Experimental and Simulation Research on Flow Characteristics of SCR System in a 100MW Power Station

This work try to optimize the flow field and concentration field of SCR system. Firstly, the original SCR system is simulated by Fluent and two kinds of guide plates are utilized. The simulation results show that the straight guide plate is slightly better than curve guide plate. The relatively standard deviation of velocity and concentration fields and pressure drop agree with the design rules. To verify the simulation results, a 1:10 scale cold plexiglass test plant is established and this plant is simulated correspondingly. The simulation results are in good agreement with experimental results. So the simulation results of original SCR system are credibly and can guide the practical engineering.

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Simulation Research of Effect of Salinity Wastewater Discharging Ways on Range of Salt Content Rise Nearby the Outfall

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.777.440 ◽

2013 ◽

Vol 777 ◽

pp. 440-443

Author(s):

Yao Chen ◽

Li Li ◽

Bai Lu Yang ◽

Chun Long Li

Keyword(s):

Salt Concentration ◽

Single Port ◽

Numerical Models ◽

Salt Content ◽

Three Dimensional ◽

Simulation Research ◽

Subcritical Flow ◽

Simulation Results ◽

Salinity Wastewater ◽

Better Than

In order to study the effect of salinity wastewater discharging ways on the range of salt content rise nearby the outfall. Two three-dimensional numerical models of discharging ways which were single-port submerged-type and double-port submerged-type in the condition of subcritical flow were researched based on FLUENT. The range of salt content rise of the two discharging ways could be concluded according to the simulation results. The value of maximum salt concentration and average salt concentration of two discharging ways were compared and analyzed. The results showed that double-port submerged-type discharging way was better than single-port submerged-type discharging way.

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Analysis and Optimization of Truck Windshield Defroster

Applied Sciences ◽

10.3390/app10165671 ◽

2020 ◽

Vol 10 (16) ◽

pp. 5671

Author(s):

Zhilong He ◽

Xide Qu ◽

Lantian Ji ◽

Weifeng Wu ◽

Xiaolin Wang

Keyword(s):

Main Part ◽

Three Dimensional ◽

Flow Characteristics ◽

Flow Distribution ◽

Medium Size ◽

Average Pressure ◽

Factors Affecting ◽

Guide Plate ◽

Simulation Results ◽

Major Factors

Frosting and fogging of automobile windshields is a common problem that emerges in daily driving. It is important and essential to quickly and completely defrost the windshield for safety purposes. In this study, a three-dimensional mathematical model was applied to investigate the flow distribution and flow characteristics on the windshield of a medium-size Model N800 truck. The simulation results were first compared with experimental data. The results showed that the simulation model could reliably predict the defrosting performance on the windshield. This model was then used to optimize the design of the defrosting duct that comprised the main part of the defroster. It was found that the guide plate and outlet position of the defrosting duct were the two major factors affecting the defrosting performance. Therefore, the guide plate was first optimized and the defrosting performance was analyzed. The results showed that the average pressure loss dropped by 21.56%, while the defrosting efficiency at the front white zone was improved to 89%. The position of the outlet of the airflow was further studied. The results showed that the defrosting efficiency at the front zone could be further improved to 99%.

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Design and Simulation Research on Mechanical Ventilation System for Small Underground Granary

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.875-877.2148 ◽

2014 ◽

Vol 875-877 ◽

pp. 2148-2151

Author(s):

Hai Hong Zhang ◽

Zhong Ying Wang ◽

Qiang Liu ◽

Peng Fei Ma

Keyword(s):

Numerical Simulation ◽

Mechanical Ventilation ◽

Pressure Field ◽

Ventilation System ◽

Simulation Research ◽

New Type ◽

Simulation Results ◽

Dynamic Numerical Simulation ◽

Set Up ◽

Better Than

The mechanical ventilation system of new type underground granary was designed and three wind pipe models with different length were investigated in this paper. Dynamic numerical simulation was applied for evaluating the cooling effect of mechanical ventilation of the granary. The simulation results, including temperature field, flow field and pressure field results, show that the cone shaped base of grain granary is better than flat shaped base. It is an optimal project that the main wind pipe opens with mesh only in the bottom. In addition, four vertical guide plates were set up around the main wind pipe, which have the function of saving energy and reducing consumption.

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Numerical Simulation of Different Clamping Modes on Stretch Forming Parts

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.189-193.1922 ◽

2011 ◽

Vol 189-193 ◽

pp. 1922-1925 ◽

Cited By ~ 3

Author(s):

Xue Chen ◽

Mine Zhe Li ◽

Wen Zhi Fu ◽

Zhong Yi Cai

Keyword(s):

Finite Element ◽

Thickness Distribution ◽

Finite Element Models ◽

Stretch Forming ◽

Forming Quality ◽

Finite Element Software ◽

Simulation Results ◽

Clamping Device ◽

Better Than ◽

Good Agreement

Three clamping devices of stretch forming machine were introduced, and the corresponding finite element models of the spherical parts were built by finite element software, the strain and thickness distribution of the forming parts were comparatively analyzed. The simulation results show that strain and thickness distribution of the forming parts with the multiple discrete gripper clamping mode are well-proportioned, its forming quality gets better than that with the whole flat gripper and adjustable curved gripper clamping modes. The experiment was performed and a typical spherical parts was formed with the multiple discrete gripper clamping mode. The experimental results are in good agreement with simulation results, which proves feasibility and practicability of the multiple discrete gripper clamping device of stretch forming machine.

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An Area-efficient Microstrip Diplexer with a Novel Structure and Low Group Delay for Microwave Wireless Applications

ARO-The Scientific Journal of Koya University ◽

10.14500/aro.10753 ◽

2020 ◽

Vol 8 (2) ◽

pp. 71-77

Author(s):

Salah I. Yahya ◽

Abbas Rezaei

Keyword(s):

Group Delay ◽

Design Method ◽

Wireless Applications ◽

Novel Structure ◽

Lc Circuit ◽

Simulation Results ◽

Group Delays ◽

Insertion Losses ◽

Better Than ◽

Good Agreement

In this work, a novel structure of a microstrip diplexer consisting of coupled patch cells is presented. It works at 2.5 GHz and 4.7 GHz for wireless applications. The proposed structure is well miniaturized with a compact area of 0.015 λg2, fabricated on 0.787 mm substrate height. It has two wide fractional bandwidths (FBWs) of 28% and 17.9% at the lower and upper channels, respectively. Another feature of the proposed design is the low group delays, which are better than 0.4 ns for both channels. Moreover, the designed diplexer can suppress the harmonics up to 10 GHz. Meanwhile, the insertion losses at both channels are low. The design method is based on proposing an approximated equivalent LC circuit of a novel basic resonator. The information about the resonator behavior is extracted from the even and odd modes analysis of the proposed equivalent LC circuit. Finally, our introduced diplexer is fabricated and measured to verify the simulation results, where the simulated and measured results are in good agreement.

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Simulation and Nonlinearity Optimization of a High-Pressure Sensor

Sensors ◽

10.3390/s20164419 ◽

2020 ◽

Vol 20 (16) ◽

pp. 4419

Author(s):

Ting Li ◽

Haiping Shang ◽

Weibing Wang

Keyword(s):

High Pressure ◽

Pressure Sensor ◽

Pressure Sensors ◽

Original Model ◽

Ansys Software ◽

Nonlinear Error ◽

Sensor Model ◽

Optimized Model ◽

Simulation Results ◽

Better Than

A pressure sensor in the range of 0–120 MPa with a square diaphragm was designed and fabricated, which was isolated by the oil-filled package. The nonlinearity of the device without circuit compensation is better than 0.4%, and the accuracy is 0.43%. This sensor model was simulated by ANSYS software. Based on this model, we simulated the output voltage and nonlinearity when piezoresistors locations change. The simulation results showed that as the stress of the longitudinal resistor (RL) was increased compared to the transverse resistor (RT), the nonlinear error of the pressure sensor would first decrease to about 0 and then increase. The theoretical calculation and mathematical fitting were given to this phenomenon. Based on this discovery, a method for optimizing the nonlinearity of high-pressure sensors while ensuring the maximum sensitivity was proposed. In the simulation, the output of the optimized model had a significant improvement over the original model, and the nonlinear error significantly decreased from 0.106% to 0.0000713%.

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Measuring Hydrometeors Using a Precipitation Microphysical Characteristics Sensor: Sampling Effect of Different Bin Sizes on Drop Size Distribution Parameters

Advances in Meteorology ◽

10.1155/2018/9727345 ◽

2018 ◽

Vol 2018 ◽

pp. 1-15 ◽

Cited By ~ 3

Author(s):

Xichuan Liu ◽

Taichang Gao ◽

Yuntao Hu ◽

Xiaojian Shu

Keyword(s):

Drop Size ◽

Rain Rate ◽

Monte Carlo Model ◽

Rain Gauge ◽

Sampling Schemes ◽

Distribution Parameters ◽

Optimum Sampling ◽

Simulation Results ◽

The Impact ◽

Good Agreement

In order to improve the measurement of precipitation microphysical characteristics sensor (PMCS), the sampling process of raindrops by PMCS based on a particle-by-particle Monte-Carlo model was simulated to discuss the effect of different bin sizes on DSD measurement, and the optimum sampling bin sizes for PMCS were proposed based on the simulation results. The simulation results of five sampling schemes of bin sizes in four rain-rate categories show that the raw capture DSD has a significant fluctuation variation influenced by the capture probability, whereas the appropriate sampling bin size and width can reduce the impact of variation of raindrop number on DSD shape. A field measurement of a PMCS, an OTT PARSIVEL disdrometer, and a tipping bucket rain Gauge shows that the rain-rate and rainfall accumulations have good consistencies between PMCS, OTT, and Gauge; the DSD obtained by PMCS and OTT has a good agreement; the probability of N0, μ, and Λ shows that there is a good agreement between the Gamma parameters of PMCS and OTT; the fitted μ-Λ and Z-R relationship measured by PMCS is close to that measured by OTT, which validates the performance of PMCS on rain-rate, rainfall accumulation, and DSD related parameters.

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A balanced-to-balanced directional coupler based on branch-slotline coupled structure

Frequenz ◽

10.1515/freq-2019-0199 ◽

2020 ◽

Vol 74 (11-12) ◽

pp. 427-433

Author(s):

Yaxin Liu ◽

Feng Wei ◽

Xiaowei Shi ◽

Cao Zeng

Keyword(s):

Directional Coupler ◽

Return Loss ◽

Design Method ◽

Differential Mode ◽

Arbitrary Power ◽

Measurement Results ◽

Transition Structures ◽

Coupled Structures ◽

Better Than ◽

Good Agreement

AbstractIn this paper, a balanced-to-balanced (BTB) branch-slotline directional coupler (DC) is firstly presented, which can realize an arbitrary power division ratios (PDRs). The coupler is composed by microstrip-to-slotline (MS) transition structures and branch-slotline coupled structures. The single-ended to balanced-ended conversion is simplified and easy to implemented by the MS transition structures, which intrinsically leads to the differential-mode (DM) transmission and common-mode (CM) suppression. Moreover, the different PDRs which are controlled by the widths of branch-slotlines can be achieved. In order to verify the feasibility of the proposed design method, two prototype circuits of the proposed coupler with different PDRs are fabricated and measured. The return loss and the isolation of two designs are all better than 10 dB. Moreover, the CM suppressions are greater than 35 dB. A good agreement between the simulation and measurement results is observed.

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Injection-rolling nozzle in an imprint system with continuous injection direct rolling for ultra-thin microstructure guide light plate

Advances in Mechanical Engineering ◽

10.1177/16878140211011274 ◽

2021 ◽

Vol 13 (4) ◽

pp. 168781402110112

Author(s):

Yan Lou ◽

Kewei Chen ◽

Xiangwei Zhou ◽

Yanfeng Feng

Keyword(s):

Flow Velocity ◽

Superior Performance ◽

Light Transmittance ◽

Velocity Difference ◽

Orthogonal Experiments ◽

Width Direction ◽

Direct Rolling ◽

Simulation Results ◽

Continuous Injection ◽

Better Than

A novel Injection-rolling Nozzle (IRN) in an imprint system with continuous injection direct rolling (CIDR) for ultra-thin microstructure polymer guide light plates was developed to achieve uniform flow velocity and temperature at the width direction of the cavity exit. A novel IRN cavity was designed. There are eight of feature parameters of cavity were optimized by orthogonal experiments and numerical simulation. Results show that the flow velocity at the width direction of the IRN outlet can reach uniformity, which is far better than that of traditional cavity. The smallest flow velocity difference and temperature difference was 0.6 mm/s and 0.24 K, respectively. The superior performance of the IRN was verified through a CIDR experiment. Several 0.35-mm thick, 340-mm wide, and 10-m long microstructural Polymethyl Methacrylate (PMMA) guide light plates were manufactured. The average filling rates of the microgrooves with the aspect ratio 1:3 reached above 93%. The average light transmittance is 88%.

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Simulation and Experimental Study on Wear of U-Shaped Rings of Power Connection Fittings under Strong Wind Environment

Materials ◽

10.3390/ma14040735 ◽

2021 ◽

Vol 14 (4) ◽

pp. 735

Author(s):

Songchen Wang ◽

Xianchen Yang ◽

Xinmei Li ◽

Cheng Chai ◽

Gen Wang ◽

...

Keyword(s):

Abrasive Wear ◽

Adhesive Wear ◽

Surface Hardness ◽

Wear Depth ◽

Strong Wind ◽

Wear Model ◽

Wind Environment ◽

Simulation Results ◽

Oxidation Wear ◽

Good Agreement

The objective of this study was to investigate the wear characteristics of the U-shaped rings of power connection fittings, and to construct a wear failure prediction model of U-shaped rings in strong wind environments. First, the wear evolution and failure mechanism of U-shaped rings with different wear loads were studied by using a swinging wear tester. Then, based on the Archard wear model, the U-shaped ring wear was dynamically simulated in ABAQUS, via the Umeshmotion subroutine. The results indicated that the wear load has an important effect on the wear of the U-shaped ring. As the wear load increases, the surface hardness decreases, while plastic deformation layers increase. Furthermore, the wear mechanism transforms from adhesive wear, slight abrasive wear, and slight oxidation wear, to serious adhesive wear, abrasive wear, and oxidation wear with the increase of wear load. As plastic flow progresses, the dislocation density in ferrite increases, leading to dislocation plugs and cementite fractures. The simulation results of wear depth were in good agreement with the test value of, with an error of 1.56%.

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