Investigation of Unsteady Pressure Pulsation in New Type Dishwasher Pump with Special Double Tongue Volute

Through numerical simulations, this work analyzes the unsteady pressure pulsation characteristics in new type of dishwasher pump with double tongue volute and single tongue volute, under volute static and rotation conditions. Likewise, the performance tests were also carried out to verify the numerical results. Multiple monitoring points were set at the various positions of new type dishwasher pump to collect the pressure pulsation signals, and the relevant frequency signals were obtained via Fast Fourier Transform, to analyze the influence of volute tongue and its passive speed on the pump performance. The results reveal that when the double tongue volute is stationary, the pressure pulsation amplitudes increase from the impeller inlet to the impeller outlet. Under the influence of shedding vortex, the pressure pulsation in the lateral region of tongue becomes disorganized, and the main frequency of pressure pulsation changes from blade frequency to shaft frequency. In addition, compared with the static volute, double tongue volute can effectively guide the water flow out of the tongue during the rotation process, thus ensuring good periodicity for pressure pulsation in the tongue region. Accordingly, a volute reference scheme with passive rotation speed is proposed in this study, which can effectively improve the pressure pulsation at tongue position, and provides a new idea for rotor-stator interference to guide the innovation of dishwasher.

Investigation of the compact torus plasma motion in the KTX-CTI device based on circuit analyses

Compact torus (CT) injection is one of the most promising methods for the central fuelling of next-generation reactor-grade fusion devices due to its high density, high velocity, and self-contained magnetised structure. A newly compact torus injector (CTI) device in Keda Torus eXperiment (KTX), named KTX-CTI, was successfully developed and tested at the University of Science and Technology in China. In this study, first, we briefly introduce the basic principles and structure of KTX-CTI, and then, present an accurate circuit model that relies on nonlinear regression analysis (NRA) for studying the current waveform of the formation region. The current waveform, displacement, and velocity of CT plasma in the acceleration region are calculated using this NRA-based one-dimensional point model. The agreement between the model results and the experimental results is better than in the previous general model results estimated by the device dimensions in previous. The next-step upgrading reference scheme of the KTX-CTI device is preliminarily investigated using this NRA-based point model. This research can provide insights for the development of experiments and future upgrades of the device.

Computing Realistic Surrogate EEG for the Study of Functional Connectivity

Functional connectivity computed from electroencephalograms (EEG) can be used to better understand how the brain works. Unfortunately, estimating such connectivity is fraught with many pitfalls and can be confounded with artifacts due to volume conduction, common sources, reference scheme, etc. Devising a method to compute surrogate EEG that would be free of functional connectivity but that would reliably reproduce the effect of confounders such as volume conduction would be invaluable for statistical inference on functional connectivity. We developed such a method by simulating EEG from estimated sources and by reproducing the properties of local (but not long-range) functional connectivity in intracranial recordings. We present an example of how this approach can be used to improve the estimation of functional connectivity in EEG.

Transcapillary escape rate of 125I-albumin in relation to timing of blood sampling: the need for standardization

Background Increased vascular permeability is an early sign of vascular damage and can be measured with the transcapillary escape rate of albumin (TERalb). Although TERalb has a multi-exponential kinetic model, most published TERalb data are based on mono-exponential kinetic models with variation in blood sampling schemes. Aim of this posthoc study was to evaluate the influence of variation in blood sampling schemes and the impact of mono- or bi-exponential analyses on the calculation of TERalb. Study participants were part of a cross-over intervention study protocol, investigating effects of sodium loading on blood pressure, endothelial surface layer and microcirculation. Multiple blood samples were drawn between 3 and 60 min after injection of radioactive iodide labeled human serum albumin (rHSA). Results In total 27 male participants with 54 measurements were included. For all participants the maximum serum radioactivity was reached within 20 min, while 85% of the participants had their maximum serum activity within 10 min. The TERalb calculated with the subsequently chosen T20–60 min reference scheme (6.19 ± 0.49%/h) was significantly lower compared to the TERalb of the T3–60 min, T5–60 min, and Tmax – 60 min schemes. There was no significant difference between the T20–60 min reference scheme and the T10–60 min and T15–60 min schemes. Bi-exponential kinetic modeling did not result in significant different observations compared to the mono-exponential kinetic analysis. Conclusions As there is variation in the timing of the maximum serum radioactivity of rHSA, blood sampling schemes starting before 10 min after administration of rHSA will result in a significant overestimation of TERalb. In addition, variation in kinetic modeling did not result in significant changes in TERalb. Therefore, we emphasize the need to standardize TERalb and for practical and logistical reasons advocate the use of a mono-exponential model with blood sampling starting 20 min after rHSA administration.

Transcapillary escape rate of 125I-albumin in relation to timing of blood sampling: the need for standardization.

Background Increased vascular permeability is an early sign of vascular damage and can be measured with the transcapillary escape rate of albumin (TERalb). Although TERalb has a multi-exponential kinetic model, most published TERalb data are based on mono-exponential kinetic models with variation in blood sampling schemes. Aim of this posthoc study was to evaluate the influence of variation in blood sampling schemes and the impact of mono- or bi-exponential analyses on the calculation of TERalb. Study participants were part of a cross-over intervention study protocol, investigating effects of sodium loading on blood pressure, endothelial surface layer and microcirculation. Multiple blood samples were drawn between 3 and 60 minutes after injection of radioactive iodide labeled human serum albumin (rHSA). Results In total 27 male participants with 54 measurements were included. For all participants the maximum serum radioactivity was reached within 20 minutes, while 85% of the participants had their maximum serum activity within 10 min. The TERalb calculated with the subsequently chosen T20 – 60 min reference scheme (6.19 ± 0.49%/h) was significantly lower compared to the TERalb of the T3 – 60 min, T5 – 60 min, and Tmax – 60 min schemes. There was no significant difference between the T20 – 60 min reference scheme and the T10 – 60 min and T15 – 60 min schemes. Bi-exponential kinetic modeling did not result in significant different observations compared to the mono-exponential kinetic analysis.Conclusions As there is variation in the timing of the maximum serum radioactivity of rHSA, blood sampling schemes starting before 10 minutes after administration of rHSA will result in a significant overestimation of TERalb. In addition, variation in kinetic modeling did not result in significant changes in TERalb. Therefore, we emphasize the need to standardize TERalb and for practical and logistical reasons advocate the use of a mono-exponential model with blood sampling starting 20 minutes after rHSA administration.

Transcapillary Escape Rate of 125I-albumin in Relation to Timing of Blood Sampling: The Need for Standardization.

BackgroundIncreased vascular permeability is an early sign of vascular damage and can be measured with the transcapillary escape rate of albumin (TERalb). Although TERalb has a multi-exponential kinetic model, most published TERalb data are based on mono-exponential kinetic models with variation in blood sampling schemes. Aim of this study was to evaluate the influence of variation in blood sampling schemes and the impact of mono- or bi-exponential analyses on the calculation of TERalb. Study subjects were part of a cross-over intervention study protocol, investigating effects of sodium loading on blood pressure, endothelial surface layer and microcirculation. Multiple blood samples were drawn between 3 and 60 minutes after injection of radioactive iodide labeled human serum albumin (rHSA). ResultsIn total 27 male subjects were included. For all subjects the maximum serum radioactivity was reached within 20 minutes, while 86% of the subjects had their maximum serum activity within 10 min. The TERalb calculated with the subsequently chosen T20 – 60 min reference scheme (5.97 ± 0.39%/h) was significantly lower compared to the TERalb of the T3 – 60 min, T5 – 60 min, T10 – 60 min, and Tmax – 60 min schemes. There was no significant difference between the T20 – 60 min reference scheme and the T15 – 60 min scheme. Bi-exponential kinetic modeling did not result in significant different observations compared to the mono-exponential kinetic analysis.ConclusionsAs there is variation in the timing of the maximum serum radioactivity of rHSA, blood sampling schemes starting before 15-20 minutes after administration of rHSA will result in a significant overestimation of TERalb. In addition, variation in kinetic modeling did not result in significant changes in TERalb. Therefore, we emphasize the need to standardize TERalb and for practical and logistical reasons advocate the use of a mono-exponential model with blood sampling starting 20 minutes after rHSA administration.

Reference Scheme Modeling

In natural language, individual things are typically referenced by proper names or definite descriptions. Data modeling languages differ considerably in their support for such linguistic reference schemes. Understanding these differences is important both for modeling reference schemes within such languages and for transforming models from one language to another. This chapter provides a comparative review of reference scheme modeling within the Unified Modeling Language (version 2.5.1), the Barker dialect of entity relationship modeling, Object-Role Modeling (version 2), relational database modeling, the Web Ontology Language (version 2.0), and LogiQL (an extended form of datalog). The authors identify which kinds of reference schemes can be captured within these languages as well as those reference schemes that cannot be captured. The analysis covers simple reference schemes, compound reference schemes, disjunctive reference, and context-dependent reference schemes.