Your search keyword '"Ruei-Hung Weng"' showing total 4 results

1. Voltage Quality Study of Integrated Power System for All-Electric Vessels Using Dynamic Simulation Techniques

Author

Ruei Hung Weng and Chun-Lien Su

Subjects

Engineering, business.industry, General Engineering, Propulsion, Automotive engineering, Power (physics), Dynamic simulation, Electric power system, Shipbuilding, Systems design, Transient (oscillation), business, Simulation, Voltage

Abstract

New trends of environmental and economical issues have motivated ship end users to pay more attention in producing affordable power solutions for future vessels. This movement has been recognized by the commercial shipbuilding industry and the U.S. Navy and the aspects of integrated Power System (IPS) are introduced into the planning and design of all-electric vessels to improve system utilization and operation. The IPS consists of an architecture and a set of generators which together supply power to ship service loads as well as electric propulsion systems. However, for reliable and efficient operations, an effective system performance study framework is important and essential. To ensure the operating performance of IPS in all-electric vessels under different navigating situations, a dynamic simulation technique based method is employed in this paper for analyzing voltage variations. The dynamic characteristics of IPS are modeled and simulated by the proposed method. To demonstrate the effectiveness of proposed method, a practical vessel IPS with 6110 kVA of generation capacity and two 2200 kW propulsion motors is selected for computer simulation. Test results have shown that with thorough simulations, the system performance with respect to transient and dynamic voltage qualities can be completely represented by the proposed method, which can assist engineers in determining proper system design or mitigation options.

Published

2012

2. A Novel Control Model for Electric Propulsion Systems in All-Electric Ships

Author

Ruei Hung Weng and Chun-Lien Su

Subjects

Electric motor, Engineering, Total harmonic distortion, business.industry, General Engineering, Electrical engineering, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Single-phase electric power, Converters, Electrically powered spacecraft propulsion, Harmonic, business, Pulse-width modulation, Voltage

Abstract

In recent sea and undersea vehicles, implementation of all-electric ships (e-ships) technologies that employ various types of semiconductor switching devices based power conversion modules has brought revolution. These power converters that are nonlinear loads can produce non-sinusoidal distorted currents and these currents are then delivered and broadcasted through the power network and thus bus voltages are distorted. This effect can be more obvious while large loads fed and controlled through power conversion modules, such as electric propulsion system, operate for different purposes of missions. In order to improve the harmonic distortion due to operation of electric propulsion systems, a novel control model for electric propulsion motors is proposed in this paper. The electric motor drivers are controlled through three inverter triggering signals including pulse width modulation (PWM), Quasi-Six Step, and Six-Step for different ship navigation scenarios. Simulation results of application of the proposed model to a practical ship with electric propulsion system are presented. Test results have demonstrated that with the proposed model the harmonic distortions produced by electric propulsion systems under different speed situations can be effectively mitigated and consequently the system supply quality is maintained.

Published

2012

3. Dynamic monitoring of mechano-sensing of cells by gold nanoslit surface plasmon resonance sensor

Author

Zhao-Xian Zheng, Pei-Kuen Wei, Arthur Chiou, Kuang-Li Lee, Shu-Han Wu, and Ruei-Hung Weng

Subjects

Plasmons, Materials science, Surface Properties, Materials Science, Biophysics, lcsh:Medicine, Condensed Matter, Stress (mechanics), Stress, Physiological, Cell Line, Tumor, Biological Fluid Mechanics, Molecular Cell Biology, Cell Adhesion, Shear stress, Shear strength, Cell Mechanics, Nanotechnology, Humans, Biomechanics, Surface plasmon resonance, Cell adhesion, lcsh:Science, Biology, Condensed-Matter Physics, Multidisciplinary, Physics, lcsh:R, Applied Chemistry, Laminar flow, Adhesion, Microfluidic Analytical Techniques, Surface Plasmon Resonance, Biomechanical Phenomena, Nanostructures, Chemistry, Chemical Properties, lcsh:Q, Gold, Shear Strength, Shear flow, Research Article

Abstract

We demonstrated a real-time monitoring of live cells upon laminar shear stress stimulation via surface plasmon resonance (SPR) in gold nanoslit array. A large-area gold nanostructure consisted of 500-nm-period nanoslits was fabricated on a plastic film using the thermal-annealed template-stripping method. The SPR in the gold nanoslit array provides high surface sensitivity to monitor cell adhesion changes near the sensor surface. The human non-small cell lung cancer (CL1-0), human lung fibroblast (MRC-5), and human dermal fibroblast (Hs68) were cultured on the gold nanoslits and their dynamic responses to laminar shear stress were measured under different stress magnitudes from 0 to 30 dyne/cm(2). Cell adhesion was increased in CL1-0 under shear flow stimulation. No adhesion recovery was observed after stopping the flow. On the other hand, MRC-5 and Hs68 decreased adhesion and recovered from the shear stress. The degree of recovery was around 70% for MRC-5. This device provides dynamic study and early detection of cell adhesion changes under shear flow conditions.

Published

2014

4. Cell viability monitoring using Fano resonance in gold nanoslit array

Author

Ruei-Hung Weng, Shu-Han Wu, Pei-Kuen Wei, Arthur Chiou, Shu-Yi Hsieh, and Kuang-Li Lee

Subjects

Materials science, Physics and Astronomy (miscellaneous), biology, Fano resonance, Substrate (chemistry), Nanotechnology, Adhesion, Vinculin, Nanosensor, biology.protein, Biophysics, Nanobiotechnology, Viability assay, Biosensor

Abstract

Cell viability is a crucial issue in biological research. We present label-free monitoring of adhesion cells viability by gold nanoslits-based Fano resonance biosensors. Plastic multiple wells with gold nanoslits substrate were made using a thermal nanoimprint method. Adhesion cells in the wells were treated with doxorubicin for inducing cell death and compared with conventional colorimetric assay. The nanoslits method shows better respones of viability tests under low concentration and short interaction time due to its high surface sensitivies. The vinculin labelling indicates that the measured signals are in good agreement with the adhesion abilities of cells.

Published

2013