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    • 1. 实用新型
    • 수차 모델 테스트 장치
    • 用于测试液压涡轮的装置
    • KR200476982Y1
    • 2015-04-23
    • KR2020140000468
    • 2014-01-21
    • 한국수자원공사(주)대양수력
    • 김정현서인석신강욱이안규조용박봉일지영익박혜숙
    • F03B15/00G05B17/00G01M10/00
    • Y02E10/226F03B15/005G01M10/00G05B17/00
    • 수차모델테스트장치가개시된다. 수차모델테스트장치는물을저장할수 있고, 저장된물의수위를측정할수 있는제1 저장부; 상기제1 저장부로부터물을공급받고, 공급받는물의양을측정할수 있는유량측정부; 상기유량측정부로부터물을공급받고, 공급받는물을저장할수 있고, 공급받는물의압력과온도를측정할수 있는제2 저장부; 상기제2 저장부로부터물을공급받고, 공급받는물의압력을측정할수 있는제1 압력측정부; 상기제1 공급부로부터물을공급받고, 공급받은물에의하여수차모델이회전하는경우, 상기수차모델의회전속도를조절할수 있고상기수차모델의토크와회전속도를측정할수 있는수차모델관리부; 상기수차모델관리부로부터물을공급받고, 공급받는물의압력을측정할수 있는제2 압력측정부; 상기제2 압력측정부로부터물을공급받고, 공급받는물의압력과온도를측정할수 있는제3 저장부; 상기제3 저장부로부터물을공급받고, 공급받는물을저장할수 있으며, 저장된물의수위를측정할수 있는제4 저장부; 및상기제4 저장부에저장된물을상기제1 저장부로공급하는물 공급부를포함한다.
    • 2. 发明授权
    • 수처리공정에 이용되는 오존발생기의 최적운전 결정장치 및 방법
    • 用于决定臭氧发生器在水处理过程中的最佳操作的装置和方法
    • KR101125353B1
    • 2012-03-27
    • KR1020110111119
    • 2011-10-28
    • 한국수자원공사
    • 이안규양지아조준제
    • C02F1/78C01B13/10
    • C02F1/78C01B13/10C02F2201/4612C02F2201/78
    • PURPOSE: An apparatus for determining the optical operation of an ozone generator used for a water treating process and a method for the same are provided to save costs required for operating the ozone generator by automatically determining the operating unit number and the ozone generating concentration of the ozone generator. CONSTITUTION: A flux measuring part(200) measures the flux of raw water into an ozone contacting bath. A data collecting part(300) collects data transferred from the flux measuring part and an ozone generator controlling part(900). A server(1000) includes a data storing part(400) and an optimal operation method determining part(500). The optimal operation method determining part determines the operation unit numbers of an ozone generator and the generation concentration of ozone required minimum costs. The ozone generator controlling part controls the ozone generator.
    • 目的:提供一种用于确定用于水处理过程的臭氧发生器的光学操作的装置及其方法,以通过自动确定操作单元数和臭氧发生浓度来节省操作臭氧发生器所需的成本 臭氧发生器 构成:焊剂测量部件(200)测量原水流入臭氧接触槽的通量。 数据采集​​部件(300)收集从通量测量部件和臭氧发生器控制部件(900)传送的数据。 服务器(1000)包括数据存储部(400)和最优操作方法确定部(500)。 最佳操作方法确定部分确定臭氧发生器的操作单元号和臭氧的产生浓度所需的最小成本。 臭氧发生器控制部分控制臭氧发生器。
    • 5. 发明授权
    • 수처리공정에 이용되는 오존주입률 결정장치 및 방법
    • 在水处理过程中决定臭氧注射速率的装置和方法
    • KR101125318B1
    • 2012-03-27
    • KR1020110111115
    • 2011-10-28
    • 한국수자원공사
    • 이안규양지아이경혁
    • C02F1/78
    • C02F1/78C02F2201/78C02F2209/005
    • PURPOSE: An apparatus and a method for determining the injection rate of ozone for a water treating process are provided to stabilize a sterilizing process by maintaining the concentration of remaining ozone at the rear target position of an ozone contacting bath. CONSTITUTION: An apparatus for determining the injection rate of ozone for a water treating process includes a water quality measuring part(100), a flux measuring part(200), a data collecting part(300), a server, a data controlling part(800), an ozone injection controlling part(900), a displaying part(600), and a user inputting part(700). The user inputting part measures the temperature of raw water and the concentration of remaining ozone in an ozone contacting bath. The flux measuring part measures the flux of the ozone contacting bath. The server is composed of a data storing part(400) and an ozone injection rate determining part(500). The ozone injection rate determining part determines the ozone injection rate based on data stored in the data storing part. The displaying part displays states of the ozone injection rate determining part and data required for determining the ozone injection rate.
    • 目的:提供一种用于确定用于水处理方法的臭氧注入速率的装置和方法,以通过保持臭氧接触浴的后目标位置处的残留臭氧浓度来稳定灭菌过程。 构成:用于确定水处理工艺的臭氧注入速率的装置包括水质测量部件(100),焊剂测量部件(200),数据收集部件(300),服务器,数据控制部件 800),臭氧喷射控制部(900),显示部(600)和用户输入部(700)。 用户输入部分测量臭氧接触浴中原水的温度和剩余臭氧的浓度。 通量测量部分测量臭氧接触浴的通量。 服务器由数据存储部(400)和臭氧喷射率确定部(500)构成。 臭氧喷射率确定部分基于存储在数据存储部分中的数据来确定臭氧喷射速率。 显示部显示臭氧喷射率确定部分的状态和确定臭氧喷射速度所需的数据。
    • 6. 发明授权
    • 수처리 공정에 이용되는 응집제주입률 결정방법
    • 在水处理过程中决定注射速率的方法
    • KR101113363B1
    • 2012-03-02
    • KR1020110075247
    • 2011-07-28
    • 한국수자원공사
    • 이안규양지아김진문
    • C02F1/52
    • C02F1/5227C02F2209/006
    • PURPOSE: A method for determining a coagulant injecting rate for a water treating process is provided to implement a remote driving operation by continuously determining the coagulant injecting rate based on the quality of raw water. CONSTITUTION: A method for determining a coagulant injecting rate for a water treating process includes the following: the states of a pre-set coagulant injector, an SCD sampling pump, a raw water sampling pump, and a chemical level in a chemical tank are confirmed(S10); real time data is read(S12); whether the read data is normal is verified(S14); a moving average value is calculated based on past data of a constant time interval(S18); operating methods are selected(S20); and a coagulant injecting rate is calculated based on the type of coagulant and the selected operating method(S22).
    • 目的:提供一种用于确定水处理工艺的凝结剂注入速率的方法,以通过基于原水的质量连续确定凝结剂注入速率来实现远程驾驶操作。 结论:确定水处理工艺的凝结剂注入速率的方法包括:确定预置凝结剂注射器,SCD取样泵,原水取样泵以及化学罐中的化学物质的状态 (S10); 读取实时数据(S12); 验证读取数据是否正常(S14); 基于恒定时间间隔的过去数据计算移动平均值(S18); 选择操作方法(S20); 并且基于凝结剂的类型和所选择的操作方法计算凝结剂注入速率(S22)。
    • 7. 发明授权
    • 수처리 공정에 이용되는 후염소주입률 결정방법
    • 在水处理过程中决定注射速率的方法
    • KR101107947B1
    • 2012-01-25
    • KR1020110075248
    • 2011-07-28
    • 한국수자원공사
    • 이안규양지아이나영
    • C02F1/50C02F9/00C02F1/467C02F1/52
    • C02F1/50C02F1/4674C02F1/5209C02F9/00
    • PURPOSE: A method for determining a post-chlorine injection rate for a water treating process is provided to stabilize the sterilizing process management of a purification plant by minimizing the variation of remaining chlorine concentration in a water reservoir. CONSTITUTION: The operational states of a post-chlorine injector, filtration outflow, purified water introduction, and purified water discharge sampling pumps are confirmed. Real time data from an environment part is read(S12). If the read data is normal, the moving average of remaining chlorine data and post-chlorine injection amount data is calculated(S18). If the moving average is normal, whether operational methods are correctly selected is verified. A targeted post-chlorine injection rate is reached through several processes.
    • 目的:提供一种用于确定水处理工艺的后氯注入速率的方法,以通过最小化储水器中剩余氯浓度的变化来稳定纯化设备的灭菌过程管理。 规定:确认后氯注射器,过滤流出,净化水引入和净化水排放取样泵的运行状态。 读取来自环境部分的实时数据(S12)。 如果读数据正常,则计算残留氯数据和氯气后注入量数据的移动平均值(S18)。 如果移动平均值正常,则验证操作方法是否正确选择。 通过几个过程达到目标后氯注射速率。