Langelier Index LI Method for calculating optimal injection rate of corrosion inhibitor using by Langelier Index applied system for evaluating corrosion inhibition of raw water

Langelier Index LI Method for calculating optimal injection rate of corrosion inhibitor using by Langelier Index applied system for evaluating corrosion inhibition of raw water

Provided are methods for evaluating quality of raw water and calculating an injection rate of a corrosion inhibitor, which are executed by a computer or dedicated hardware. The method for calculating an injection rate of a corrosion inhibitor comprises the steps of: (a) measuring temperature, hydrog...

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Bibliographische Detailangaben
1. Verfasser: HWANG, BYUNG GI
Format: Patent
Sprache:eng ; kor
Schlagworte:
CHEMISTRY
METALLURGY
TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
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Beschreibung
Zusammenfassung:Provided are methods for evaluating quality of raw water and calculating an injection rate of a corrosion inhibitor, which are executed by a computer or dedicated hardware. The method for calculating an injection rate of a corrosion inhibitor comprises the steps of: (a) measuring temperature, hydrogen ion concentration, calcium hardness, alkalinity and electrical conductivity of raw water; (b) evaluating corrosiveness of the raw water by calculating a corrosiveness index by using the temperature, the hydrogen ion concentration, the calcium hardness, the alkalinity and the electrical conductivity measured at step (a); (c), when the raw water is evaluated as having corrosive water quality at step (b), calculating a corrosion inhibitor injection rate based on a target calcium hardness and a target hydrogen ion concentration; (d) calculating corrosiveness indices of treated water generated by mixing a corrosion inhibitor with the raw water based on the injection rate calculated at step (c); (e) determining calcium hardness and alkalinity of the treated water having a corrosiveness index closest to the target corrosiveness index among the corrosiveness indices calculated at step (d), and recalculating the calcium hardness and the alkalinity so that the target corrosiveness index can be reached; and (f) calculating an optimum injection rate by recalculating the corrosion inhibitor injection rate corresponding to the calcium hardness and the alkalinity recalculated at step (e). 컴퓨터나 전용의 하드웨어에서 실행되는 상수 원수의 수질 평가 및 부식억제제 주입량 산정 방법에 있어서, (a) 상수 원수(raw water)의 온도, 수소이온농도, 칼슘 경도, 알칼리도 및 전기 전도도를 측정하는 단계, (b) 상기 단계(a)에서 측정된 온도, 수소이온농도, 칼슘 경도, 알칼리도 및 전기 전도도를 이용하여 상수 원수의 부식성 지수를 산정해 부식성을 평가하는 단계, (c) 상기 단계(b)에서 상기 상수 원수가 부식성 수질로 평가된 경우, 목표 칼슘 경도와 목표 수소이온농도에 따른 부식억제제 주입량을 산정하는 단계, (d) 상기 단계(c)에서 산정한 주입량에 따라 부식억제제를 상기 상수 원수에 혼합하여 생성된 처리수(treated water)의 부식성 지수를 산정하는 단계, (e) 상기 단계(d)에서 산정한 부식성 지수 중 상기 목표 부식성 지수에 근접한 범위에 해당하는 처리수의 칼슘 경도와 알칼리도를 결정하고, 상기 목표 부식성 지수에 도달하도록 칼슘 경도와 알칼리도를 재산정하는 단계 및 (f) 상기 단계(e)에서 재산정된 칼슘 경도와 알칼리도에 해당하는 부식억제제 주입량을 재산정하여 최적의 주입량을 산정하는 단계를 포함하는 상수 원수의 수질 평가 및 부식억제제 주입량 산정 방법을 제공한다.