P.C. Wang scite author profile

P.C. Wang

2Publications

15Citation Statements Received

35Citation Statements Given

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Harbin Institute of Technology

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Double-bunch unfolding methods for the Back-n white neutron source at CSNS

Wang¹,

Li²,

Ruan³

et al. 2020

J. Inst.

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A: The Back-n white neutron source at China Spallation Neutron Source (CSNS) is designed specifically for nuclear data measurements and multidisciplinary neutron applications. The time of flight (TOF) method is deployed to obtain a high resolution of neutron energy. In the normal operation mode of CSNS there are two proton bunches with a time interval of 410 ns in each pulse which has a repetition frequency of 25 Hz. Due to the superposition of the event distributions corresponding to two bunches, the resolution of the TOF measurement at Back-n will be degraded by the double-bunch characteristics if the measured event distribution is used directly without unfolding, especially in the higher neutron energy region. To nearly recover the event distribution corresponding to a single proton bunch, the unfolding methods have been developed to obtain better time resolution and energy resolution. Two kinds of unfolding algorithms based on the iterative Bayesian method and the iterative event re-distribution method, respectively, have been developed and tested with simulated data and experimental data. The developed methods have shown nice performance in unfolding the double-bunch event distributions with high accuracy and fast convergence. With the deploying of the unfolding methods, the data of the first batch experiments conducted at Back-n in the normal double-bunch mode were analyzed and nearly the same time resolution as in the case of the single-bunch mode has been obtained. K: Analysis and statistical methods; Data processing methods

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Structural Design and Multi-Objective Evaluation of Composite Bladed Propeller

Hong

Hao

Wang

et al. 2014

Polymers and Polymer Composites

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This paper describes the work to design a composite bladed marine propeller. The hydrodynamic load and the nonlinear structural responses are predicted by the coupled FEM/CFD method. A pre-twist strategy is used to determine a new geometry of the composite bladed propeller for improving the hydrodynamic performance. Different material schemes and symmetric stacking sequences are considered as the design parameters. An evaluation method of multi-objective function is presented for optimizing the strength, deflection and mass at design conditions. Numerical results are obtained and the optimal design scheme of the composite bladed propeller is obtained.

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P.C. Wang

Double-bunch unfolding methods for the Back-n white neutron source at CSNS

Structural Design and Multi-Objective Evaluation of Composite Bladed Propeller

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