Microscale capacitive deionization apparatus
First Claim
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1. A deionizing apparatus for fluids comprising:
- an inlet constructed and arranged for passage of a flowing stream of a fluid mixed with ions into a main channel, said main channel having a width defined by two side walls and a height defined by a top and a bottom wall wherein said main channel is a microchannel, said top and said bottom walls being constructed from non-magnetic material;
a first positively charged electrode positioned along a first of said two side walls;
a first impermeable barrier positioned between said first electrode and said fluid mixed with ions;
said first electrode constructed and arranged to attract negatively charged ions to a position adjacent said first impermeable barrier, said negatively charged ions flowing with said stream of fluid adjacent said first impermeable barrier;
a first blocking plate positioned substantially parallel and spaced away from said first side wall and said first impermeable barrier, said first blocking plate having a first end surface positioned at an intermediate portion of said main channel and extending to an end portion of said main channel, said area between said first blocking plate and said first side wall defining a first output channel;
a second negatively charged electrode positioned along a second of said two side walls, said first and said second electrodes being separated by a distance not greater than 700microns;
a second impermeable barrier positioned between said second electrode and said fluid mixed with ions;
said second electrode constructed and arranged to attract positively charged ions to a position adjacent said second impermeable membrane barrier, said positively charged ions flowing with said stream of fluid adjacent said second impermeable membrane barrier;
a second blocking plate positioned substantially parallel and spaced away from said second side wall and said second impermeable membrane barrier, said second blocking plate having a first end surface positioned at an intermediate portion of said main channel and extending to an end portion of said main channel, said area between said second blocking plate and said second side wall defining a second output channel;
an area between said first blocking plate and said second blocking plate defining a third output channel, said first and said second blocking plates dividing said flowing stream of fluid into three flowing streams of fluid, whereby a first of said streams of fluid flowing through said first channel includes a high concentration of negatively charged ions, whereby a second of said streams flowing through said second channel includes a high concentration of positively charged ions and wherein a third of streams of fluid flowing through said third channel is substantially devoid of ions.
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Abstract
The present device is a microchannel separator that uses a separation driving force created by an electric field. An ionic fluid flows through the microchannels and is subjected to an electric field by two spaced apart parallel electrodes possessing an electric charge. The ions in the ionic fluid are attracted towards the charged electrodes and thus are concentrated in the region of flow near the charged electrodes and depleted from the central region of flow between the charged electrodes. The charged electrodes are insulated from the ionic fluid by an impermeable barrier which prevents arcing and adherence of the ions to the charged electrodes. After a sufficient length of passage of the ionic fluid through a main channel two blocking plates separate the flow into a central and two outer output channels. The central channel draws a portion of the ionic fluid from the central region of the main channel that has fewer ions than the ionic fluid in the regions near the charged electrodes. The concentrated ionic fluid in the outer channels is discharged separately from the central channel.
30 Citations
11 Claims
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1. A deionizing apparatus for fluids comprising:
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an inlet constructed and arranged for passage of a flowing stream of a fluid mixed with ions into a main channel, said main channel having a width defined by two side walls and a height defined by a top and a bottom wall wherein said main channel is a microchannel, said top and said bottom walls being constructed from non-magnetic material; a first positively charged electrode positioned along a first of said two side walls; a first impermeable barrier positioned between said first electrode and said fluid mixed with ions; said first electrode constructed and arranged to attract negatively charged ions to a position adjacent said first impermeable barrier, said negatively charged ions flowing with said stream of fluid adjacent said first impermeable barrier; a first blocking plate positioned substantially parallel and spaced away from said first side wall and said first impermeable barrier, said first blocking plate having a first end surface positioned at an intermediate portion of said main channel and extending to an end portion of said main channel, said area between said first blocking plate and said first side wall defining a first output channel; a second negatively charged electrode positioned along a second of said two side walls, said first and said second electrodes being separated by a distance not greater than 700microns; a second impermeable barrier positioned between said second electrode and said fluid mixed with ions; said second electrode constructed and arranged to attract positively charged ions to a position adjacent said second impermeable membrane barrier, said positively charged ions flowing with said stream of fluid adjacent said second impermeable membrane barrier; a second blocking plate positioned substantially parallel and spaced away from said second side wall and said second impermeable membrane barrier, said second blocking plate having a first end surface positioned at an intermediate portion of said main channel and extending to an end portion of said main channel, said area between said second blocking plate and said second side wall defining a second output channel; an area between said first blocking plate and said second blocking plate defining a third output channel, said first and said second blocking plates dividing said flowing stream of fluid into three flowing streams of fluid, whereby a first of said streams of fluid flowing through said first channel includes a high concentration of negatively charged ions, whereby a second of said streams flowing through said second channel includes a high concentration of positively charged ions and wherein a third of streams of fluid flowing through said third channel is substantially devoid of ions. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for deionizing fluids comprising:
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providing an inlet constructed and arranged for passage of a flowing stream of a fluid mixed with ions into a main channel, said main channel having a width defined by two side walls and a height defined by a top and a bottom wall wherein said main channel is a microchannel, said first and said second electrodes being separated by a distance not greater than 700 microns; providing a first positively charged electrode positioned along a first of said two side walls;
providing a first impermeable barrier positioned between said first electrode and said fluid mixed with ions;applying power to said first electrode to attract negatively charged ions to a position adjacent said first impermeable membrane barrier, said negatively charged ions flowing with said stream of fluid adjacent said first impermeable membrane barrier; providing a first blocking plate positioned substantially parallel and spaced away from said first side wall and said first impermeable membrane barrier, said first blocking plate having a first end surface positioned at an intermediate portion of said main channel and extending to an end portion of said main channel, said area between said first blocking plate and said first side wall defining a first output channel; providing a second negatively charged electrode positioned along a second of said two side walls, said first and said second electrodes being separated by a distance not greater than 700 microns; providing a second impermeable barrier positioned between said second electrode and said fluid mixed with ions; applying power to said second electrode to attract positively charged ions to a position adjacent said second impermeable membrane barrier, said positively charged ions flowing with said stream of fluid adjacent said second impermeable membrane barrier; providing a second blocking plate positioned substantially parallel and spaced away from said second side wall and said second impermeable membrane barrier, said second blocking plate having a first end surface positioned at an intermediate portion of said main channel and extending to an end portion of said main channel, said area between said second blocking plate and said second side wall defining a second output channel; providing an area between said first blocking plate and said second blocking plate defining a third output channel, said first and said second blocking plates dividing said flowing stream of fluid into three flowing streams of fluid, whereby a first of said streams of fluid flowing through said first channel includes a high concentration of negatively charged ions, whereby a second of said streams flowing through said second channel includes a high concentration of positively charged ions and wherein a third of said streams of fluid flowing through said third channel is substantially devoid of ions. - View Dependent Claims (8, 9, 10, 11)
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Specification
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Current AssigneeVecenergy Aegir, LLC
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Original AssigneeVecenergy Aegir, LLC
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InventorsJohnson, Brendan
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Primary Examiner(s)Hendricks, Keith
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Assistant Examiner(s)Raphael, Colleen M
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Application NumberUS11/779,059Publication NumberTime in Patent Office2,044 DaysField of Search204/544, 204/672, 204/554, 204/660, 204/666, 204/164, 204/165, 205/687, 205/742, 205/701US Class Current204/554CPC Class CodesC02F 1/4691 Capacitive deionisation
