首页> 外文会议>ASME summer heat transfer conference 2008 >PHENOMENON IDENTIFICATION AND RANKING EXERCISE AND A REVIEW OF LARGE-SCALE SPRAY MODELING TECHNOLOGY

【24h】

PHENOMENON IDENTIFICATION AND RANKING EXERCISE AND A REVIEW OF LARGE-SCALE SPRAY MODELING TECHNOLOGY

机译：现象识别和排序练习以及大规模喷雾建模技术的综述

获取原文

获取原文并翻译 | 示例

页面导航

摘要
著录项
相似文献
相关主题

摘要

We are engaged in efforts to model spray phenomena. Applications of principal interest include the high-speed impact of large vessels of fuel and the subsequent fire, fire suppression, solid propellant fires, pressurized pipe or tank rupture, and fire propagation for cascading liquid fuels. To help guide research and development efforts geared towards designing an appropriate spray modeling capability, a Phenomenon Identification and Ranking exercise was conducted. The summarized results of the exercise in tabular format, a Phenomenon Identification and Ranking Table (P1RT), are presented. The table forms the context for a textual literature review of the existing state of knowledge for modeling applications of interest. This exercise highlights some of the shortcomings in existing tools and knowledge, and suggests productive research activities that can help advance the modeling capabilities for the desired applications. Notable needs exist for research in high Weber number particle-surface impacts, particle collisions, multi-physics couplings, and low-void fraction multi-phase coupling.

机译：我们致力于模拟喷雾现象。主要关注的应用包括大型燃料容器的高速撞击以及随后的起火，灭火，固体推进剂起火，压力管道或油箱破裂以及级联液体燃料的火势蔓延。为了指导设计适当的喷雾建模能力的研发工作，进行了现象识别和分级练习。以表格形式，现象识别和排名表（P1RT）列出了练习的总结结果。该表构成了文本文献综述的上下文，该文献综述了对感兴趣的应用程序进行建模的现有知识状态。本练习突出了现有工具和知识的一些不足，并提出了富有成效的研究活动，这些活动可以帮助提高所需应用程序的建模能力。对于高韦伯数的粒子表面碰撞，粒子碰撞，多物理场耦合和低空隙分数多相耦合的研究，存在显着需求。

著录项

来源
《ASME summer heat transfer conference 2008》|2008年|569-579|共11页
会议地点 Jacksonville FL(US);Jacksonville FL(US)
作者
Alexander L. Brown; Sam S. Yoon; Richard A. Jepsen;
展开▼
作者单位

Sandia National Laboratories PO Box 5800 Albuquerque, NM 87185;

Mechanical Engineering Department Korea University 1, 5ga, Andam-dong, Sungbuk-gu Seoul 136-701, Korea;

Sandia National Laboratories PO Box 5800 Albuquerque, NM 87185;

展开▼
会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词

相似文献

外文文献
中文文献
专利

1. Large-scale spray detonation and related particle jetting instability phenomenon [J] . Zhang F., Ripley R. C., Yoshinaka A., Shock Waves . 2015,第3期

机译：大规模喷雾爆炸及相关的颗粒喷射不稳定性现象
2. Investigation of WER-1000 rod ejection accident according to the Phenomenon Identification and Ranking Tables for PWR [J] . Miglierini Bruno, Kozlowski Tomasz Progress in Nuclear Energy . 2018,第sepa期

机译：根据压水堆现象识别和排序表调查WER-1000杆弹出事故
3. Health sciences rated highly in UK's research assessment The results from the huge peer review exercise of research in UK higher education institutions have been released. Dara Mohammadi reviews the rankings in the health categories. [J] . Mohammadi Dara The Lancet . 2015,第9962期

机译：卫生科学在英国的研究评估中被高度评价英国高等院校的大规模同行研究研究结果已经发布。 Dara Mohammadi审查了健康类别中的排名。
4. PHENOMENON IDENTIFICATION AND RANKING EXERCISE AND A REVIEW OF LARGE-SCALE SPRAY MODELING TECHNOLOGY [C] . ASME heat transfer conference . 2009

机译：现象鉴定和排名运动以及大规模喷涂技术的综述
5. Ranking models to identify influential actors in large-scale social networks. [D] . Lu, Xiaohui. 2013

机译：对大型社交网络中具有影响力的参与者进行排名的模型。
6. Numerical modeling of water spray suppression of conveyor belt fires in a large-scale tunnel [O] . Liming Yuan, Alex C. Smith -1

机译：大型隧道输送带火灾喷水抑制的数值模拟
7. Reviewing the Virtual Campus Phenomenon. The Rise of Large-scale e-Learning Initiatives Worldwide [O] . Bacsich Paul, Bastiaens Theo, Frank Bristow Sara, 2009

机译：回顾虚拟校园现象。全球范围内大规模电子学习计划的兴起
8. Phenomena Identification and Ranking Table (PIRT) Exercise for Nuclear Power Plant Fire Modeling Applications [R] . Olivier, T. J., Nowlen, S. P. 2008

机译：核电厂火灾建模应用的现象识别和排序表（pIRT）练习

PHENOMENON IDENTIFICATION AND RANKING EXERCISE AND A REVIEW OF LARGE-SCALE SPRAY MODELING TECHNOLOGY

摘要

著录项

相似文献

相关主题

期刊订阅