首页> 美国政府科技报告 >Performance Improvements to the Naval Postgraduate School Turbopropulsion Labs Transonic Axially Splittered Rotor.

【24h】

Performance Improvements to the Naval Postgraduate School Turbopropulsion Labs Transonic Axially Splittered Rotor.

机译：海军研究生院涡轮推进实验室跨音速轴向分离式转子的性能改进。

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Performance improvement investigations to the Naval Postgraduate School Turbo Propulsion Laboratory s (NPS TPL) Transonic Axially Splittered Rotor were investigated. Implementation of current NPS TPL design procedure that uses COTS software (MATLAB, SolidWorks, and ANSYS-CFX) for the geometric rendering and analysis was modified and documented. Numerical simulations were conducted and experimental data were collected at the NPS TPL utilizing the transonic compressor rig. This study advanced the understanding of casing tip gap, rotor-stator interaction, stator relative blade placement of a hybrid tandem/splittered design, and performance benefits. The reduction in rotor tip gap produced higher performance bench marks as predicted. The addition and analysis of multiple blade rows proved to be straight forward and the design methodology and in house procedure was further optimized. While other studies sought to affect the pressure surface of the lead blade, it was determined that using the trailing blade to influence the high momentum flow over suction surface of the lead blade produced better performance gains With tip gap closure and the addition of the stator stage, rotor alone performance was improved from experimentally measured peak total-to-total pressure ratio of 1.69 to 1.99 and the peak total-to-total isentropic efficiency from 72 to 77 percent at 100 percent design speed.

著录项

作者
Lehrfeld, M. C.;
展开▼
作者单位

展开▼
年度 2013
页码 1-71
总页数 71
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Compressors; Rotor blades; Turbomachinery; Blade tips; Blades; Commercial equipment; Computer programs; Efficiency; Emplacement; Experimental data; Forward areas; Geometry; Interactions; Isentrope; Methodology; Numerical analysis; Off the shelf equipment; Peak values; Pressure; Ratios; Reduction; Rotors; Stators; Surfaces; Theses; Transonic characteristics; Velocity;

机译：压缩机;转子叶片;涡轮机械;叶片尖端;叶片;商业设备;计算机程序;效率;安置;实验数据;前方区域;几何;相互作用; Isentrope;方法;数值分析;现成设备;峰值;压力;比率;减速;转子;定子;表面;论文;跨音速特性;速度;

相似文献

外文文献
中文文献
专利

1. Improvements of performance and stability of a single-stage transonic axial compressor using a combined flow control approach [J] . Hu Jiaguo, Wang Rugen, Huang Danqin Aerospace science and technology . 2019,第MARa期

机译：使用组合流量控制方法改善单级跨音速轴向压缩机的性能和稳定性
2. Improvement of Moderately Loaded Transonic Axial Compressor Performance Using Low Porosity Bend Skewed Casing Treatment [J] . Dilipkumar Bhanudasji Alone, S. Satish Kumar, Shobhavathy M. Thimmaiah, International Journal of Rotating Machinery . 2014,第Null期

机译：低孔隙率弯曲斜套管处理改善中负荷跨音速轴流压缩机的性能
3. Improvement of Moderately Loaded Transonic Axial Compressor Performance Using Low Porosity Bend Skewed Casing Treatment [J] . Dilipkumar BhanudasjiAlone, S. SatishKumar, Shobhavathy M.Thimmaiah, International Journal of Rotating Machinery . 2014,第4期

机译：低孔隙率弯曲斜套管处理改善中负荷跨音速轴流压缩机的性能
4. DESIGN AND TEST OF A TRANSONIC AXIAL SPLITTERED ROTOR [C] . Garth V. Hobson, Anthony J. Gannon, Scott Drayton ASME Turbine Technical Conference and Exposition . 2015

机译：横向轴流分离转子的设计和测试
5. A case study of distance education at the Naval Postgraduate School: Assessing the effectiveness of video tele-education (VTE) as a distance learning instructional delivery mode in graduate degree programs. [D] . Owen, Walter E. 2003

机译：海军研究生院远程教育的案例研究：评估视频远程教育（VTE）作为研究生学位课程中远程学习教学交付模式的有效性。
6. Improvement of Performance Degradation in Synthetic Aperture Extension of Enhanced Axial Resolution Ultrasound Imaging Based on Frequency Sweep [O] . Jing Zhu, Norio Tagawa 2019

机译：基于频率扫描的增强型轴向分辨率超声成像合成孔径扩展中性能下降的改善
7. Performance improvements to the Naval Postgraduate School Turbopropulsion Labs Transonic Axially Splittered Rrotor [O] . Lehrfeld Michael C. 2013

机译：海军研究生院涡轮推进实验室跨音速轴向分流转子的性能改进

Performance Improvements to the Naval Postgraduate School Turbopropulsion Labs Transonic Axially Splittered Rotor.

摘要

著录项

相似文献

相关主题

期刊订阅