• Title/Summary/Keyword: Discharge Area

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A Method for Determination of 3D-Electrical Discharge Machining Parameters Using Z-map (Z-map을 이용한 3차원 방전가공조건의 결정방법)

  • 주상윤;이건범
    • Korean Journal of Computational Design and Engineering
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    • v.4 no.4
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    • pp.355-359
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    • 1999
  • This paper presents a method for determining machining parameters in electrical discharge machining process (EDM) based on discharge area. The parameters are the peak value of currents, the pulse-on time, and the pulse-off time, on which the EDM performance depends chiefly. The optimal machining parameters are closely related on discharge area, which can be calculated from a tool electrode and a discharge height. In the paper the discharge area is obtained from NC code for machining the tool electrode instead of its geometric model. The method consists of following three steps. First a Z-Map model is constructed from the NC code. Secondly, the discharge area is obtained from the Z-Map model and a Z-height. Finally, the machining parameters are calculated from the discharge area. An introduced example shows that the machining parameters are calculated by the using a Z-map model obtained from the machining data for a tool electrode.

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Characteristics of Material Removal Rate According to Discharge Area and Capacitance in MEDM (미세 방전 가공에서 방전 면적과 축전 용량에 따른 가공율 특성)

  • 박동희;류시형;김보현;주종남
    • Journal of the Korean Society for Precision Engineering
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    • v.20 no.12
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    • pp.183-190
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    • 2003
  • In this paper, investigated are the machining characteristics such as material removal rate and machining time with respect to discharge area and capacitance in micro electrical discharge machining (MEDM). As discharge area determined by the electrode size and capacitance change, the optimal feedrate to allow the minimum machining time changes. The smaller discharge area is, the lower MRR becomes because of the area effect. As the capacitance increases, MRR also increases. However there is the limit capacitance beyond which the MRR does not increase anymore. As the discharge area increases, the limit capacitance also increases.

Discharge Area Characteristics of Ozonizer with $Al_2O_3$ Dielectric ($Al_2O_3$ 세라믹 유전체 오존발생기의 방전면적 특성)

  • Park, Hyun-Mi;Song, Hyun-Jig;Lee, Sang-Gun;Lim, Chang-Ho;Yoon, Bung-Han;Kim, Jong-Hyun;Lee, Kwang-Sik
    • Proceedings of the KIEE Conference
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    • 2005.07c
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    • pp.2214-2216
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    • 2005
  • This paper is researched discharge and ozone generation characteristics of ozonizer using $Al_2O_3$ Ceramic dielectric. The discharge characteristics with variation of the discharge electrode area is studied. The characteristics of ozone concentration. ozone generation and ozone yield were measured to discharge power, discharge electrode area and supplied gas flux for oxygen and air. The solubility of ozone for water concentrations and ozone generations proportional to discharge power and discharge electrode area. Ozone yield has slowly increase with Increasing discharge power at high flow-rate. As the result, the maximum values of ozone characteristics ozone generation and ozone yield, can be obtained 5817[ppm] and 36[g/kWh]. We make enough the ozone concentration as the air in the home. An electric discharge electrode area is apt to shrink gradually into a miniaturization trend of the ozonizer but the enlargement of the occurrence flight of the electric discharge area gives the characteristic enhance the aid in the identity condition through the structure improvement.

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Determination of Parameters for 3-Dimensional Electrical Discharge Machining by a Tool Electrode Surface (공구전극곡면에 의한 3차원 방전가공조건의 결정)

  • 주상윤;이건범
    • Journal of the Korean Society for Precision Engineering
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    • v.17 no.1
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    • pp.27-33
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    • 2000
  • This paper presents a method for determining machining parameters in 3-dimentional electrical discharge machining(EDM). The parameters are the peak value of currents, the pulse-on time, and the pulse-off time. It is known that they influence the performance of EDM more than the other else. The parameters are determined from the discharge area between a tool electrode and a work piece. The discharge area is directly influenced by the geometry of a tool surface and the tool discharge position. The discharge area on a tool discharge position is calculated from intersection curves between the tool surface and a horizontal plane. The grid search method is applied to determine the intersection curves. An example is introduced to show that the machining parameters are obtained from the surface geometry of a tool electrode.

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Anlaysis of Design flood in a relation to Changing Characteristics of Area by using HEC-1 Model (HEC-1 모형의 유역특성변화에 따른 설계 홍수량의 비교 분석)

  • 김선주;김필식
    • Proceedings of the Korean Society of Agricultural Engineers Conference
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    • 1999.10c
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    • pp.537-543
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    • 1999
  • While there are to estimating design discharge , we are in trouble with how to separate area, Because discharges will be different depending on the shape of area even though there are same size of area . This study is for a reasonable presentation of design discharge method where there are changing characteristcs of area with SCS and Clark theory by sung HEC-1 Model. While we were Estimating desgin discharge with separating area in a relation to Time of Concentration(Tc) with SCS , Clark method, we found that if there are no variation of Tc the value of a discharge is not changed where shapes of area are different though. And from the result of analysis with SCS and Clark method, we ascertained that discharge by the SCS method was more bigger than that of the Clark where Area is less than 100ha. On the other hand, Clark method is more bigger in the more 1000ha.

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Determination of Electrical Discharge Machining Parameters from the CMM data of a Electrode (전극의 3차원 측정데이터로부터 방전가공조건 결정)

  • 주상윤
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.9 no.5
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    • pp.58-64
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    • 2000
  • This paper proposes a method for determining optimal EDM parameters based on discharge area from the physical model of a tool electrode. Main parameters, which affect the EDM performance, are peak value of currents, pulse-on time, and pulse-off time. Such parameters are closely dependent on the discharge area in EDM process. In this paper the discharge area is estimated from the CMM scanning data to the tool electrode. The method is very useful when any geometric information to the tool electrode is not provided from tool modeler or producer. The method consists of following four steps. First a triangulation mesh is constructed from the CMM data. Secondly, the z-map is modeled from the triangulated mesh. Thirdly, the discharge area is estimated from intersection between the z-map model and a z-height plane. Finally, the machining parameters are easily calculated by some known EDM equations to the discharge area. An example is introduced to show that the machining parameters are calculated from the CMM data to a tool electrode.

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A Study for the Selection Method of Control Area of Nonpoint Pollution Source (비점오염원 관리지역의 선정 기법에 관한 연구)

  • Park, Sanghyun;Jeong, Woohyeok;Yi, Sangjin;Lim, Bongsu
    • Journal of Korean Society on Water Environment
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    • v.26 no.5
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    • pp.761-767
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    • 2010
  • This study introduces a model of territorial analysis on Chungcheongnam-do Nonsan-chun valley area, which gives an example of a method of selecting the management area for non-point pollution source from land use to help eliminate its source. High discharge load per unit area signify high level of land ratio with high level of basic unit of development load (including factory sites, school sites, roadways), which mean that there are a significant level of urbanization. It is these areas with the examination of the water quality of the nearby river that should be considered as the management area for non-point pollution source. Thus, the management area for non-point pollution source should be sought in areas with high discharge load per unit area and high density of water pollution area. When level of drainage is high the pollution density level is relatively lower, and when the level of drainage is low the density level is relatively higher. The level of pollution from non-point pollution source is much lower with more water flowing through. The possible non-point pollution source areas that were selected with these standards were then examined with the distance from the river, the slope angle, land usage, elevation, BOD discharge density load, T-N discharge density load, T-P discharge density load, and were given a level one through five. Out of the possible areas Nonsan-si Yeonmu-eup Anshim-li was the densest area, and it was given level one. The level one area should be examined further with the field analysis to be selected as the actual management area for non-point pollution source.

Estimation of Design Flood Discharge by Areal Ratio for Ungauged Basin (면적비를 적용한 미계측유역에서의 설계홍수량 산정방안)

  • Lee, Jiho;Park, Jaebeom;Song, Yangho;Jun, Hwandon;Lee, Jungho
    • Journal of Wetlands Research
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    • v.19 no.3
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    • pp.335-344
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    • 2017
  • In this study, We proposed a method to estimate the design flood by area ratio in an ungauged basin. For that, the discharge parameters was determined by calibration of observed data at the watershed outlet and then peak flow was estimated by area ratio. In order to verify suggested method, peak flow was compared the observed discharge of the small river basin and the design flood discharge of river implementation projects. The results were summarized as follows. As a result of comparing the discharge by the area ratio and observed discharge, the difference of peak flows were analysed 14 ~ 25%. When the discharge calculated with area ratio of small river was compared with the design flood discharge of river implementation projects, the relative error was analyzed to be less than 20%. It means that suggested method in this study is appropriate.

Discharge Characteristics of the Chusan Spring, Ulleung Island (울릉도 추산용출소의 용출 특성)

  • Cho, Byong-Wook;Lee, Byeong-Dae
    • Journal of Soil and Groundwater Environment
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    • v.23 no.6
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    • pp.37-45
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    • 2018
  • The source of Chusan Spring water in the Ulleungdo is the precipitation in the Nari caldera basin, which permeates in the Trachitic pumice and tuff area and moves downward, outflowing at the lithologic boundary between the trachyte and Nari tuff. It is known that the discharge rate of the Chusan Spring is large enough to be used for the small hydroelectric power generation, but the exact discharge rate and hydrogeologic characteristics have not been known. The discharge rates of the Spring were measured 11 times, which ranged from $15,220m^3/d$ to $36,278m^3/d$. The discharge rates, measured by the automatic level recorder, for two-year period, were $20,000{\sim}38,000m^3/d$. The variation of discharge rates did not coincide with rainfall event, but showed daily increases of $3,000{\sim}5,000m^3/d$. The annual discharge rate excluding the evapotranspiration and the surrounding stream discharge corresponded to 70.6% of the annual precipitation of the recharge area. Therefore, meteorological observations at the Nari basin, rather than the Ulleung-do meteorological station, are more appropriate to properly interpret the discharge characteristics of the Chusam Spring and the recharge rate of the basin.

Characteristics of Pollution Source Structures and Temporal and Spatial Discharge from the Drainage Basin of a Reclaimed Area (간척지 담수호유역의 오염물질 배출구조 및 시공간적 유출특성)

  • 엄명철;공동수;정동일;권순국
    • Proceedings of the Korean Society of Agricultural Engineers Conference
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    • 1999.10c
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    • pp.739-746
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    • 1999
  • Discharge characteristics of organic materials and nutrients were estimated in the catchment area of relaimed area-Saemankeum-. Discharge load of BOD5 was high in the domestic system, while nitrogen and phosphorous were discharged mainly from the livestock system and the land . Load was so dependent on the precipitation that it increased in the rainy season, particulary in nitrogen and phosphorus. Loads from nonpoint sources in this area were higher compared with others.

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