Integrated apparatus for chemical precipitation and rapid filtration of water samples

Abstract

An integrated apparatus for chemical precipitation and rapid filtration of water samples. The invention relates to an apparatus for chemical precipitation and filtration of water samples. The integrated apparatus includes a reaction vessel, a lid of reaction vessel, a opening for reagent addition and gas leakage, an aerating tube, a support, a liquid phase remover, a solid phase collector, a control cover of the liquid phase remover, and a control cover of the solid phase collector.

Claims

1. An integrated apparatus for chemical precipitation and rapid filtration of water samples, comprising a reaction vessel, a lid of the reaction vessel, an opening for reagent addition and gas leakage, an aerating tube, a support, a liquid phase receptacle, a solid phase receptacle, a control cover of the liquid phase receptacle, a control cover of the solid phase receptacle; wherein the reaction vessel is used for containing liquid, the lid of the reaction vessel is used for sealing the reaction vessel and preventing overflow of reaction solution; the opening for reagent addition and gas leakage is provided in the lid of the reaction vessel, the opening for reagent addition and gas leakage is used for adding reagents and for communicating with external air during chemical reaction; the support is used for supporting the reaction vessel; the control cover of the liquid phase receptacle is used for opening and closing upper part of the liquid phase receptacle during solid-liquid separation to make reaction solution in communication with the liquid phase receptacle and facilitate removal of the liquid phase; the control cover of the solid phase receptacle is used for opening and closing an upper part of the solid phase receptacle to make the reaction solution in communication with the solid phase receptacle and facilitate the collection of the solid phase particles; a filter membrane having pore diameters smaller than diameters of the solid phase particles is positioned on top of the liquid phase receptacle, and the upper part of the liquid phase receptacle is connected to the reaction vessel hermetically; the liquid phase receptacle is used for fast removal of the liquid phase during the solid-liquid separation to improve a removal speed of the liquid phase; the aerating tube is used for blowing external air to ensure an uniform mixing of the solution during precipitation and for blowing external air to sweep away solid particles on a surface of the filter membrane during the solid-liquid separation; a filter membrane having pore diameters smaller than diameters of the solid phase particles is positioned on bottom of the solid phase receptacle, and the upper part of the solid phase receptacle is connected to the reaction vessel hermetically; the solid phase receptacle is used for collection of the solid phase particles during the solid-liquid separation.

2. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the reaction vessel is made of stainless steel, Fluoropolymer or plexiglass.

3. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the volume of the reaction vessel is 10100 L.

4. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the lid of the reaction vessel is made of stainless steel, Fluoropolymer or plexiglass, and the size of the lid of the reaction vessel matches the upper opening of the reaction vessel.

5. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the aerating tube is a plexiglass tube or plastic hose.

6. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the support is a stainless steel support.

7. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the material of the control cover of the liquid phase receptacle is the same as that of the reaction vessel, and opening and closing of the control cover of the liquid phase receptacle can be manual, semi-automatic, or automatic.

8. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the material of the control cover of the solid phase receptacle is the same as that of the reaction vessel, and opening and closing of the control cover of the solid phase receptacle can be manual, semi-automatic, or automatic.

9. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the liquid phase receptacle is made of stainless steel, Flouropolymer or plexiglass.

10. The integrated apparatus for chemical precipitation and rapid filtration of water samples according to claim 1, wherein the solid phase receptacle is made of stainless steel, Flouropolymer or plexiglass.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic illustration showing structure composition of an embodiment of the present invention.

(2) FIG. 2 is an installation schematic illustration of the filter membrane about the liquid phase remover of an embodiment of the present invention.

(3) FIG. 3 is an installation schematic illustration of the filter membrane about the solid phase collector of an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(4) The present invention will be further illustrated over the following examples in combination with the figures so as to provide basis for better understanding the present invention.

(5) As shown in FIGS. 1-3, the embodiment of the invention includes a reaction vessel 1, a lid of the reaction vessel 2, a opening for reagent addition and gas leakage 3, an aerating tube 4, a support 5, a liquid phase receptacle or remover 8, a solid phase receptacle or collector 9, a control cover of the liquid phase remover 6, a control cover of the solid phase collector 7.

(6) The reaction vessel 1 is used for containing liquid, the lid of reaction vessel 2 is used for sealing the reaction vessel 1 and preventing overflow of reaction solution; the opening for reagent addition and gas leakage 3 is provided in the lid of the reaction vessel 2, the opening for reagent addition and gas leakage 3 is used for adding reagents and for communicating with external air during chemical reaction; the aerating tube 4 is used for blowing external air to ensure an uniform mixing of the solution during precipitation and for blowing external air to sweep away the solid particles on the surface of the liquid phase remover during filtrating; the support 5 is used for supporting the reaction vessel 1.

(7) The control cover of the liquid phase remover 6 is used for opening and closing the upper part of the liquid phase remover during the solid-liquid separation to make the reaction solution in communication with the liquid phase remover and facilitate the removal of the liquid phase.

(8) The control cover of the solid phase collector 7 is used for opening and closing the upper part of the solid phase collector to make the reaction solution in communication with the solid phase collector and facilitate the collection of the solid phase particles.

(9) A filter membrane 81 having pore diameters smaller than diameters of solid phase particles is positioned on top of the liquid phase remover 8, and upper part of the liquid phase remover 8 is connected to the reaction vessel 1 hermetically; the liquid phase remover 8 is used for fast removal of the liquid phase during the solid-liquid separation and preventing the adhesion of solid phase on its surface to improve the removal speed of liquid phase.

(10) A filter membrane 91 having pore diameters smaller than diameters of solid phase particles is positioned on the bottom of the solid phase collector 9, and upper part of the solid phase collector 9 is connected to the reaction vessel 1 hermetically; the solid phase collector 9 is used for collection of the solid phase particles during the solid-liquid separation.

(11) The reaction vessel 1 can be made of stainless steel, Teflon or plexiglass, etc. materials, and the volume of the reaction vessel 1 can be 10100 L.

(12) The lid of reaction vessel 2 can be made of stainless steel, Teflon or plexiglass, etc. materials, and the size of the lid of the reaction vessel 2 matches with the upper opening of the reaction vessel.

(13) The position and size of the opening for reagent addition and gas leakage 3 can be determined based on actual requirement.

(14) The aerating tube 4 can be made of plexiglass tube or plastic hose, etc. materials.

(15) The support 5 can be made of stainless steel, or other anti-corrosion and high-strength materials.

(16) The material of the control cover of the liquid phase remover 6 can be the same as that of the reaction vessel, and the opening and closing way of the control cover of the liquid phase remover 6 can be manual, semi-automatic, or automatic.

(17) The material of the control cover of the solid phase collector 7 can be the same as that of the reaction vessel, and the opening and closing way of the control cover of the solid phase collector 7 can be manual, semi-automatic, or automatic.

(18) The liquid phase remover 8 can be made of stainless steel, Teflon or plexiglass, etc materials.

(19) The solid phase collector 9 can be made of stainless steel, Teflon or plexiglass, etc. materials.

(20) After the water sample is injected into the reaction vessel, start the aerating function first, then add the chemical reagent according to the related specifications, sediment forms after sufficient reaction, further connect the liquid phase remover used to remove the liquid phase of reaction solution and the solid phase collector used to collect the solid phase of reaction solution to the reaction vessel, and collect the precipitation to be processed.

(21) The invention could be used on ship for field operation, also can be use in terrestrial laboratory for experiments.

(22) The invention can design different shapes and sizes according to different requirements to fulfill different intended use.

(23) The working process of the embodiment of the invention is provided as below:

(24) After the water sample is injected into the reaction vessel, start the aerating function first, then add the chemical reagent according to the related standards/specifications, sediment forms after sufficient reaction, stop the aerating function, and install corresponding filter membranes to the liquid phase remover (FIG. 2) and the solid phase collector (FIG. 3), then connect the liquid phase remover and the solid phase collector to the reaction vessel hermetically, open the control cover of the liquid phase remover and the control cover of the solid phase collector, restart the aerating function to prevent the adhesion of solid phase on the surface of filter membrane of liquid phase remover; make sure that the main part of liquid phase flows from the liquid phase remover. With the removal of the liquid phase, the solid phase particles are transferred into the solid phase collector (the removal of residue on the inner wall of reaction vessel should be paid attention during the process); when the surface of solution in the reaction vessel is lower than the upper edge of the solid phase collector, stop the aerating function, take the solid phase collector down in proper time, and collect and dispose the precipitation on the filter membrane for a next process. The removal liquid phase is discarded according to related requirements or waits for a next process.

(25) The invention also can be used to filter the impurity particles in water samples, no reagent is added during the implement, and other steps are the same as the above process of filtration.