A means for mitigating or precluding formation of ice in water stored in large storage tanks generates large mixing bubbles toward the bottom of the tank, causing mixing of thermally stratified layers of water in the tank through turbulence created as the bubbles rise through the tank. Incipient str
A means for mitigating or precluding formation of ice in water stored in large storage tanks generates large mixing bubbles toward the bottom of the tank, causing mixing of thermally stratified layers of water in the tank through turbulence created as the bubbles rise through the tank. Incipient stratification of water along thermoclines is detected and the mixer is engaged only when temperatures of portions of stratified water in the tank approach freezing.
대표청구항▼
1. A process for mitigating ice accumulation in a supply of water in a storage tank, comprising: determining whether water has stratified in the tank;if water has stratified in the tank, determining whether the temperature of at least one stratum is below a first pre-determined temperature value;res
1. A process for mitigating ice accumulation in a supply of water in a storage tank, comprising: determining whether water has stratified in the tank;if water has stratified in the tank, determining whether the temperature of at least one stratum is below a first pre-determined temperature value;responsive to the determination that water has stratified in the tank and the temperature of at least one stratum is below the first pre-determined value, releasing at least one large mixing bubble to rise through the standpipe into the tank, whereby the rising of the at least one large mixing bubble generates currents in the water to mix and destratify the water supply. 2. A process according to claim 1, wherein the step of determining whether water has stratified in the tank comprises determining whether the temperature of the tank contents at a lower vertical level differs from the temperature of the tank contents at a higher vertical level by more than a second pre-determined temperature value. 3. A process according to claim 2, wherein the second pre-determined temperature value is equal to or greater than 5 degrees Fahrenheit. 4. A process according to claim 1, wherein the first pre-determined temperature value is less than 36 degrees Fahrenheit. 5. A system to mitigate ice formation in a supply of water in a storage tank, the system comprising a means for determining whether the water supply is thermally stratified;a means for determining whether a portion of the water supply is below a pre-determined temperature; anda means, responsive to the determination that the water supply is thermally stratified and that a portion of the water supply is below a pre-determined temperature, to release at least one large mixing bubble near the bottom of the tank,whereby the rising of the at least one large mixing bubble generates currents in the water to mix the water supply and thereby destratify it. 6. A system according to claim 5, wherein the pre-determined temperature is less than 36 degrees Fahrenheit. 7. A system according to claim 5, wherein: the means for determining whether the water supply is thermally stratified and the means for determining whether a portion of the water supply is below a per-determined temperature together comprise a plurality of temperature sensors at different vertical levels in the tank, the sensors in communication with a controller; andthe means for releasing at least one large mixing bubble comprises: a supply of pressurized gas;a forming plate affixed to the bottom of the tank;an injector having an orifice affixed to the plate, the orifice opening on the bottom of the plate;a gas supply line from the supply of pressurized gas to the injector; anda valve interposed in the gas supply line between the supply of pressurized gas and the injector, the valve, in response to a signal from the controller, operative to supply a pulse of pressurized gas from the supply of pressurized gas to the injector. 8. An apparatus to mitigate ice formation in a supply of water in a storage tank, comprising a plurality of temperature sensors at varying vertical positions in the tank;a controller receiving temperature data from the plurality of temperature sensors;a supply of pressurized gas;at least one forming plate affixed to the bottom of the tank;an injector having an orifice affixed to each forming plate, the orifice opening on the bottom of the plate;a gas supply line from the supply of pressurized gas to the injector; anda valve interposed in the gas supply line between the supply of pressurized gas and the injector, the valve, in response to a signal from the controller, operative to supply a pulse of pressurized gas from the supply of pressurized gas to the injector, whereby, when the temperature data received by the controller from the sensors indicates the temperature at a first vertical position in the tank differs from the temperature at a second vertical position in the tank by a first pre-determined value, and the temperature in at least one vertical position in the tank is less than a second pre-determined value, the controller sends a signal to open the valve to supply a pulse of pressurized gas to the injector, thereby forming a large bubble to rise through the tank, generating currents to mix and destratify the water. 9. A process for mitigating ice accumulation in a supply of water in a storage tank, comprising: determining whether water has stratified in the tank;if water has stratified in the tank, determining whether the temperature of at least one stratum is below a first pre-determined temperature value;responsive to the determination that water has stratified in the tank and the temperature of at least one stratum is below the first pre-determined value, releasing at least one large mixing bubble to rise through the standpipe into the tank, andrepeating the aforesaid steps until it is determined that the water supply is destratified.
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