1. A shipboard water treatment system comprising:
a source of seawater in a sea chest;
a ballast tank fluidly connected to the sea chest;
a shipboard cooling water system fluidly connected to the sea chest;
a first sensor disposed to measure and transmit a first measured signal representative of an oxidation reduction potential (ORP) of seawater in the sea chest;
a second sensor disposed to measure and transmit a second measured signal representative of an ORP of seawater in the ballast tank;
a biocide source that produces a biocide containing stream disposed to introduce a biocide into the seawater in the sea chest via a first flow path comprising a first line that delivers the biocide containing stream into the sea chest, to introduce the biocide into the seawater in the ballast tank via a second flow path split from the first flow path comprising a second line, and to receive seawater withdrawn from the cooling water system; and
a controller disposed to receive the first measured signal from the first sensor and to receive the second measured signal from the second sensor, and configured to generate and transmit an output signal, based at least partially on the first measured signal, the second measured signal, and a target ORP value in a range of from about 200 mV to about 1000 mV, to the biocide source to regulate a rate of introduction of the biocide into the seawater in the ballast tank, and into the seawater in the sea chest to achieve a target biofouling control value in water introduced into the shipboard cooling water system.
2. The shipboard water treatment system of claim 1, wherein the biocide source comprises an electrolyzer configured to generate a halogen-based biocide.
3. The shipboard water treatment system of claim 2, wherein the electrolyzer comprises an inlet fluidly connected to the source of seawater, and configured to generate a hypochlorite compound.
4. The shipboard water treatment system of claim 3, wherein a first outlet of the electrolyzer is fluidly connected to an outlet of the source of seawater at a point downstream thereof and upstream of the inlet of the electrolyzer.
5. The shipboard water treatment system of claim 4, wherein a second outlet of the electrolyzer is fluidly connected downstream of the inlet of the electrolyzer and upstream of an inlet of a ballast tank.
6. The shipboard water treatment system of claim 2, wherein the electrolyzer comprises an inlet fluidly connected to the source of seawater, and configured to generate a hypochlorite compound and an oxygenated species.
7. The shipboard water treatment system of claim 6, wherein the controller is configured to provide the output signal that regulates an operating current density through the electrolyzer of at least about 1,000 Amp m2.
8. The shipboard water treatment system of claim 7, wherein a target ORP value for the seawater in the ballast tank is in a range of from about 500 mV to about 750 mV.
9. The shipboard water treatment system of claim 7, further comprising a degassing tank fluidly connected downstream of the electrolyzer.
10. The shipboard water treatment system of claim 1, wherein the target ORP value is based on a regulated disinfection requirement.
11. The shipboard water treatment system of claim 1, wherein electrocatalytically generated agents utilized in disinfection of ballast water are also used to inhibit biofouling of a shipboard cooling water system.
12. The shipboard water treatment system of claim 11, wherein a lower oxidizer concentration is used for biofouling than for disinfection.
13. The shipboard water treatment system of claim 1, wherein the controller is configured to control biofouling of the shipboard cooling water system when the ship is not conducting ballasting operations.
14. The system of claim 13, wherein biofouling control of the shipboard cooling water system is performed when the ship is not conducting ballasting operations.
15. The shipboard water treatment system of claim 1, configured to:
withdraw a portion of seawater from the sea chest;
introduce the portion of seawater into the biocide source;
withdraw a balance of seawater to be introduced into the ballast tank from the sea chest;
filter the balance of the seawater to form a filtered seawater; and
introduce the filtered seawater into the ballast tank.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A display device with a plurality of gas discharge tubes sandwiched between a front support plate and a plurality of rear support plates, said display device comprising:
a plurality of display electrodes formed on a surface of said front support plate facing said plurality of gas discharge tubes to extend across tube axes of said plurality of gas discharge tubes;
a plurality of signal electrodes formed on surfaces of said plurality of rear support plates facing said plurality of gas discharge tubes to extend along the longitudinal direction of said plurality of gas discharge tubes; and
another rear support plate for supporting said plurality of rear support plates, said other rear support plate being disposed on surfaces of said plurality of rear support plates opposite to said surfaces facing said plurality of gas discharge tubes.
2. The display device according to claim 1, wherein members projecting from said plurality of rear support plates are disposed on edges of said plurality of rear support plates extending in the longitudinal direction of said plurality of gas discharge tubes.
3. The display device according to claim 1, wherein fillers are disposed in spaces formed between front-side surfaces of edges of said plurality of rear support plates extending in the longitudinal direction of said plurality of gas discharge tubes and outer peripheral surface portions of said plurality of gas discharge tubes disposed near said edges.
4. The display device according to claim 1, wherein said other rear support plate has a higher reflectivity than said front support plate.
5. The display device according to claim 1, wherein said other rear support plate has a lower dielectric constant than said front support plate.