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991.
Resistance analysis is an important analytical method used to evaluate the hydrodynamic performance of High Speed Craft (HSC). Analysis of multihull resistance in shallow water is essential to the performance evaluation of any type of HSC. Ships operating in shallow water experience increases in resistance because of changes in pressure distribution and wave pattern. In this paper, the shallow water performance of an HSC design concept, the semi-Small Waterplane Area Twin Hull (semi-SWATH) form, is studied. The hull is installed with fin stabilizers to reduce dynamic motion effects, and the resistance components of the hull, hull trim condition, and maximum wave amplitude around the hull are determined via calm water resistance tests in shallow water. These criteria are important in analyzing semi-SWATH resistance in shallow water and its relation to flow around hull. The fore fin angle is fixed to zero degrees, while the aft fin angle is varied to 0°, 5°, 10°, and 15°. For each configuration, investigations are conducted with depth Froude numbers (Fr H ) ranging from 0.65 to 1.2, and the resistance tests are performed in shallow water at the towing tank of UTM. Analysis results indicate that the resistance, wave pattern, and trim of the semi-SWATH hull form are affected by the fin angle. The resistance is amplified whereas the trim and sinkage are reduced as the fin angle increases. Increases in fin angle contribute to seakeeping and stability but affect the hull resistance of HSCs. 相似文献
992.
直流车辆用文中所述的蓄能器能在显著降低功率消耗的同时,又在节能方面迈出了重要一步,而且车辆可在局部无接触导线区运行.样车试验证实了这些设想. 相似文献
993.
994.
Doug J. Marchand 《中国远洋航务》2006,(11):48-50
The Port of Savannah is the fourth largest container port of the "five'global U.S. ports. 相似文献
995.
Many porting systems for internal combustion engines have been tried and tested over the years, however the basic spring actuated
poppet valve system has prevailed over the last century. In the goal to lower engine output parasitic losses, a simple rotary
valve porting system design is proposed and analyzed. The proposed design concept takes into consideration and combines all
the prominent advantages of many ealier mutlitiple design variations over the past century. The inherent primary advantage
of such a rotary porting system is the elimination of reciprocating components, thus lowering vibration, and removal of highly
stiff springs which contribute to considerable system power loss. Comparable sized 3-D representations of both systems are
constructed in CAD (Computer Aided Design) software in order to run mechanical and fluid simulations to validate the efficiency
advantage of a rotary valve porting system. Using Pro/Engineer Mechanism Dynamics module, the minimum torque required to actuate
both systems at 2000 rpm and 3000 rpm is determined. Fluid simulations are performed using a commercial software CFDesign
V10. Volumetric flow rates are compared during the intake stroke as well as turbulence intensity factors which characterizes
a systems ability to properly mix the Air/Fuel mixture and the combustion efficiency. Some possible improvement on the rotary
geometry is suggested. 相似文献
996.
The objective of this study is to investigate the dynamic deformation characteristics of an automotive A/C hose assembly using
the finite element method and experimentation. The finite element analysis consisted of two analyses, specifically, a modal
and a transient analysis. The dynamic modal analysis was conducted to assess the dynamic characteristics of the A/C hose structure,
and the dynamic transient analysis was performed to investigate the dynamic stresses of an automotive A/C hose by dynamic
loading with particular emphasis on the reinforced braid. Furthermore, the analyses results are expected to provide useful
reference data in the design optimization of the hose layout related to the constrained design space. Modal testing was undertaken
to verify the FE model. The FE result was in good agreement with the experimental results. The modal analysis result showed
that the bending and swing modes of the hose occurred in the first six natural frequencies. The dynamic transient result showed
that the maximum stress in the hose components occurred in the reinforced braid layers, which are particularly damage-prone. 相似文献
997.
The hybridization of the conventional thermal vehicles nowadays constitutes a paramount importance for car manufacturers,
facing the challenge of minimizing the consumption of the road transport. Although hybrid power train technologies did not
converge towards a single solution, series/parallel power trains with power-split electromechanical transmissions prove to
be the most promising hybrid technology. In fact, these power trains show maximum power train overall efficiency and maximum
fuel reduction in almost all driving conditions compared to the conventional and other hybrid power trains. This paper addresses
the model and design of the electro-mechanical configuration of one of the most effective HEV power trains: case study of
the 2nd generation Prius. It presents the simulation work of the overall operation of the Toyota Hybrid System (THS-II) of
the Prius, and explores not only its power-split eCVT innovative transmission system but also its overall supervision controller
for energy management. The kinematic and dynamic behaviors of the THS-II power train are explained based on the power-split
aspect of its transmission through a planetary gear train. Then, the possible regular driving functionalities that result
from its eCVT operation and the energy flow within its power train are outlined. A feed-forward dynamic model of the studied
power train is next proposed, supervised by a rule-based engineering intuition controller. The energy consumption of the THS-II
proposed model has been validated by comparing simulation results to published results on European, American and Japanese
regulatory driving cycles. 相似文献
998.
Hydrography, currents and distribution of suspended matter during a dumping experiment in the western Baltic Sea at a site near Warnemünde 总被引:1,自引:1,他引:0
During a dumping experiment on 20/21 June 2001, an extensive data record was collected to understand the dynamical processes in the water column of the investigation area and to validate model results. Weak westerly winds with strongly changing cloud coverage characterized the meteorological situation. During the second day the wind calmed down and moved shortly to easterly directions. The water column was characterized by a strong vertical stratification with discontinuity layers in temperature and salinity in 12 and 16 m. The current regime was dominated by outflow at the water surface and inflow along the German coast, with strong current shearing in the dumping area. The suspended matter clouds could be identified by optical methods and ADCP (Acoustic Doppler Current Profiler) scattering intensity. During the experiment the suspended matter plumes were only visible at the surface up to 1 h after the dumping. The aerial photographs document that the particle clouds at the surface drifted to the west and, after approximately 40 min, they were only weakly visible. The fine material was concentrated in the discontinuity layer leading to substantially higher values of optical parameters and suspended matter concentration than measured in the surface clouds. Due to the vertical current shears the material was transported in the water column in different directions. At the first day the maximum of the suspended matter in the discontinuity layer was in the north-western corner and in the bottom layer in the northeast corner of the dumping area. Strong wind conditions after the dumping led to periodical resuspension processes. 相似文献
999.
1000.