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Engine mounts are used for engine vibration isolation. The dynamic performance of the mount depends on the orientation. Measurements of the dynamic properties of engine mounts are usually performed in the axial direction because of the problem related to actuator loading direction and set up costs. Impact technique is developed here to measure the dynamic driving point stiffness and driving point shear stiffness of engine mount in a single setup. The compressive and shear frequency-dependent stiffnesses are obtained in the vertical orientation. A transformation matrix is used to calculate the frequency-dependent stiffnesses and loss factors in other orientations. Three different designs of engine mounts are used to verify the accuracy of the transformation model. The correlation coefficient between calculation and measurement results show R2≥ 0.995 along the X- and Y-axes. For the Z-axis, mounts B and C showed R2≥ 0.95 and mount A 0.687 ≤ R2≤ 0.791. 相似文献
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Tadashi Ooi Yoshiaki Takahashi Hideki Kidoushi 《Journal of Marine Science and Technology》1996,1(5):274-284
The control of a remotely-operated underwater vehicle to maintain a prescribed depth in shallow water under irregular surface
waves is realized through the application of the Robust Adaptive Neuro Controller, a composite control system incorporating—together
with the conventional control algorithm—a neural network controller. This network bestows a learning capability on the system,
allowing it to deal with unanticipated disturbances that would otherwise cause erroneous behavior of the vehicle. The effectiveness
of this application is verified through mathematical simulation of a model vehicle's behavior, through experiment in a model
basin, and through simulation of the behavior of an actual remotely operated vehicle in shallow water under irregular surface
waves. Graphic data representing the learning process undergone by the neural network distinctly indicate the rising output
from the network with the progression of learning, and the vehicle's depth variation traced in terms of the mean square error
vividly show the diminution of deviation from the prescribed depth obtained with application of the neural network. Thus controlled
to maintain constant depth, under-water vehicles with power supplied externally through a tether for propulsion and for heavy-duty
operations should consolidate their advantage for such activities as maintenance of submarine structures and surveys in deep
or hazardous water. 相似文献
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Manivannan Kandasamy Daniele Peri Seng Keat Ooi Pablo Carrica Frederick Stern Emilio F. Campana Philip Osborne Jessica Cote Neil Macdonald Nic de Waal 《Journal of Marine Science and Technology》2011,16(2):143-156
The wakes of high-speed passenger-only ferries that operated through Rich Passage, on the Seattle-Bremerton ferry route, caused
beach erosion and damage to habitat. A task was initiated to design a low-wake high-speed vessel using multi-fidelity CFD
based design optimization by using low-fidelity potential flow solvers for initial global design optimization and by using
URANS solvers for high-fidelity tuning of the optimized design. This simulation based design process involved a close collaboration
between ship designers, and hydrodynamics and CFD specialists, whose collective expertise guided the evolution of the design
based on both hydrodynamic and structural aspects. The initial hull shape optimization using potential flow code was carried
out by blending three different initial concepts provided by the designers. Subsequently, URANS was used to evaluate the potential
flow optimized hull and to further optimize the hull configuration parameters, namely, the centre-of-gravity, demihull spacing,
foil location, foil angle and slenderness ratio at different displacement conditions. The URANS based configuration optimization
also took into account the far field wakes’ energy spectrum with an objective of reducing the energetic, low frequency far
field wakes which are associated with beach flattening on the mixed sand and gravel beaches. Calculation of the far field
wake using URANS would require an unfeasibly large domain size; therefore, a Havelock code with a source distribution matching
the URANS calculated near field wave elevation was used to propagate the wakes into the far field. The end result of the optimization
was a design with significantly reduced far field wake, which is currently being built for experimental testing. 相似文献
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Manivannan Kandasamy Seng Keat Ooi Pablo Carrica Frederick Stern Emilio F. Campana Daniele Peri Philip Osborne Jessica Cote Neil Macdonald Nic de Waal 《Journal of Marine Science and Technology》2011,16(2):157-167
This paper details the CFD validation studies carried out as a prerequisite for multi-fidelity CFD-based design optimization
of high-speed passenger-only ferries aimed at reducing far-field wake energy that causes beach erosion. A potential flow program
(WARP) and a URANS program (CFDSHIP) were validated using full-scale measurements of resistance, sinkage, trim, and far-field
wake train obtained over a wide range of speeds for two high-speed semi-planing foil-assisted catamarans: Spirit (LOA-22 m)
and 1060 (LOA-17 m). This study posed a unique combination of challenges for CFD modeling: the foil appended geometry required
complicated surface overset grids, the effect of the waterjet and wind resistance had to be modeled, and a method had to be
devised to extrapolate the calculated near-field elevation to get the far-field wake train using Havelock sources. A more
concentrated effort was applied to the URANS verification and validation which forms the focus of this paper. The results
show that URANS is able to accurately predict the resistance and motions for both vessels when coupled with models that account
for the propulsors and air resistance. The overall accuracy of URANS for the performance analysis of the foil-assisted, semi-planing
catamarans was adequate to warrant its use as a tool for subsequent design and optimization of a new vessel with significantly
reduced wakes. 相似文献
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Yoshihisa Takekoshi Takafumi Kawamura Hajime Yamaguchi Masatsugu Maeda Norio Ishii Koyu Kimura Tadashi Taketani Akihiko Fujii 《Journal of Marine Science and Technology》2005,10(2):70-81
A new method for designing propeller blade sections is presented. A vortex lattice method is used to evaluate the performance and the time-dependent pressure distribution on the blade surface in a non-uniform flow, while efficient optimization algorithms are used to modify the blade sections. Two different designs were carried out in this study. The first was a design to realize a target pressure distribution in a rotating three-dimensional flow. A two-dimensional wing theory was used to obtain the target pressure distribution. The predicted increase in efficiency and the reduction in the cavity volume were confirmed by model experiments. The second was a design to maximize the propeller efficiency. By this method, the propeller efficiency was improved by 1.2% under the constrains of constant thrust and a prescribed margin for face cavitation. 相似文献
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Tadashi Hashimoto 《隧道建设》2012,32(3):261-269
为了使现代城市更有效率,具有更多功能,全球各大城市愈发关注地下空间的利用问题。然而,由于在大城市很多地下建筑物(如重要市政管线)已经开发,要开发新的地下空间,就要求更好更有效地利用浅层和深层的地下空间。因此,在尽量不影响地下水自然环境及邻近的地下或地上建筑物的前提下,开发适用于深埋和/或大断面建筑物的施工技术显得尤为重要。此外,由于多数亚洲国家大城市的地层由软弱沉积物构成,如黏土、淤泥、砂、砾石层等,且地下水位高;所以,有关现场勘察、设计、安全管理和环境保护监控、地下水处理、土体改良等的新技术都是必需的。根据这些需求,总结了在日本开发的新技术,包括现场勘察与监控技术、隧道及地下工程施工技术、土体改良技术、地下水处理技术与地下径流保持技术等。希望这些技术能够满足各大城市经济高效、环保地开发地下空间的需求。这些新技术不仅对发达国家大城市的地下空开发有用,而且对发展中城市的地下空间开发同样有用。 相似文献
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