Modeling of Near and Supercritical Droplet Vaporization PDF Download
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Author: Ho-Shang Lee
Publisher:
ISBN:
Category : Combustion
Languages : en
Pages : 198
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Book Description
Author: Ho-Shang Lee
Publisher:
ISBN:
Category : Combustion
Languages : en
Pages : 198
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Book Description
Author: Zhou Ji
Publisher:
ISBN:
Category :
Languages : en
Pages : 236
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Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 169
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Book Description
The complete evaporation of three-dimensional submicron droplets under both subcritical and supercritical conditions has been modeled using molecular dynamics (MD). This work represents a first step toward an accurate analytical modeling of combustion in supercritical environments. In this initial study the two-phase simulations consist entirely of argon atoms distributed between a single droplet and its surrounding vapor. The inter-atomic forces are based on a Lennard-Jones 12-6 potential, and the resultant atomic displacements are determined using a modified velocity Verlet algorithm. Linked cell lists in combination with Verlet neighbor lists allow efficient modeling of the large and diverse simulations. A non-cubic periodic boundary, specifically a truncated octahedron, is used to minimize periodicity effects. A unique method, using the linked cell structure, streamlines the associated boundary computations. The linked cells are also used as domains for density, temperature and surface tension computations. This allows a contouring of these properties. The surface tension measure is a unique development. p7.
Author: Yamina Aouina
Publisher:
ISBN:
Category :
Languages : en
Pages : 36
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Author: Chia Chun George Hsiao
Publisher:
ISBN:
Category : Fluid dynamic measurements
Languages : en
Pages : 342
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Author: Shah Shahood Alam
Publisher: LAP Lambert Academic Publishing
ISBN: 9783659335266
Category :
Languages : en
Pages : 192
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Book Description
The findings of this work provides an insight into the fundamental aspects of liquid droplet combustion modelling by developing different droplet sub models. An unsteady, spherically symmetric, sub critical, single component gas phase model is developed first and tested for various ambient conditions of temperature, pressure, composition and fuels.It is further extended to include the effects of convection, droplet heating and emissions.A high pressure droplet vaporization model is evolved in view of the supercritical vaporization occuring in diesel engines and liquid rockets.Also, simple and detailed multi component droplet vaporization/combustion models are developed, since commercial fuels used in engines are multi component fuels.The discrete droplet sub models are simple and realistic requiring less computation time and therefore feasible for their implementation in spray combustion codes where CPU economy is vital.
Author: Michael Micci
Publisher:
ISBN:
Category :
Languages : en
Pages : 12
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Molecular dynamics (MD) implemented on parallel processors was used to model supercritical droplet phenomena occurring in combustion devices. The use of molecular dynamics allows the modeling of supercritical phenomena without an a priori knowledge of the equation of state or transport properties of the individual components or the mixture. Three-dimensional supercritical oxygen vaporization into gaseous oxygen and helium using two-site Lennard-Jones potentials for the oxygen has been modeled and both the disappearance of surface tension above the critical point and the modification of the critical point for a binary mixture have been observed. A distinct change in droplet morphology was observed when passing through its critical point. The droplet remains spherical as it vaporizes under subcritical conditions but becomes broken and cloud-like when supercritical. Equations of state and transport coefficients for mass, momentum and energy have been calculated for supercritical argon, nitrogen and oxygen which agree with NIST values.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 28
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In this work, multicomponent and single component droplet vaporization characteristics are investigated by employing computational models. It is shown that simplified droplet vaporization models that do not solve temperature gradients or flow within the droplet and do not solve gradients in temperature or species in the immediate surrounding of the droplet are able to reproduce droplet vaporization rates and droplet lifetime with about 15% accuracy compared to detailed models for typical Diesel operating conditions. Under high temperature (> 1200 K) conditions the differences begin to increase. However, it is also shown that under such conditions as well as at even lower temperatures (> 900 K) the vaporization process is mixing limited i.e., the droplet lifetime is not controlling but rather the characteristic time for mixing of ambient air with the vapor phase the liquid, vapor and air are in phase equilibrium. It is shown that droplets are not likely to react the critical state under typical engine conditions. With application to multidimensional spray models as focus, a new model for predicting the outcome of drop collisions has been developed. Such models are important because they predict the drop sizes in the spray following atomization.
Author: William Savery
Publisher:
ISBN:
Category : Heptane
Languages : en
Pages : 10
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Author: Eric Warren Curtis
Publisher:
ISBN:
Category :
Languages : en
Pages : 326
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