D. Zito scite author profile

D. Zito

5Publications

29Citation Statements Received

17Citation Statements Given

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Affiliations

Sapienza University of Rome, University of Palermo, Engineering (Italy)

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Finite reluctance approach: A systematic method for the construction of magnetic network-based dynamic models of electrical machines

Bruzzese

Zito

Tessarolo

2014

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The finite reluctance approach is based on a simple synergy between a basic magnetic domain decomposition rule and the voltage balance at the terminals of any winding acting in the domain. The finite reluctance approach is thought as a tool for fast dynamic simulations of any kind of machine, but it is particularly adapt for irregular flux geometries as in fractional-slot surface-mounted permanent magnet machines with large slots and high slot flux leakages, for which only the finite element method has found good usage. This approach is based on the definition of a complementary mesh interlaced with the reluctance mesh, on the concept of material cell, and on unique rules to carry out both reluctances and magneto-motive forces. At this scope, definitions of mesh nodes, co-nodes, and auxiliary nodes are shown. The iron saturation can be easily taken in account, as well as motion effects. The circuit flux linkages are elected as state variables for integration, and they are directly linked to the loop fluxes in the magnetic network. The finite reluctance approach has been applied in this paper for dynamic modeling of an inverter-fed permanent-magnet linear synchronous motor

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Magnetic optimization of a fault-tolerant linear permanent magnet modular actuator for shipboard applications

Bortolozzi

Bruzzese

Ferro

et al. 2013

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The reliability is a key requirement in electric actuators to be used for moving ship control surfaces. This paper addresses a fault-tolerant design for an innovative naval actuator based on an inverter-fed permanent magnet linear synchronous motor. Due to the highly non-conventional actuator concept, a detailed FEM modeling approach is presented in this paper for comparison of different design solutions. A fault tolerant modular stator structure is proposed. The modular winding can be designed based on an integer-slots or fractional-slots concept. The two solutions are compared in this paper, considering encumbrance and thrusting force performances. The linear motion can be reverted to rotary motion through a prismatic-rotoidal joint for coupling to on board ship steering gears used to drive control surfaces (rudders, stabilizing fins). A drive prototype has been built and is presently under testing to assess and refine the results of the FEM modeling presented in the paper.

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Study of faulty scenarios for a fault-tolerant multi-inverter-fed linear permanent magnet motor with coil short-circuit or inverter trip

Bruzzese

Tessarolo

Mezzarobba

et al. 2014

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A fault-tolerant machine used for safety-critical tasks must a) guarantee at least a reduced-performance operation in case of partial machine fault and b) guarantee avoidance of drive mechanical jam/stall in case of total machine fault, to allow for the intervention of the back-up systems. Classical hydrostatic transmissions used on board ships for critical tasks such as rudder and stabilizing fin steering gears fulfill both the requirements a), b) above, but recent proposals for substitution with full-electric drives (rotary motors coupled with multistage reduction gears) usually do not. Especially the requirement b) needs particular attention and increased complexity when dealing with geared drives. This paper proposes a linear permanent-magnet direct drive fulfilling both the requirements above, for (but not limited to) rudder/fin steering gears. The absence of gears grants the requirement b), whereas the full-modular structure satisfies a), with independently fed stator modules and multiple inverters. This paper addresses some fault scenarios including electrical failures, in the machine winding (short-circuited coils) and in the inverters (trip of one or more units). The performance degradation is studied and assessed for the cases considered by both simulations and measurements on a prototype

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Thermal–mechanical test on ITER primary first wall mock-ups

Dell’Orco

Lorenzetto²,

Malavasi

et al. 2002

Fusion Engineering and Design

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Mechanical arrangements onboard ship of innovative permanent magnet linear actuators for steering gear

Bruzzese

Ruggeri

Rafiei

et al. 2017

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D. Zito

Finite reluctance approach: A systematic method for the construction of magnetic network-based dynamic models of electrical machines

Magnetic optimization of a fault-tolerant linear permanent magnet modular actuator for shipboard applications

Study of faulty scenarios for a fault-tolerant multi-inverter-fed linear permanent magnet motor with coil short-circuit or inverter trip

Thermal–mechanical test on ITER primary first wall mock-ups

Mechanical arrangements onboard ship of innovative permanent magnet linear actuators for steering gear

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