TH68445B - Systems and methods for softening water for use in gas detectors. - Google Patents

Abstract

DC60 (27/04/53) This invention relates generally to the field of environmental emission control devices for boilers, heaters, furnaces or other flue gases or combustion gases, generating equipment (such as those in power plants, manufacturing plants), and in particular to new methods and sets of devices designed to soften the water fed to a calcium-free wet SOx scrubber. In another aspect, the invention relates to systems and methods for softening water for use in a calcium-free wet SOx scrubber.

Claims (4)

Disclaimer (all) which will not appear on the advertisement page. : ------ 14/11/2017 ------ (OCR) Page 1 of 4 pages Disclaimer 1. A system designed to treat and / or soften raw water for Enter Wet, calcium-free, water-based SOX silencer, this system consists of: (a) one or more sampling aids; (b) At least one set of raw water feeding devices Where at least the raw water consists of Calcium ions and magnesium ions; (c) At least one sodium carbonate feeder; (d) At least one wastewater feeder, with the waste liquid being fed. It comes from part of the waste liquid generated by the wet-type SOx gas collector. At least one set of calcium-free varieties And where the waste liquid contains sulfides Dissolved ions; (e) At least one sedimentation / crystallization tank. Where the coagulation aid feeder At least one set, at least one raw water feeder, a sodium carbonate feeder. At least one set And at least one of those waste liquid feeders. Feed its respective compound into at least one coagulant / crystallization tank, and where at least one coagulation / crystallization tank permits and facilitates the calcium reaction. Ions and / or magnesium ions contained in raw water, sodium carbonate and dissolved sulfite ions. In the waste liquid that entered it And by entering at least one sedimentation / crystallization tank has At least one solution and is designed to remove any undesirable solids from the compound feed mixes from one or more coagulation aids, at least one raw water feeder, pon sodium carbonate devices. At least one set And feeder device Waste liquid, at least one batch. To create a solution through treatment of suspended solids, sodium carbonate solution, raw water and waste liquid. And feed this mixture out At at least one exit; And (f) at least one filler / thickener tank with fluid connected to the outlet. At least one way of at least one sedimentation / crystallization tank, Faction / thickening tank. At least one of these tanks will have at least one outlet designed to feed the treated water. To the tank. Calcium-free wet type SOx gas collector. Where all dissolved sulfite ions are needed for the reaction between calcium ions And / or magnesium ions contained in raw water, sodium carbonate and dissolved sulfite ions are fed from the waste liquid produced by the water-based wet SOX silencer. genera That is without at least one set of calcium. Where all calcium and / or magnesium ions are required for the reaction Between calcium ions and / or magnesium ions present in raw water, sodium carbonate and sulfide. Dissolved ions 2. System according to claim 1, which includes: (g) At least one treated water tank with fluid connected to the outlet. At least one way of at least one recovery / thickening tank, the treated water tank. At least one of these tanks is designed to receive and hold the treated water, and at least one outlet is designed to feed the treated water to a type of water-based wet SOx silencer. Calcium-free 3. System according to claim 1, where the effluent produced by a water-based, calcium-free SOx collector, approximately 7% less by volume is fed into the device. Feed the waste liquid to treat and / or make raw water. Soft water for the calcium-free wet SOx silencer 4. System according to claim 1, where the waste liquid produced by the water-based calcium-free SOx silencer is Approximately 5% less by volume is fed into the waste liquid feeder to treat and / or soften raw water. For the water-based, calcium-free type wet SOx gas collector 5. System according to claim 1, where the effluent produced by the water-based, calcium-free type wet SOx gas collector is Approximately 3% less by volume is fed into the waste liquid feeder to treat and / or soften raw water. For the water-based, calcium-free type wet SOx absorber 6. System according to claim 1, where the waste liquid produced by the water-based wet-type SOx silencer is calcium-free in the amount of Approximately 2% less by volume is fed into the waste liquid feeder to treat and / or soften raw water. For a water-based, calcium-free SOx silencer, page 3 of the number 4, page 7. System according to claim 1, where at least the reactions occurring in the sedimentation / crystallization tank are the same. One cylinder of the part (e) is represented by the following chemical equation Ca + 2 + CO3-2 + 2Na + + SO3-2 (formula) CaSO3 (s) + 2Na + + CO3-2 8. The system was designed. To treat and / or make raw water into soft water for feeding into Calcium-free wet-type SOx gas collector, this system consists of: (a) one or more sampling aids; (b) At least one raw water feeding device. Where at least the raw water consists of Calcium ions and magnesium ions; (c) At least one sodium carbonate feeder; (d) At least one wastewater feeder, where the waste liquid is fed. From the waste liquid generated by the type of wet type SOx gas collector that is At least one pack is free of calcium. And where the waste liquid contains dissolved sulfide ions; (e) At least one sedimentation / crystallization tank with the auxiliary feeder Receiving at least one sample, at least one raw water feeder, sodium feeder. At least one pack of carbonates And at least one set of waste liquid feeders is discarded. Feed its respective compound into at least one coagulant / crystallization tank, and by at least one of the first flocculation / crystallization tanks thus allow and facilitate the reaction between calcium. Ions and / or magnesium ions contained in raw water, sodium carbonate and dissolved sulfidic ions. In the waste liquid that entered it And by at least to the sedimentation / crystallization tank That one has at least one exit. And is designed to remove any unwanted solids Out of the mixture of the compound fed from one or more sample receiving aids, at least one raw water feeder, sodium carbonate feeders. At least one set And at least one set of waste liquid feeders To form a solution Through the treatment of The suspended solids, sodium carbonate solutions, raw water and wastewater and feed the mixture at one or more exit; (f) At least one of the first cracking / thickening tanks has fluid connected to the outlet. At least one way of at least one first sedimentation / crystallization tank, recovery / thickening tank. At least one of the first tanks has at least one outlet designed to feed pre-treated water. It is then treated to a water-based, calcium-free SOx collector, page 4 of 4 pages, where the effluent produced by a water-based wet SOX gas separator. Calcium-free content of approximately 7% less by volume is fed to the feeder Wastewater to treat and / or to soften raw water for a calcium-free wet-type SOX gas collector 9. System according to claim 8, which includes: (g) tank At least one treated water tank with fluid connected to the outlet. At least one way of at least one recovery / thickening tank, treated water tank. At least one of these tanks is designed to receive and hold the treated water, and at least one outlet is designed to feed the treated water to the water-based wet SOx trap. Calcium-free 1 0. System according to claim 8, where the effluent produced by a calcium-free wet type SOx gasifier at approximately 5% by volume is fed at To the waste liquid feeding device to treat and / or soften the raw water For the Calcium-free type wet SOx gas collector 1 1. System according to claim 8, where the waste liquid produced by the water-based calcium-free SOx collector in Approximately 3% by volume less is fed into the waste liquid feeder to treat and / or soften raw water. For the water-based, calcium-free type wet SOx gas collector 1 2. System according to claim 8, where the waste liquid produced by the customer is produced by the water-based calcium-free SOx collector in Approximately 2% less by volume is fed to the waste liquid feeder to treat and / or soften the raw water. For a water-based, calcium-free SOx-type, wet-type SOx collector 1 3. System according to claim 8, where at least the reactions occurring in the sedimentation / crystallization tank are considered. One bucket of ascendancy (e) is represented by the following chemical equation Ca + 2 + C03-2 + 2Na + + SO3-2 (formula) CaSO3 (s) + 2Na + + CO3-2 -------. ----- 1. A system designed to treat and / or soften raw water for feeding into Calcium-free wet-type SOx gas collector, this system consists of: (a) one or more sample capture aids; (b) At least one set of raw water feeding devices; (c) At least one sodium carbonate device; (d) At least one wastewater feeder, with the waste liquid being fed. It comes from part of the waste liquid generated by the wet-type SOx gas collector. At least one set of calcium-free varieties; (e) At least one sedimentation / crystallization tank. Where the coagulation aid feeder At least one set, at least one raw water feed device, sodium carbonate apparatus. At least one set And at least one of those waste liquid feeders. Feed its respective compound into at least one of the sedimentation / crystallization tanks and where at least one of the sedimentation / crystallization tanks has at least one exit; And (f) at least one reservoir / thickening tank with fluid connected to the outlet. At least one way of at least one sedimentation / crystallization tank, recovery / thickening tank. At least one of these tanks has at least one outlet designed to feed the treated water. To a wet, calcium-free SOx scoop, 2. System according to claim 1, which includes: (g) At least one treated water tank with a welded fluid. Connected to the exit At least one way of at least one recovery / thickening tank, treated water tank. At least one tank is designed to receive and hold the treated water, and at least one outlet is designed to feed the treated water to a type of wet-type SOx gas detector. 3. Calcium-free system, in which the waste liquid produced by the calcium-free wet-type SOx gas separator is used at approximately 7% by volume less than the / Or softening raw water for a wet-type calcium-free SOx gas collector 4. System according to claim 1, where the waste liquid is produced by a wet-type SOx gas collector. Calcium-free water is used in approximately 5% by volume less to treat and / or soften raw water for wet-type, calcium-free SOx gas detectors. 1 Where the effluent produced by a calcium-free wet-type SOx concentrator is used in approximately 3% by volume less to treat and / or soften the raw water for the apparatus. Trap Calcium-free wet SOx gas 6. System according to claim 1 where the effluent produced by the calcium-free wet-type SOx gas separator is used in small quantities. Approximately 2% by volume to treat and / or soften raw water for a wet-type, calcium-free SOx gas collector. 7. System designed to treat and / or soften raw water. For entering into The wet type SOx gas collector uses calcium-free water, this system consists of: (a) one or more coagulation aids; (b) At least one set of raw water feeding devices; (c) At least one sodium carbonate feeder; (d) at least one lime slurry feeder; (e) At least one first flocculation / crystallization tank, with the auxiliary feeder At least one sampling, one or more crude feeder, sodium feeder At least one pack of carbonates And at least one set of lime slurry feeders, all Feed its respective compounds into at least one of the first sedimentation / crystallization tanks, and where at least one of the first sedimentation / crystallization tanks has at least one exit; (f) At least one of the first suspensions / thickening tanks has fluid connected to the outlet. At least one way of at least one of the first sedimentation / crystallization tanks, recovery / thickening tanks. At least one of the first tanks has at least one exit; (g) At least one second sedimentation / crystallization tank with fluid connected to the outlet. At least one way of at least one of that first hardening / thickening tank. Where at least one second sedimentation / crystallization tank has at least one outlet: (h) at least one effluent feeder. Where the waste liquid feeding device At least one unit has a fluid connected to at least one of the second sedimentation / crystallization tanks, where the waste liquid is fed from part of the waste liquid generated by the SOx trap. The wet type uses at least one calcium-free type of water, and with the feeder At least one batch of waste liquid is fed to the second sedimentation / crystallization tank. At least one tank to precipitate that excess calcium: and (i) at least one secondary / thickening tank with fluid connected to the outlet. At least one way of at least one second sedimentation / crystallization tank, recovery / thickening tank. At least one second tank has at least one outlet designed to feed through the water. Treated to a calcium-free wet SOx collector 8. System according to claim 7, which includes: (j) At least one treated water tank that is With infectious fluid with the outlet At least one way of at least one secondary / thickening tank, at least one second, treated water tank. At least one of these tanks is designed to receive and hold the treated water, and at least one outlet is designed to feed the treated water to a wet type water-based SOx silencer. 9. System according to claim 7, where the effluent produced by the calcium-free wet SOx gas separator is used in approximately 7% less volume by Used to treat and / or soften raw water for a calcium-free wet SOx gas collector 1 0. System according to claim 7 where the effluent produced by the trap Calcium-free wet SOx gas is used in amounts less than approximately 5% by volume to treat and / or soften the raw water for a calcium-free wet type SOx gas collector 1. 1.System according to claim 7, where the effluent produced by a calcium-free wet-type SOx gas separator is used approximately 3% by volume less for treatment and / or Soften raw water for wet-type calcium-free SOx gas collector 1 2. System according to claim 7, where wastewater produced by a calcium-free wet-type SOx gas separator is used at approximately 2% by volume less than for treatment and / or Soften raw water for wet-type calcium-free SOx gas collector 1 3.Systems for treating and / or softening raw water for a wet-type calcium-free SOx gas collector, as shown and described here.1 4. Methods for treating and / or softening of raw water for a wet-type calcium-free SOx gas collector, such as those shown and described here.