This disclosure relates to a method for feeding chemicals into a process stream of a papermaking process.
Various types and amounts of chemicals are added to a papermaking process. In particular, chemicals are added into a process stream of a papermaking process. The optimal feeding of these chemicals is both a quality and a cost issue in that the optimal feeding of chemicals into a process stream results in the following: a) better runnability of the paper machine; b) the quantity of the end product is more predictable and uniform; c) less web breaks and down-time of the paper machine; d) a reduction in the quantity of the chemical that needs to feed into a papermaking machine; e) smaller consumption of fresh water; and f) less energy is needed to heat fresh water.
Optimal feeding of chemicals into a process stream occurs when there is a rapid mixing of chemicals into the process stream, presence of locally stoichiometric conditions, minimized water usage in the feeding arrangement, and optimal residence/contact times of chemicals. More specifically, having locally stoichiomerric conditions means having the optimal ratio of chemicals in the process stream for the chemicals to react, and optimal residence time of the chemicals means that the chemicals should be fed into the process stream so that all the chemicals that have been fed into the system have had enough time to take effect but not too long to maintain the desired effect.
Many prior art methods and apparatuses for feeding chemicals into a process stream of a papermaking process do not result in the optimal feeding of chemicals into the process stream of a papermaking process. Therefore, a need for an apparatus and method that can optimally feed one or more chemicals into a process stream exists in the papermaking industry.
This disclosure pertains to a method for feeding one or more chemicals into a process stream of papermaking process comprising: providing one or more apparatuses comprising a first conduit having one or more inlets and outlets; a second conduit having one or more inlets and outlets, wherein said first conduit secures to said second conduit and traverses said second conduit; a mixing chamber that has one or more inlets and outlets, wherein said second conduit secures to said mixing chamber and wherein said outlets of said first conduit and said outlets of said second conduit are in communication with said mixing chamber; mounting an adaptor over an opening in at least one of the following locations of papermaking process: thick stock line, between a refiner and the machine chest outlet, proximate to a basis weight valve, and between a machine chest and basis weight valve, wherein said adaptor is in communication with said outlets of said mixing chamber and is secured to said mixing chamber; running said papermaking process so that said process stream flows through said papermaking process; introducing said chemicals and a feeding liquid into said mixing chamber by introducing said chemicals or feeding liquid into said inlets of said first conduit and said second conduit; mixing said chemicals and said feeding liquid in said mixing chamber to form a mixture of said chemicals and said feeding liquid; and dispensing said mixture into said process stream in at least one of said locations through said adaptor that is in communication with said process stream.
In the following, the method and apparatus according to the invention are disclosed in more detail with reference to the appended figures.
“Papermaking process” means a method of making paper products from pulp comprising forming an aqueous cellulosic papermaking furnish, draining the furnish to form a sheet and drying the sheet. The steps of forming the papermaking furnish, draining, and drying may be carried out in any conventional manner generally known to those skilled in the art.
“Thick stock line” means a pipeline between a pulper or a high density storage chest and prior to a machine chest.
The apparatus of the present invention is essentially a reactor where chemical reactions can either: a) happen to activate the chemicals added to the apparatus expeditiously under controlled conditions, or b) the chemicals can be prevented from mixing with each other or other species by selecting appropriate mixing times versus chemical kinetics and shear levels. For example, the reaction rate of the chemicals that are being added to the process stream can be slowed down or even prevented by ensuring much slower chemical kinetics than the residence times inside the device.
The apparatus used in the present invention includes four primary components: a first conduit (1); a second conduit (4); a mixing chamber (7); and optionally an adaptor (8). The dimensions and geometries of each element of the apparatus depends upon how much chemical needs to be added to the papermaking process, as well other factors, such as the construction of L the thick stock line (9). The apparatus of the present invention may be made of any suitable material for handling various types of papermaking chemicals, for example, stainless steel.
The first conduit (1) has one or more inlets (2) and outlets (3). Preferably, the conduit has both a head portion (10) and a portion (11) that is conical in shape.
The second conduit (4) has one or more inlets (5) and outlets (6). The second conduit (4) secures to the first conduit's head portion (10) by any fastening means that would be appreciated by one of ordinary skill in the art, for example, the head portion (10) of the first conduit and the second conduit (4) may have one or more openings so that a screw can secure one conduit to another.
The mixing chamber (7) has one or more inlets (17) and outlets (18) that are in communication with the outlets of both the first conduit (1) and the second conduit (4). The mixing chamber (7) secures to the second conduit (4). The mixing chamber (7) may secure to the second conduit (4) by any fastening means that would be appreciated by one of ordinary skill in the art, for example, both the second conduit (4) and the mixing chamber (7) may have one or more openings so that a screw can secure the second conduit to the mixing chamber, or the outer surface of the mixing chamber (7) can fuse to the outer surface of the second conduit (4).
The adaptor (8) secures to the mixing chamber (7) and is communication with the outlets of the mixing chamber (7). The adaptor (8) may secure to the mixing chamber (7) by any fastening means that would be appreciated by one of ordinary skill in the art, for example, a portion of the mixing chamber (7) may insert into the adaptor (8).
In another embodiment, the inlets (5) of said second conduit (4) are perpendicular to said outlets of said second conduit (4).
In another embodiment, the first conduit (1) traverses said second conduit (4) perpendicular to the inlets (5) of said second conduit (4).
In another embodiment, the first conduit (1) has a head portion (10) that does not traverse said second conduit (4) and a portion that traverses said second conduit (4), wherein the portion (11) that traverses said second conduit (4) is conical in shape and wherein the point of said first conduit (1) is in communication with said mixing chamber (7).
As stated above, the present invention provides for a method of feeding one or more chemicals into a process stream. In one embodiment, the (12) adaptor (8), alone or as part of the apparatuses for feeding, is mounted over an opening (16) in the thick stock line (9) and the adaptor (8) is secured to the thick stock line (9) by any means that would be appreciated by one of ordinary skill in the art. The feeding apparatus of the present invention, if not already done so, is connected with the adaptor. After this setup is established, one or more chemicals and a feeding liquid are introduced into the apparatus (12), mixed in the mixing chamber (7), and fed into the thick stock line (9). Those of ordinary skill in the art know many vehicles for introducing the chemicals and feeding liquid into a process stream of a thick stock line.
In another embodiment, the co-feeding of different chemicals into a process stream (13) can be achieved by the following steps: introducing several different chemicals into the apparatus (12), allowing a mixture of the different chemicals to form, and dispensing the mixture into a process stream (13); or by aligning a series of apparatuses (12) and dispensing chemicals. Chemicals may be added to the system in any order prescribed by a person of ordinary skill in the art. For example, chemicals maybe added sequentially, simultaneously or in pre-programmed order.
In another embodiment, as illustrated in
In another embodiment, the activity of said chemicals is controlled by adjusting the flow rate of said chemicals and said feeding liquid, which are introduced into said apparatuses. One or more pumps that are in communication with said apparatuses may adjust the flow rate. Staged mixing can be achieved in the mixing chamber by controlling flow rates of both the chemicals and the feeding liquid into the mixing chamber.
In another embodiment, the activity of said chemicals, prior to their introduction into said process stream, is controlled by adjusting the flow rate of said chemicals and said feeding liquid, which are introduced into said mixing chamber.
In another embodiment, the chemicals are selected from the group consisting of: biocides, strength agents, brightening agents, colors, fillers, sizing agents, retention aids, drainage aids, flocculants, washing aids, defoamers, dispersing agents, nanoparticles, microparticles, fixatives, coagulants, debonders, bulking agents, softeners, lotions, emollients, anti-pitch agents, anti-stickies agents, absorbancy aids, and a combination thereof. Various chemical treatment programs employing one or more chemicals may be developed by one of ordinary skill in the art and employed by the apparatuses (12) of the claimed invention.
In another embodiment, the feeding liquid is selected from the group consisting of: fresh water; clear filtrate; whitewater; thin stock; and a combination thereof.
In another embodiment, the chemicals are diluted with a dilution liquid prior to their introduction in said first conduit (1) or said second conduit (4). In yet a further embodiment, the dilution liquid contains water.
In another embodiment, the process stream (13) contains a furnish of a papermaking process.
In another embodiment, the process stream (13) contains a thick stock of a papermaking process.
In another embodiment, the papermaking process is a tissue making process.
Referring to
This application is a continuation-in-part of U.S. Ser. No. 11/339,169, which is herein incorporated by reference.
Number | Date | Country | |
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Parent | 11339169 | Jan 2006 | US |
Child | 11779068 | Jul 2007 | US |