Scale-inhibition copper-based catalyst alloy and preparation method thereof

A technology of alloy and catalyst, which is applied in the field of copper-based catalyst alloy and its preparation, can solve the problems of reducing the scaling rate and the combination rate of anion and cation, and achieve the effect of decreasing the scaling index, increasing the solubility, and preventing the formation of scale

Active Publication Date: 2014-05-21
NANJING CHAOXUSCIENCE&TECH DEV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

If the positive charge of metal ions or the negative charge of acid radical ions can be neutralized by certain technical

Method used

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  • Scale-inhibition copper-based catalyst alloy and preparation method thereof
  • Scale-inhibition copper-based catalyst alloy and preparation method thereof
  • Scale-inhibition copper-based catalyst alloy and preparation method thereof

Examples

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Example Embodiment

[0013] Example 1:

[0014] In the copper-based catalyst alloy used for scale inhibition, the weight percentage of each component is: Cu: 40%, Ni: 5%, Zn: 10%, Sn: 5%, Ag: 0.5%, Fe: 0.1, Sb :0.01%, Mn: 0.05%, each component is chemically synthesized into a columnar crystal alloy that grows along the S100 crystal axis.

[0015] The preparation method of the copper-based catalyst alloy used for scale inhibition is as follows: prepare raw materials according to the weight percentages of the above-mentioned components, and a block with a raw material purity of 99.9% or more and a volume of 2 cm 3 , Spread 1cm thick charcoal in a clean induction furnace crucible, spread half of the Cu material evenly on the charcoal by weight, then evenly spread all the Ni blocks on the Cu material, and then spread 1cm thick charcoal, open The furnace is heated to 1000°C. After all the metals are melted, quickly add all the Fe and Sb blocks, stir until the metals are completely melted, and then quickly a...

Example Embodiment

[0016] Example 2:

[0017] In the copper-based catalyst alloy used for scale inhibition, the weight percentage of each component is: Cu: 50%, Ni: 10%, Zn: 20%, Sn: 15%, Ag: 10%, Fe: 5%, Sb: 1%, Mn: 2%, each component undergoes high temperature chemical synthesis to synthesize a columnar crystal alloy that grows along the S100 crystal axis. The preparation method of this example is the same as that described in Example 1.

Example Embodiment

[0018] Example 3:

[0019] In the copper-based catalyst alloy used for scale inhibition, the weight percentage of each component is: Cu: 55%, Ni: 18%, Zn: 30%, Sn: 18%, Ag: 12%, Fe: 6%, Sb: 1.5%, Mn: 0.8%, each component undergoes high temperature chemical synthesis to synthesize a columnar crystal alloy that grows along the S100 crystal axis. The preparation method of this example is the same as that described in Example 1.

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Abstract

The invention discloses a scale-inhibition copper-based catalyst alloy and a preparation method thereof. The catalyst alloy comprises the following components in percentage by weight: 40%-70% of Cu, 5%-20% of Ni, 10%-35% of Zn, 5%-30% of Sn, 0.5%-20% of Ag, 0.1%-8% of Fe, 0.01%-2% of Sb and 0.05%-5% of Mn, wherein the components are chemically compounded to form a columnar crystal alloy directionally growing along an S100 crystal axis. The scale-inhibition copper-based catalyst alloy is used for inhibiting the formation of water scale by virtue of an advanced weak-current composite scale-inhibition mechanism on the premise that chemical components of fluid are not changed and has very strong water scale dissolving capacity; the additional maintenance does not need to be carried out in an operation process, the magnetism, the electricity and an additional power supply are not required.

Description

technical field [0001] The invention relates to an alloy material, in particular to a copper-based catalyst alloy for scale inhibition and a preparation method thereof. Background technique [0002] The problem of fluid fouling exists widely in systems involving fluid transmission and circulation in petroleum, thermal power and other industrial and civil fields. In most cases, the fluid in the industrial pipeline system is in the state of simple substance or mixed solution, and the solubility of the solute is related to the composition of the solution, total salinity, total ion concentration, temperature, pressure, gas partial pressure, PH value, flow rate related to many factors. Once the dissolution conditions of the solution system change, the solute solubility will also change accordingly. When the solubility decreases, so that the solute content is in a supersaturated state, the solute will precipitate. Scaling occurs when precipitated solutes deposit on vessel walls...

Claims

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Application Information

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IPC IPC(8): C22C9/06C22C9/04C22C9/02C22C9/00C22C30/06C22C1/02B01J23/889
Inventor 刘东孙俊杰鲁礼民
Owner NANJING CHAOXUSCIENCE&TECH DEV
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