN-PRO’s wide array of accurate, fast and robust kinetic models make itthe most trusted kinetic simulation tool for asking “what if …” questions inthe conceptual design phase. Engineers can quickly explore the impact of designvariables on performance, pollutant emissions and flame extinction using large,accurate fuel models and gain the results they need to make key productdevelopment decisions.
file:///E:/TEMP/msohtmlclip1/01/clip_image004.pngIncluded: - Chemkin Pro version 15131
- Energico version 30131
- Forte version 40141
About Reaction Design
Reaction Design’s world-class engineers, chemists and programmers haveexpertise that spans multi-scale engineering from the scale of a moleculethrough an entire engine. Reaction Design is headquartered in San Diego, Calif.and serves more than 400 customers in the commercial and government marketsaround the world, including many Fortune 1000 companies. Our unique academicprogram also engages hundreds of university researchers and students.
Name: Reaction Design Chemkin-PRO
Version: (64bit) 15131
Home: www.reactiondesign.com
Interface: english
OS: Windows XP / Vista / 7even / 8 / 8.1
Size: 624.9 mb Reaction Path Analyzer FeatureTo helpdesigners gain key insights into kinetic dependencies, CHEMKIN-PRO includes theReaction Path Analyzer. Employing an interactive, visual display, the ReactionPath Analyzer provides a clear view of dominant reaction paths, facilitatingmechanism development and reduction. See what reactions are importantwith the Reaction Path Analyzer. This powerful feature allows the user tovisualize the reactions that are taking place in the simulation. Detailsare provided on the forward and backward reaction rates and the absolute ratesof production.
This understanding allows: · Identification of dominant pathways · Determination of pathways contributing to pollutant formation · Determination of changes in pathways due to variation ofoperating conditions · Guiding of mechanism reduction efforts Particle Tracking FeatureUseinnovative Particle Tracking in CHEMKIN-PRO to follow particles throughinception, growth and reduction. Determine particle size and number statisticsfor soot emissions or to optimize particulate production for carbon-blackapplications. Tracking particle is important tomany reacting flow applications. For example, soot formation and emissions arecritical concerns for clean combustion technology development. TheParticle Tracking feature simulates particle inception, growth and oxidation,providing statistics on particle sizes and mass loading. It is includedwith CHEMKIN-PRO combustion models.
Features include: · Sectional method that directly provides the details of particlesize distributions. · Optional Moment method that predicts the statistics ofparticle-size-distribution, such as mean particle diameter. · Prediction of mass and volume fractions of particles in theparticle-flow system. · Initiation of particle-size tracking using a method that tracksthe moments of the particle size distribution function when a dispersedcondensed-phase material is encountered in the chemistry set. · Nucleation reaction type that allows formation of a condensedphase dispersed in the gas flow. · Ability to include nucleation from more than one particleprecursor. · Ability to specify surface reactions for growth or reduction ofparticles due to condensation, deposition, oxidation, and any other surfacereaction. Flame Extinction ModelDetermineflame-extinction limits using detailed chemistry in CHEMKIN-PRO's FlameExtinction Model. Quickly identify the impact of operating conditions andfuel/air ratios on flame-extinction strain rates through automated parameterstudies. Extinction is an importantphenomena in low emissions combustion systems using staged combustion. Many designs operate near the edge of Lean Blow Off or lean extinction and itis important to understand how your design’s combustion stability is affectedby local operating condition affects and fuel/air ratios. The newflame-extinction model provides an automated method for determining theflame-extinction strain rate for premixed flames in an opposed-flow flameconfiguration. The extinction strain rate is accurately determinedthrough use of a continuation method. The calculation can be performedwithin a parameter study as well, to determine extinction strain rate as afunction of conditions, such as fuel-air equivalence ratio. Multi-Zone Engine Model FeatureCHEMKIN-PRO'sMulti-Zone Engine Model simplifies the analysis of key combustion effectsincluding ignition, flame speed, and CO, HC and Soot emissions. Transportation manufacturers aredeveloping new combustion technologies to meet current and upcoming emissionsregulations without performance compromises. Key attributes such asignition, flame speed, and pollutant formation are governed by detailed chemistrybehavior and the conditions in the cylinder. Computational Fluid Dynamics(CFD) does not support the level of detailed chemistry required to accuratelysimulate these combustion performance criteria. The new Multi-zone enginemodel allows the segmentation of the cylinder volume into reaction zones wheredetailed chemistry mechanisms can be applied efficiently while maintaining anaccurate representation of the cylinder geometry.
The Multi-zone engine modelenables: · Investigation of ignition and flame speed through a transientsolution · Accurate emissions predictions for NOx, CO and UHC · Investigation of Exhaust Gas recirculation impacts on thethermal NOx formation rate Simulation Speed-Up of CHEMKIN-PRO vs. CHEMKINFeature Comparison Between CHEMKIN-PRO and CHEMKIN
PS:這是化工界鼎鼎大名的軟件!,只是消失了一陣子罷了,現又重現江湖,時化工之喜,他可協助ANSYS更加完善:
注:链接已经失效,等待楼主重新上传
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