Xuezhou Wang’s research while affiliated with Delft University of Technology and other places

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (21)


Downsizing the Linear PM Generator in Wave Energy Conversion for Improved Economic Feasibility
  • Article
  • Full-text available

September 2022

·

131 Reads

·

10 Citations

Journal of Marine Science and Engineering

·

Xuezhou Wang

·

·

[...]

·

A crucial part of wave energy converters (WECs) is the power take-off (PTO) mechanism, and PTO sizing has been shown to have a considerable impact on the levelized cost of energy (LCOE). However, as a dominating type of PTO system in WECs, previous research pertinent to PTO sizing did not take modeling and optimization of the linear permanent magnet (PM) generator into consideration. To fill this gap, this paper provides an insight into how PTO sizing affects the performance of linear permanent magnet (PM) generators, and further the techno-economic performance of WECs. To thoroughly reveal the power production of the WEC, both hydrodynamic modeling and generator modeling are incorporated. In addition, three different methods for sizing the linear generator are applied and compared. The effect of the selection of the sizing method on the techno-economic performance of the WEC is identified. Furthermore, to realistically reflect the relevance of PTO sizing, wave resources from three European sea sites are considered in the techno-economic analysis. The dependence of PTO sizing on wave resources is demonstrated.

Download

The Influence of Linear Permanent Magnet Generator Sizing on the Techno-Economic Performance of a Wave Energy Converter

July 2021

·

151 Reads

·

9 Citations

Downsizing the Power Takeoff (PTO) rating has been proven to be beneficial for decreasing the Levelized Cost of Energy (LCOE) of wave energy converters (WECs). However, the linear permanent magnet (PM) generator has not yet been modelled and optimized in detail in previous feasibility studies. This paper extends the study of the PTO downsizing to further investigate the influence of the linear PM generator sizing on a WEC's techno-economic performance. The generator is sized for providing different maximum forces, and the effect of sizing on the generator performance is presented. The efficiency map of the selected linear generator design is applied to evaluate the annual energy production (AEP) and finally identify its influence on the techno-economic performance of a WEC.


FIGURE 9. Optimization procedure
Parameters of the Studied Vessel
Variables of NSGA-II
Parameters for torque estimation
summaries the optimal solutions from the Pareto

+3

Sizing and Control of a Hybrid Ship Propulsion System Using Multi-Objective Double-Layer Optimization

May 2021

·

371 Reads

·

27 Citations

IEEE Access

Ship hybridization has received some interests recently in order to achieve the emission target by 2050. However, designing and optimizing a hybrid propulsion system is a complicated problem. Sizing components and optimizing energy management control are coupled with each other. This paper applies a nested double-layer optimization architecture to optimize the sizing and energy management of a hybrid offshore support vessel. Three different power sources, namely diesel engines, batteries and fuel cells, are considered which increases the complexity of the optimization problem. The optimal sizing of the components and their corresponding energy management strategies are illustrated. The effects of the operational profiles and the emission reduction targets on the hybridization design are studied for this particular type of vessel. The results prove that a small emission reduction target of about 10achieved by improving the diesel engine efficiency using the batteries only while the achievement of a larger emission reduction target mainly depends on the amount of the hydrogen and/or on-shore charging electricity consumed. Some design guidelines for hybridization are derived for this particular ship which could be also valid for other vessels with similar operational profiles.


Improving Annual Energy Production of Doubly-Fed Induction Generators

March 2021

·

48 Reads

·

5 Citations

IEEE Transactions on Energy Conversion

Doubly fed induction generator (DFIG) based wind turbines are most employed for onshore applications because of their cost-effectiveness. The drivetrain improvement is barely studied due to the maturity of the DFIG based systems. This paper investigates two methods for improving the annual energy production (AEP) of the DFIG based wind turbines. They are referred to as short-circuited and \bigtriangleup -Y-connected DFIGs. The origins of the AEP improvement are elaborated from the drivetrain perspective. The improvement is quantified by the aerodynamic model of the turbine and the steady-state model of the DFIG. The two methods are then compared when applied to six regions with different wind speed distributions. The AEP improvements at six regions are evaluated and compared to derive the feasibility of the methods for different locations.


Short-Circuit Characteristics of Superconducting Permanent Magnet Generators for 10 MW Wind Turbines

February 2021

·

32 Reads

·

9 Citations

IEEE Transactions on Applied Superconductivity

Superconducting permanent magnet generators (SCPMGs) are a potential candidate for 10 MW direct-drive wind turbine applications. This paper presents two 10 MW SCPMG designs using MgB 2_2 cables for the armature winding and investigates the short-circuit characteristics of the designed SCPMGs. The first part of the results shows that the SCPMGs can double the shear stress of a conventional low-speed permanent magnet (PM) generator (from 65 kPa to 130 kPa) whilst avoiding demagnetization of the PMs in rated-load operation. However, the power factor has to drop to a range of 0.7–0.8. The second part of the results shows that during a sudden three-phase short circuit, the superconducting armature winding is prone to quench and the PMs are likely to be demagnetized in both proposed designs.





Modeling and Optimization of Brushless Doubly-Fed Induction Machines Using Computationally Efficient Finite Element Analysis

November 2016

·

60 Reads

·

43 Citations

IEEE Transactions on Industry Applications

The air-gap magnetic fields of brushless doubly fed induction machines (DFIMs) are complicated because of the cross-coupling between two stator fields via a special nested-loop rotor. Compared with classical analytical models, transient finite-element (FE) modeling is easier to evaluate the machine performance taking saturation into account. However, it is not efficient to evaluate lots of candidates in a large design space using transient FE models considering the time cost. In the transient simulation, the induced rotor currents are calculated by solving several time differential equations using the backward differentiation formula. This paper presents a computationally efficient FE analysis for brushless DFIMs. The induced rotor currents can be calculated using a single magnetostatic FE simulation. The average torque, losses, and efficiency can also be predicted using one magnetostatic solution. One candidate design can be evaluated within 1 or 2 min on a personal workstation. The efficient analysis is validated by the transient FE results. The presented model is applied to the optimization of a prototype. The influence of two construction variables, namely, pole-pair combinations and the number of loops per nest, is studied. One pole-pair combination is selected for manufacturing a prototype.


Brushless Doubly-Fed Induction Machines: Magnetic-Field Analysis

November 2016

·

89 Reads

·

35 Citations

IEEE Transactions on Magnetics

The brushless Doubly-Fed Induction Machine (DFIM) shows great potential as a generator in large-scale wind turbines. The motion of the magnetic field in this machine is not a simple rotation, which makes it not so straight forward to understand its operating principles. This paper develops an analytical magnetic field model for the brushless DFIM that includes the effects of rotor time-harmonics and space-harmonics due to the winding distribution and slotting. By using a case study machine, the developed analytical model is then validated by comparison to FE calculations. Additionally, a two-dimensional spectral analysis is applied to the FE derived radial air-gap magnetic field as a function of time. This analysis verifies the space-time relations of the rotating magnetic field components in the air-gap of the brushless DFIM. Lastly, the developed analytical magnetic field model is used to analyse the brushless DFIM operating principles. The interaction of the stator magnetic field with the rotor nested-loops is explained, as well as the development of electromagnetic torque.


Citations (20)


... In wave energy conversion, the PTO system serves as a crucial linkage between the moving buoy and the electrical generator. It is acknowledged that various types of PTO systems exist, differing in operating principles, size, efficiency, etc (Prado and Polinder, 2013;Tan et al., 2022dTan et al., , 2021b. However, considering the scope of the work, the PTO component in the WEC is simplified to function in a fully linear manner. ...

Reference:

A modified spectral-domain model for nonlinear hydrostatic restoring force of heaving wave energy converters
Downsizing the Linear PM Generator in Wave Energy Conversion for Improved Economic Feasibility

Journal of Marine Science and Engineering

... In wave energy conversion, the PTO system serves as a crucial linkage between the moving buoy and the electrical generator. It is acknowledged that various types of PTO systems exist, differing in operating principles, size, efficiency, etc (Prado and Polinder, 2013;Tan et al., 2022dTan et al., , 2021b. However, considering the scope of the work, the PTO component in the WEC is simplified to function in a fully linear manner. ...

The Influence of Linear Permanent Magnet Generator Sizing on the Techno-Economic Performance of a Wave Energy Converter

... Turbine speed, and therefore turbine efficiency, have a low impact on fuel consumption, as found for a configuration of a turbocharger with a recovery turbine [51], which indicates that a mechanical linkage could be more interesting in the turbine side than the compressor side [57]. Previous studies demonstrated that the electric compressor could be used to increase the air-to-fuel ratio, obtaining a faster combustion, increasing closed-cycle efficiency, and reducing CO 2 emissions [17], as confirmed in Figures 27 and 28. ...

Sizing and Control of a Hybrid Ship Propulsion System Using Multi-Objective Double-Layer Optimization

IEEE Access

... One approach of these large-scale wind generators is direct-drive HTS wind generators which have been extensively researched due to their excellent electromagnetic performance. A comprehensive review of HTS applications in offshore wind generators is presented in [16], [17]. One of the most common structure for direct-drive HTS wind generators is the traditional synchronous machine with a single stator which has been explored by many researchers. ...

Short-Circuit Characteristics of Superconducting Permanent Magnet Generators for 10 MW Wind Turbines
  • Citing Article
  • February 2021

IEEE Transactions on Applied Superconductivity

... Such a tendency can be seen from another type of PSCGs -permanent magnet superconducting generators (PMSCGs) [19]- [25]. Another tendency has been seen in the studies of FSCGs where more efforts are put onto applying superconducting armature windings rather than trying to increase the main field [26]- [28]. The reason could be that the design work on the superconducting field windings and the partially superconducting machine topology is encountering a bottleneck regarding the torque density level and cost issues [10], [29]. ...

Design Considerations and Short-Circuit Characteristics of Fully Superconducting Wind Turbine Generators
  • Citing Conference Paper
  • September 2020

... Numerous studies have explored the designs, models, performance, and control of large BDFGs utilizing numerical simulations and simulation software. These studies have reported BDFIG generation capacities of up to 2 [37], 3.2 [38], [39], [40], and 6 MW [41]. Additionally, with the BDFRG, capacities reached 1.5 [42] and 2 MW [43], [44]. ...

FE based multi-objective optimization of a 3.2MW brushless doubly-fed induction machine
  • Citing Conference Paper
  • April 2017

... Le modèle circuit couplé est utilisé et les résultats sont validés expérimentalement. Concernant l'inclinaison des bars rotoriques, quelques travaux [5]- [6] ont été menés sur une structure de rotor de MADASB. ...

Computationally Efficient Calculation of Skew Effects in Brushless Doubly-Fed Induction Machines
  • Citing Article
  • October 2016

... A 250kW prototype 2/4 BDFM shows significant promise, but suffers from torque ripple and harmonics on its PW [8]. Similarly, the 4/2 prototype suffers from torque ripple and grid harmonic distortion [9]. The higher speed 1/3 suffers from high winding and spacial harmonics [10]. ...

Evaluating Harmonic Distortions in Brushless Doubly-Fed Induction Machines
  • Citing Article
  • September 2016

IEEE Transactions on Magnetics

... Based on the presented model in [3], in [6] and [7], harmonics of BDFIM are obtained and analyzed. In [8], as well as the winding harmonics, the slot harmonics are taken into account in the air gap flux density of BDFIM machines. ...

Harmonics Study of Nested-Loop Rotors in Brushless Doubly-Fed Induction Machines
  • Citing Conference Paper
  • September 2016