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Method for optimizing operation of desalting system of ion exchanger

An ion exchanger and system optimization technology, applied in the field of optimal operation of ion exchanger desalination systems, can solve the problems of difficult production activities, high operating costs, unreasonable control of regenerant consumption, etc., and achieve the effect of ensuring qualified water quality

Inactive Publication Date: 2010-02-03
重庆汉能环保工程技术有限公司
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Problems solved by technology

The water consumption of the system is related to the quality of raw water, and the quality of raw water fluctuates greatly with changes in external conditions such as seasons and temperatures, which in turn affects the effect of system water production
Since the current unitary ion exchange desalination system usually uses relatively fixed operating data for regeneration, generally adopts the method of monitoring the conductivity of the negative bed or the silicon leakage of the negative bed, and relies on the periodic water production and water production to roughly judge the operating conditions of the system. The defect is that the original operation method cannot fully adapt to the changes in operating conditions caused by changes in the salinity of raw water and system resin conditions, so that the consumption of regenerants cannot be adjusted in time, and the system failure caused by the first failure of the shade bed due to water quality changes cannot be timely adjusted. Effectively control the leakage of silicon in the produced water, which brings great difficulties to normal production activities
[0003] Disadvantages of existing ion exchange water production system operation detection methods: real-time diagnosis is not possible, regenerant consumption control is unreasonable, resource waste, high operating cost, silicon leakage in produced water, large amount of regenerated sewage, high consumption of neutralized regenerated wastewater

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  • Method for optimizing operation of desalting system of ion exchanger
  • Method for optimizing operation of desalting system of ion exchanger
  • Method for optimizing operation of desalting system of ion exchanger

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Embodiment Construction

[0046] The present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

[0047] Such as figure 1 As shown, in the ion exchanger desalination system provided by the present invention, the raw water enters the cation exchanger to replace the cations in the water and replace them with hydrogen ions. Replace the anions in the water with hydroxide ions, and finally enter the desalted water tank to obtain qualified water.

[0048] Install a silicon meter at the inlet pipe of the cation exchanger or use a portable silicate analyzer to measure the average active silicon content w of the raw water, install a hardness analyzer or use a chemical titration method to measure the raw water hardness g, install an alkalinity detector or use a chemical titration method Measure the alkalinity s of the influent water of the positive bed 1 ; Install an acidity detector on the inlet pipeline of the anion exchanger or use a c...

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Abstract

The invention relates to a method for optimizing the operation of a desalting system of an ion exchanger. The method is characterized by comprising the following steps: measuring cation bed water alkalinity s1 and anion bed water acidity s3 by an acidity-alkalinity detection device; acquiring raw water hardness g by a hardness detection device and obtaining cation bed rational produced water quantity N1 and anion bed rational produced water quantity N2; determining a basis judgment parameter d through the specific value of N1 and N2; judging whether d is smaller than 1 or not, if d is smallerthan 1, performing a detection step based on a cation bed and determining cation bed single time regeneration acid quantity M1 and anion bed single time regeneration acid quantity M2; and if d is equal to or larger than 1, performing a detection step based on the anion bed and determining the anion bed single time regeneration acid quantity M2 and the cation bed single time regeneration acid quantity M1. The invention has the advantages of real-time diagnosis, rapidity, convenience, flexible control, rational consumption, scientific operation, effective control of water leaking silicone, reliable quality of produced water and safe and reliable production.

Description

technical field [0001] The invention belongs to the field of detection methods for ion exchange water production systems, in particular to a method for optimizing the operation of an ion exchanger desalination system that can diagnose the failure end point of an anion and yang bed in real time and obtain a scientific and reasonable regenerant consumption. Background technique [0002] The ion exchange water production system is widely used in various fields of enterprises because of its stable water quality and mature technology. System water consumption is related to raw water quality, and raw water quality fluctuates greatly with changes in external conditions such as seasons and temperatures, which in turn affects the effect of system water production. Since the current unitary ion exchange desalination system usually uses relatively fixed operating data for regeneration, generally adopts the method of monitoring the conductivity of the negative bed or the silicon leakage...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F1/42G01N33/18G01N30/16
Inventor 梁枫
Owner 重庆汉能环保工程技术有限公司
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