Method and apparatus for determining the concentration of ammonium ions in solution
First Claim
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1. Apparatus for determining the concentration of ammonium ions in a solution, comprising:
- a gas permeable member defining a barrier between the solution of ammonium ions and a region remote from the solution, the remote region having a gaseous environment,an ammonia gas sensing device disposed in the remote region gaseous environment,an electrochemical generator for generating hydroxyl ions in the solution, the generator including an electrode disposed in the solution adjacent to the gas permeable member to define a local hydroxyl ion forming region adjacent the gas permeable member,whereby in operation hydroxyl ions are produced in the local hydroxyl ion forming region by reduction of oxygen gas which passes from the remote region through the gas permeable member into the hydroxyl ion forming region in order to permit, by reaction between hydroxyl ions and ammonium ions the creation of ammonia, a proportion of which transfers as ammonia gas into the remote region through the gas permeable member for sensing by said ammonia gas sensing device, concentration of ammonia gas being proportionally representative of the concentration of ammonium ions in the solution.
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Abstract
An ammonia gas sensor 16 is housed within a container 14 partially immersed in a solution 2 containing ammonium ions. An electrochemical generator 6, 8, 10 generates hydroxyl ions in a region of the solution 2 adjacent the container 14. This converts ammonium ions to ammonia gas which is sensed by the sensor 16 having passed through a gas-permeable member 12. This sensing provides an indication of the concentration of ammonium ions in the solution 2.
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11 Claims
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1. Apparatus for determining the concentration of ammonium ions in a solution, comprising:
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a gas permeable member defining a barrier between the solution of ammonium ions and a region remote from the solution, the remote region having a gaseous environment, an ammonia gas sensing device disposed in the remote region gaseous environment, an electrochemical generator for generating hydroxyl ions in the solution, the generator including an electrode disposed in the solution adjacent to the gas permeable member to define a local hydroxyl ion forming region adjacent the gas permeable member, whereby in operation hydroxyl ions are produced in the local hydroxyl ion forming region by reduction of oxygen gas which passes from the remote region through the gas permeable member into the hydroxyl ion forming region in order to permit, by reaction between hydroxyl ions and ammonium ions the creation of ammonia, a proportion of which transfers as ammonia gas into the remote region through the gas permeable member for sensing by said ammonia gas sensing device, concentration of ammonia gas being proportionally representative of the concentration of ammonium ions in the solution. - View Dependent Claims (2, 3, 4, 5, 6, 7, 10)
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8. A method for determining the concentration of ammonium ions in a solution including:
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(1) providing a gas permeable member defining a barrier between the solution of ammonium ions and a gaseous environment region remote from the solution; (2) electrochemically generating hydroxyl ions in a hydroxyl ion forming region adjacent the gas permeable member, the size of the hydroxyl ion forming region being small in relation to a volume occupied by the solution; (3) allowing oxygen gas to pass from the remote region through the gas permeable membrane to the hydroxyl ion forming region, and allowing ammonia gas generated within the hydroxyl ion forming region to pass through the gas permeable member into the remote region; and (4) sensing the concentration of ammonia gas in the remote region gaseous environment, which concentration is a proportional representation of the concentration of ammonium ions in the solution. - View Dependent Claims (9)
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11. A method for determining the concentration of ammonium ions in solution comprising:
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(1) providing a solution of ammonium ions, providing a region having a gaseous environment remote from the solution, and providing a gas permeable member defining a barrier between the remote region and the solution; (2) allowing oxygen gas to pass from the remote region through the gas permeable member, and electrochemically generating hydroxyl ions within the solution adjacent to the gas permeable member in order to establish reactions within the solution adjacent to the gas permeable member which result in the formation of ammonia, (3) allowing the ammonia to pass as a gas through the gas permeable member into the remote region, and sensing the concentration of ammonia gas in the remote region gaseous environment to provide a signal representative of the concentration of ammonium ions in the solution.
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Specification