Simulation Analysis of a New Type of Combined Double Jet Nozzle Flow Field

In this paper, the following work is done: a new type of translational transmission device is designed; explained in detail are the operating principle, structural features, relationship of mechanism parameter and non interference conditions of the movement; the optimization analysis of transmission device is implemented on the basis of non interference conditions of the bucket movement; structural modeling and simulation analysis are carried out by utilization of Pro/e & Recurdyn; and based on virtual prototype technology, the new type of translational transmission device is verified by experiments, the data of which prove the translational transmission device reasonable and practicable. In conclusion, this paper has laid the theoretical foundation of the practical application of the translational transmission device.

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Simulation Analysis Study on the Flow Field of Oil Well Pump Upstroke and Downstroke

2012 Fourth International Conference on Computational and Information Sciences ◽

10.1109/iccis.2012.281 ◽

2012 ◽

Author(s):

Jingcheng Liu ◽

Junlian He

Keyword(s):

Flow Field ◽

Simulation Analysis ◽

Oil Well ◽

Analysis Study

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Dynamic Characteristic Analysis of New Pneumatic Bending Joint

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.271-272.1742 ◽

2012 ◽

Vol 271-272 ◽

pp. 1742-1749

Author(s):

Peng Cheng Huang ◽

Qing Hua Yang ◽

Guan Jun Bao ◽

Li Bin Zhang

Keyword(s):

Response Time ◽

Dynamic Characteristic ◽

Simulation Analysis ◽

Characteristic Analysis ◽

Pneumatic Actuators ◽

Bending Performance ◽

First Law Of Thermodynamics ◽

Existing Problems ◽

Joint Damping ◽

New Type

Aimed at existing problems on the bending performance of pneumatic bending joint, a new type of pneumatic bending joint is proposed in this paper. Double flexible pneumatic actuators are used as actuating drivers. Based on the first law of thermodynamics and the joint dynamic equation, the angle dynamic model is established and analyzed. Moreover simplified model is proposed. Meanwhile, its dynamic characteristic is analyzed through simulation analysis. The simulation suggests the following results: in the gas-filled phase, the joint’s pressure response time is about 10ms; while it is about 60ms in the gas-escape phase; and the angle response time of joint is 10 to 20ms. When the joint damping coefficient is increasing, this value will also increase.

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Effects of Perforated Flow Tube on the Flow Field of a Blowout Well

SPE Journal ◽

10.2118/179730-pa ◽

2016 ◽

Vol 21 (04) ◽

pp. 1470-1476 ◽

Cited By ~ 1

Author(s):

Ebrahim Hajidavalloo ◽

Saeed Alidadi Dehkohneh

Keyword(s):

Flow Field ◽

Flow Tube ◽

Gas Well ◽

Safety Measures ◽

Team Members ◽

Well Control ◽

Blowout Preventer ◽

New Type ◽

Oil Gas ◽

Simple Flow

Summary When a blowout oil/gas well catches fire, usually a flow tube is used to detach the fire from the wellhead and provide appropriate conditions for operating team members to approach the well and install the blowout-preventer (BOP) cap. Using the flow tube above the wellhead creates powerful suction around the tube that may jeopardize the safety of crew members. To reduce the power of suction around the well, a new perforated flow tube instead of simple flow tube was introduced. To understand the effect of this new type of flow tube, modeling and simulation of the flow field around the blowout well were performed for both simple and perforated types of flow tube with Fluent 6.3.26 (2003) and Gambit 2.3.16 (2003) softwares. Different parameters around the well mouth were compared in both designs. The results showed that using the perforated flow tube decreases the vacuum around the well by 33% compared with the simple flow tubes. Thus, application of the perforated flow tube can be recommended in well-control operations for safety measures.

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Notice of Retraction: Simulation analysis of 3D unconstant flow field for turbocharger based on FLUENT

2010 2nd International Conference on Mechanical and Electronics Engineering ◽

10.1109/icmee.2010.5558442 ◽

2010 ◽

Cited By ~ 1

Author(s):

Bo Qin

Keyword(s):

Flow Field ◽

Simulation Analysis

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Quantitative Analysis of Axisymmetric Nozzle Flow Field with Shock Wave by Image Processing of Mach-Zehnder Interferogram.

TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series B ◽

10.1299/kikaib.62.608 ◽

1996 ◽

Vol 62 (594) ◽

pp. 608-612 ◽

Cited By ~ 2

Author(s):

Tomoyuki NAKAMURA ◽

Junjiro IWAMOTO

Keyword(s):

Shock Wave ◽

Image Processing ◽

Quantitative Analysis ◽

Flow Field ◽

Nozzle Flow ◽

Axisymmetric Nozzle

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A New Design of a Piezoelectric Triaxial Micro-Accelerometer

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.645-646.841 ◽

2015 ◽

Vol 645-646 ◽

pp. 841-846 ◽

Cited By ~ 1

Author(s):

Jian Yan Wang ◽

Ting Ting Wang ◽

Hang Guo

Keyword(s):

Simulation Analysis ◽

Structural Parameters ◽

Sol Gel ◽

Triaxial Accelerometer ◽

Response Frequency ◽

Pzt Films ◽

New Type ◽

The Cross ◽

Cross Axis ◽

Micro Accelerometer

Accelerometer in MEMS always is made by capacitive or piezoresistive, whose dynamic response is not good, the operating frequency is narrow, and the cross-axis sensitivity is low. A new type of piezoelectric micro-accelerometer is designed, and its structure is “x” type. The sensing unit is piezoelectric PZT films, which is achieved by sol-gel method. The accelerometer is a triaxial accelerometer. The theoretical and simulation analysis is used to achieve the charge sensitivity and response frequency, and also get the optimal structural parameters. A new circuit connection is proposed to improve the sensitivity and avoid the cross-axis sensitivity. The design achieves the z-axis sensitivity with more than 40 pC/g, x, y-axis sensitivity with more than 8pC/g, and the response frequency is about 3000Hz.

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The Effect of a Downstream Rotor on the Measured Performance of a Transonic Turbine Nozzle

Journal of Turbomachinery ◽

10.1115/1.3262047 ◽

1986 ◽

Vol 108 (2) ◽

pp. 269-274

Author(s):

R. G. Williamson ◽

S. H. Moustapha ◽

J. P. Huot

Keyword(s):

Performance Evaluation ◽

Aspect Ratio ◽

Flow Field ◽

Large Scale ◽

Outer Wall ◽

Nozzle Flow ◽

Turning Angle ◽

Low Aspect Ratio ◽

Transonic Turbine ◽

Mach Numbers

Two nozzle designs, involving the same low aspect ratio, high turning angle vanes, and differing in outer wall contour, were tested over a range of exit Mach numbers up to supersonic values. The experiments were conducted on a large-scale, full annular configuration with and without a representative rotor downstream. Nozzle performance was found to be significantly affected by rotor operation, the influence depending on the detailed characteristics of the nozzle flow field, as well as on the design and operation of the rotor itself. It is suggested that performance evaluation of low aspect ratio nozzles of high turning angle may require appropriate testing with a rotor.

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