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141.
In this study, we propose a method for estimating the amount of expansion that occurs in subsea pipelines, which could be applied in the design of robust structures that transport oil and gas from offshore wells. We begin with a literature review and general discussion of existing estimation methods and terminologies with respect to subsea pipelines. Due to the effects of high pressure and high temperature, the production of fluid from offshore wells is typically caused by physical deformation of subsea structures, e.g., expansion and contraction during the transportation process. In severe cases, vertical and lateral buckling occurs, which causes a significant negative impact on structural safety, and which is related to on-bottom stability, free-span, structural collapse, and many other factors. In addition, these factors may affect the production rate with respect to flow assurance, wax, and hydration, to name a few. In this study, we developed a simple and efficient method for generating a reliable pipe expansion design in the early stage, which can lead to savings in both cost and computation time. As such, in this paper, we propose an applicable diagram, which we call the standard dimensionless ratio (SDR) versus virtual anchor length (LA) diagram, that utilizes an efficient procedure for estimating subsea pipeline expansion based on applied reliable scenarios. With this user guideline, offshore pipeline structural designers can reliably determine the amount of subsea pipeline expansion and the obtained results will also be useful for the installation, design, and maintenance of the subsea pipeline. 相似文献
142.
In this study, we propose a method for estimating the amount of expansion that occurs in subsea pipelines, which could be applied in the design of robust structures that transport oil and gas from offshore wells. We begin with a literature review and general discussion of existing estimation methods and terminologies with respect to subsea pipelines. Due to the effects of high pressure and high temperature, the production of fluid from offshore wells is typically caused by physical deformation of subsea structures, e.g., expansion and contraction during the transportation process. In severe cases, vertical and lateral buckling occurs,which causes a significant negative impact on structural safety, and which is related to on-bottom stability, free-span, structural collapse, and many other factors. In addition, these factors may affect the production rate with respect to flow assurance, wax, and hydration, to name a few. In this study, we developed a simple and efficient method for generating a reliable pipe expansion design in the early stage, which can lead to savings in both cost and computation time. As such, in this paper, we propose an applicable diagram, which we call the standard dimensionless ratio(SDR) versus virtual anchor length(LA) diagram, that utilizes an efficient procedure for estimating subsea pipeline expansion based on applied reliable scenarios. With this user guideline,offshore pipeline structural designers can reliably determine the amount of subsea pipeline expansion and the obtained results will also be useful for the installation, design, and maintenance of the subsea pipeline. 相似文献
143.
Young Ho Kim Kyung-Il Chang Jong Jin Park Seon Ki Park Sang-Hyun Lee Young-Gyu Kim Kyung Tae Jung Kuh Kim 《Journal of Marine Systems》2009,78(2):249
Reanalyzed products from a MOM3-based East Sea Regional Ocean Model with a 3-dimentional variational data assimilation module (DA-ESROM), have been compared with the observed hydrographic and current datasets in the Ulleung Basin (UB) of the East/Japan Sea (EJS). Satellite-borne sea surface temperature and sea surface height data, and in-situ temperature profiles have been assimilated into the DA-ESROM. The performance of the DA-ESROM appears to be efficient enough to be used in an operational ocean forecast system.Comparing with the results from Mitchell et al. [Mitchell, D. A., Watts, D. R., Wimbush, M., Teague, W.J., Tracey, K. L., Book, J. W., Chang, K.-I., Suk, M.-S., Yoon, J.-H., 2005a. Upper circulation patterns in the Ulleung Basin. Deep-Sea Res. II, 52, 1617-1638.], the DA-ESROM fairly well simulates the high variability of the Ulleung Warm Eddy and Dok Cold Eddy as well as the branching of the Tsushima Warm Current in the UB. The overall root-mean-square error between 100 m temperature field reproduced by the DA-ESROM and the observed 100-dbar temperature field is 2.1 °C, and the spatially averaged grid-to-grid correlation between the two temperature fields is high with a mean value of 0.79 for the inter-comparison period.The DA-ESROM reproduces the development of strong southward North Korean Cold Current (NKCC) in summer consistent with the observational results, which is thought to be an improvement of the previous numerical models in the EJS. The reanalyzed products show that the NKCC is about 35 km wide, and flows southward along the Korean coast from spring to summer with maximum monthly mean volume transport of about 0.8 Sv in August–September. 相似文献
144.
H. Yang B. Kim Y. Park W. Lim S. Cha 《International Journal of Automotive Technology》2009,10(3):381-390
In recent studies, various types of multi-mode electric variable transmissions for hybrid electric vehicles have been proposed.
A multi-mode electric variable transmission consists of two or more different types of a planetary gear hybrid powertrain
system (PGHP), which can change power flow type using clutches to improve transmission efficiency. Input split systems are
generally used for the single-mode powertrain because of their overall superiority, but other power split systems such as
output split and compound split systems can be used in the dual-mode powertrain. In this study, we analyze the power transmission
characteristics of output split systems, and evaluate their fuel economies in the FTP72 cycle, acceleration performance, and
constant vehicle speeds. These results enable the selection of appropriate systems for a dual-mode powertrain. 相似文献
145.
N. G. Park J. H. Ryu H. W. Lee Y. H. Jeon N. Zhang 《International Journal of Automotive Technology》2009,10(3):341-346
An Inner Spherical CVT (ISCVT) transfers engine power by utilizing the traction force of the lubricant fluid film on the contact
point between concave and convex spherical rolling bodies. Since the concave and the convex contact surfaces of the ISCVT
are exactly spherical parts, they have a large circular (not elliptic) contact area, and the ISCVT mechanism has a larger
torque capacity, less spin loss, and better stability than other traction drive mechanisms. The IVT (Infinitely Variable Transmission)
performances also can easily be embodied in the ISCVT. In this work, we developed a prototype of the ISCVT for a motorcycle
with a 125cc single cylinder engine having a maximum torque of 13.73 Nm at 8,000 rpm. The design parameters were determined,
and the transmission performances were evaluated by optimal design procedure. The transmission efficiency, the life time,
the maximum severe stresses on each part of the ISCVT, and the work needed for varying speed ratio were theoretically investigated,
and the efficiency performances were experimentally measured. The manufactured prototype was installed in an actual motorcycle,
which was fixed on the test-bench equipped with a dynamometer. The parasitic loss of the prototype and the cross-sectional
road load performance were tested. The power efficiency of the simulated prototype was between 87∼92%, and the life span was
more than 50,000 hours. The tested overall power efficiency was around 70∼92% under frequent driving conditions, which is
an impressive performance in a motorcycle transmission despite the small difference from the simulation. 相似文献
146.
B. -L. Choi D. -H. Choi J. Min K. Jeon J. Park S. Choi J. -M. Ko 《International Journal of Automotive Technology》2009,10(1):49-54
This research proposes an automatic torsion beam axle optimization process with a multidisciplinary approach and generates
the optimal torsion design parameters, such as thickness and shape. In order to construct an automatic analysis process, multidisciplinary
analysis models, such as modal analysis, roll mode dynamic analysis, and fatigue analysis, were applied in batch mode. To
understand the design space, a parametric study using the torsion beam thickness and shape was performed. Considering roll
durability and K&C characteristics, the torsion beam axle could be optimized. For the automated design process, a PIDO tool
called PIAnO was used. In conclusion, a reduction in the computer-aided simulation time was achieved, and the durability and
K&C characteristics of the torsion beam were enhanced by optimizing the thickness and shape. 相似文献
147.
H. J. Kim C. H. Bae S. H. Kim H. Y. Lee K. J. Park M. W. Suh 《International Journal of Automotive Technology》2009,10(1):123-129
Urban transit is a complex system that contains both electrical and mechanical entities; therefore, it is necessary to construct
a maintenance system for ensuring safety during high-speed driving. Expert systems are computer programs that use numerical
or non-numerical domain-specific knowledge to solve problems. This research aims to develop an expert system that diagnoses
the causes of failures quickly and displays measures to correct them. For the development of this expert system, the standardization
of a failure code classification and the creation of a Bill of Materials (BOM) were first performed. Through the analysis
of both failure history and maintenance manuals, a knowledge base has been constructed. Also, for retrieving the procedure
of failure diagnosis and repair linking with the knowledge base, we have built a Rule-Based Reasoning (RRB) engine with a
pattern matching technique and a Case-Based Reasoning (CBR) engine with a similar search method. Finally, this system has
been developed as web based in order to maximize accessibility. 相似文献
148.
S.?Lee Y.?Cho M.?Song H.?Kim J.?Park D.?BaikEmail author 《International Journal of Automotive Technology》2012,13(3):355-363
Particulate matter in diesel engine exhaust, particularly nano-particles, can cause serious human health problems including
diseases such as lung cancer. Because diesel nano-particle issues are of global concern, regulations on particulate matter
emissions specify that not only the weight of particulate matter emitted but also the concentration of nanoparticles must
be controlled. This study aimed to determine the effects on nano-particle and PM emissions from a diesel engine when applying
a urea-SCR system for NOx reduction. We found that PM weight increases by approximately 90% when urea is injected in ND-13 mode over the emission without
urea injection. Additionally, PM weight increases as the NH3/NOx mole ratio is increased at 250 °C. In SEM scans of the collected PM, spherical particles were observed during urea injection,
with sizes of approximately 200 nm to 1 μm. This study was designed to determine the conditions under which nano-particles
and PM are formed in a urea-SCR system and to relate these conditions to particle size and shape via a quantitative analysis
in ND-13 mode. 相似文献
149.
Virtualization is attracting significant interest in the automotive industry because it enables a highly secure and reliable
computing environment. More importantly, virtualization maintains the same operating environment for legacy automotive software
while exploiting the benefits of widely adopted multicore platforms. To exploit the virtualization technology in an automotive
system, it is important to predict the WCET of an automotive application running on a virtual machine monitor (VMM). Unfortunately,
the task is challenging because of difficulties in analyzing complicated interactions between a VMM and a guest OS. There
are no known attempts to predict the WCET of an application in such an environment. In this paper, we propose a hierarchical
and parametric WCET prediction framework. We divide the problem into two subproblems. First, we model the WCET of an application
as a function of WCETs of system calls provided by a guest OS. Second, we model WCETs of a system call as a function of WCETs
of VMM services. To establish this framework, we clearly identify the places and times of VMM services invoked during the
execution of an application. At the time of deployment, the WCET of an application is instantiated by composing the WCET models
altogether. We have performed experiments with the proposed framework by predicting the WCETs of sample programs on various
virtual and real machine platforms. These experimental results effectively demonstrate the viability of the proposed framework. 相似文献
150.
C. -H. Park H. -J. Shim D. -H. Choi J. -K. Kim S. -M. Lee 《International Journal of Automotive Technology》2012,13(1):61-75
Rubber isolators are mounted between a cooling module and a carrier to isolate the car body from vibration due to the rotation
of the cooling fan. The isolators should be durable against fatigue loads originating from fan rotation and road disturbance.
Thus, the design of rubber isolators is required to maximize both vibration isolation and fatigue life. In this study, the
shapes of the rubber isolators are optimally designed using a process integration and design optimization (PIDO) tool that
integrates the various computer-aided engineering (CAE) tools necessary for vibration and fatigue analyses, automates the
analysis procedure and optimizes the design solution. In this study, we use CAE models correlated to the experimental results.
A regression-based sequential approximate optimizer incorporating Process Integration, Automation and Optimization (PIAnO),
a commercial PIDO tool, is employed to handle numerically noisy responses with respect to the variation in design variables.
Using the analysis and design procedure established in this study, we successfully obtained the optimal shapes of the rubber
isolators in two different cooling modules; these shapes clearly have better vibration isolation capability and fatigue lives
than those of the baseline designs used in industry. 相似文献