Qi Nie scite author profile

Qi Nie

5Publications

12Citation Statements Received

84Citation Statements Given

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Civil Aviation University of China

Publications

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Accuracy analysis and synthesis of asymmetric parallel mechanism based on Sobol-QMC

Yue

Chen

et al. 2020

Proceedings of the Institution of Mechanical Engineers, Part C:

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Aiming at the aircraft composite skin grinding, a new three degree-of-freedom (DOF) parallel mechanism with asymmetrical structure (TAM) is proposed to replace manual grinding. The TAM is achieved by integrating one of active limbs into the passive limb while keeping the required DOF unchanged, which is divided into two closed-loop chains: telescopic rod and parallelogram. The inverse kinematics models of the two chains are established according to closed-loop vector method. Thus, the actuation and the constraint Jacobian matrix are obtained. Based on the perturbation principle, the error modeling of the TAM is built. Adopting the constraint Jacobian matrix, 15 uncompensated errors are distinguished from the error model. In order to improve the working accuracy of the TAM, accuracy analysis and synthesis are necessary for all the uncompensated errors. The mapping function reflects the influence of uncompensated errors on the pose accuracy. The global sensitivity evaluation indexes are established by mapping function. Since Sobol sequences are superior in uniformity and convergence, the Quasi-Monte Carlo method based on Sobol sequences (Sobol-QMC) is introduced for sensitivity analysis. Taking the minimum manufacturing and installation costs as the optimization target, the objective function of accuracy synthesis is constructed. Ultimately, the reasonable tolerance zone of each uncompensated error is calculated by genetic algorithm. Simulation is performed by Sobol-QMC to verify the rationality of the optimization. The results show the probability is above 97% where most pose errors are in [[Formula: see text], [Formula: see text]] within the workspace. Therefore, accuracy synthesis is correct and practical.

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Research on the Heating of Deicing Fluid in a New Reshaped Coiled Tube

Wang

Liu

et al. 2017

Mathematical Problems in Engineering

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Aircraft ground deicing operation is significant to ensure civil flight safety in winter. Helically coiled tube is the important heat exchanger in Chinese deicing fluid heating system. In order to improve the deicing efficiency, the research focuses on heat transfer enhancement of deicing fluid in the tube. Based on the field synergy principle, a new reshaped tube (TCHC) is designed by ring-rib convex on the inner wall. Deicing fluid is high viscosity ethylene-glycol-based mixture. Because of the power function relation between high viscosity and temperature, viscosity has a negative influence on heat transfer. The number of ring-ribs and inlet velocity are two key parameters to the heat transfer performance. For both water and ethylene glycol, the outlet temperature rises when the number of ring-ribs increases to a certain limit. However, the increasing of velocity reduces heating time, which results in lower outlet temperature. The heating experiment of the original tube is conducted. The error between experiment and simulation is less than 5%. The outlet temperature of TCHC increases by 3.76%. As a result, TCHC efficiently promotes the coordination of velocity and temperature fields by changing the velocity field. TCHC has enhanced heat transfer of high viscosity deicing fluid.

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Multi-objective optimization of a new special-shaped tube for heating deicing fluid

Nie

Liu

et al. 2019

J Therm Anal Calorim

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Inlet and outlet impact losses analysis of impeller under off-design conditions

Nie¹,

Wang²,

Min³

2015

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An Iterative Algorithm for Calculating Temperature Distribution of Resistance Divider at Thermal Equilibrium

Li¹,

Yang²,

Nie³

et al. 2016

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Qi Nie

Accuracy analysis and synthesis of asymmetric parallel mechanism based on Sobol-QMC

Research on the Heating of Deicing Fluid in a New Reshaped Coiled Tube

Multi-objective optimization of a new special-shaped tube for heating deicing fluid

Inlet and outlet impact losses analysis of impeller under off-design conditions

An Iterative Algorithm for Calculating Temperature Distribution of Resistance Divider at Thermal Equilibrium

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