Chemistry of inorganic compounds – Phosphorus or compound thereof – Elemental phosphorus
Reexamination Certificate
1999-08-10
2002-09-17
Dunn, Tom (Department: 1754)
Chemistry of inorganic compounds
Phosphorus or compound thereof
Elemental phosphorus
C423S157200, C423S157300, C423S158000, C210S710000, C210S737000, C210S906000
Reexamination Certificate
active
06451276
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to a method of recovering elemental phosphorus from phosphorus sludge. In particular, it relates to such a method where the sludge is melted, an oxidizing agent and water are added, and the sludge is stirred to coalesce phosphorus globules into a pure phosphorus continuous phase which separates from the dirt in the sludge.
Elemental phosphorus can be made by heating phosphate rock, carbon, and sand in an electric furnace. Phosphorus vapors given off in the furnace contain solid impurities, such as slag, phosphate rock, sand, and coke, which cause the formation of sludge when the phosphorus vapors are condensed to the liquid form. Gradually, phosphorus sludge accumulates on top of this liquid phosphorus layer.
Phosphorus sludge is often stored in outdoor ponds. Periodically, it is necessary to reduce the amount of stored sludge either by recovering phosphorus or by converting the sludge into useful products. Such treatment may require the separation of phosphorus from the impurities.
In U.S. Pat. Nos. 3,436,184 and 3,515,515 there is described a process for reducing the phosphorus content of phosphorus sludge by adding chromic acid to the sludge. That process removes only a portion of the phosphorus in the sludge.
SUMMARY OF THE INVENTION
We have discovered that when an aqueous solution of an oxidizing agent is added to a heated phosphorus sludge followed by stirring, a continuous phosphorus phase forms which separates from the dirt in the sludge. Thus, unlike the prior process, in the process of this invention close to the entire amount of elemental phosphorus in the sludge can be recovered.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
The process of this invention is applicable to any phosphorus sludge that contains about 0.5 to about 90 wt % elemental phosphorus (usually present as P
4
), about 2 to about 80 wt % water, and about 2 to about 60 wt % “dirt,” which is typically a mixture of various solids such as carbon fines, slag (calcium-aluminum silicates), sand, and phosphate rock. The process of this invention is particularly applicable to phosphorus sludges that contain about 5 to about 80 wt % elemental phosphorus.
Phosphorus sludge has been described in the literature as being a phosphorus-in-water emulsion. While we do not wish to be bound by any theories, we believe that the phosphorus in a phosphorus sludge is a discontinuous phase consisting of phosphorus globules. The globules may also contain water and fine dirt. They do not coalesce because their surfaces may be partially oxidized and may carry electrical charges as well as dirt and water. In our invention, when an oxidizing agent is added followed by vigorous stirring, the oxidizer cleans the surfaces of the phosphorus globules, allowing them to coalesce. During purification the phosphorus separates from dirt and water. The process must be performed as a batch process because over-stirring causes the cleaned phosphorus to form an emulsion of fine phosphorus particles suspended in an aqueous solution. It is difficult to separate the phosphorus from this emulsion.
In the first step of the process of this invention, the phosphorus sludge is melted. As the phosphorus melts the sludge becomes more fluid. A temperature of about 55 to about 75° C. is usually satisfactory as lower temperatures may not melt the sludge and higher temperatures are unnecessary.
In the second step of the process of this invention, an oxidizing agent is added to the melted sludge. Examples of oxidizing agents that can be used include chromic acid, hydrogen peroxide, nitric acid, ozone, and oxygen. The preferred oxidizing agent is chromic acid as it has a fast, controllable reaction rate. Chromic acid is preferably added as a solution of CrO
3
in water as it is easier to handle as a solution. A 1 to 4 wt % chromic acid solution is preferred. The amount of oxidizing agent used should be about 0.5 to about 5 wt % of the amount of solution and the amount of solution used should be about 1 to about 5.8 times the amount of sludge. Less oxidizing agent may not be effective and more is unnecessary.
It is also necessary to add water to the sludge to help float the dirt away from the elemental phosphorus. The water can be added separately or it can be added with the oxidizing agent. The amount of water added should be about 75 to about 580 wt %, based on the weight of the sludge, as the removal of dirt from the sludge is facilitated by water, but too much water is unnecessary and provides no additional benefit. The preferred amount of water added is about 90 to about 150 wt %.
In the third step of the process of this invention, the melted sludge and oxidizing agent solution are stirred. This is a critical step as stirring is necessary to clean the phosphorus, remove the dirt, and form a continuous elemental phosphorus phase. That is, the sludge is stirred enough to liberate the dirt, producing clean elemental phosphorus, but not so much that a phosphorus-in-water emulsion forms. Stirring to produce that result typically requires about 15 minutes to about 30 minutes at about 150 to about 300 rpm. Once a continuous phosphorus phase forms, the stirring should be stopped as additional stirring may break the elemental phosphorus into droplets and form a phosphorus-in-water emulsion, preventing the recovery of pure elemental phosphorus.
After the stirring is finished, the reaction mass is allowed to settle for at least 30 minutes to allow the phosphorus to settle as a separate phase. The heavy dirt (e.g., pebbles, slag, etc.) settles to the bottom of the reactor. The next layer is the elemental phosphorus, which has a density of about 1.8 g/cc. On top of the elemental phosphorus is the finer dirt, suspended in water. The various components of the sludge can then be separated. The resulting elemental phosphorus is typically about 90 to about 99 wt % pure and, if it is centrifuged or filtered, its purity can rise to 99.9 wt %. Instead of settling, the entire reaction mass can be filtered or centrifuged to recover the phosphorus, but settling is preferred because it makes it easier to handle the phosphorus phase only.
REFERENCES:
patent: 3436184 (1969-04-01), Hinkebein
patent: 3442621 (1969-05-01), Hinkebein
patent: 3515515 (1970-06-01), Hinkebein
patent: 4686094 (1987-08-01), Roberts
patent: 4717558 (1988-01-01), Beck
Brooks James R.
Potts David C.
Saran Mohan S.
Brookes Anne E.
Dunn Tom
Fuerle Richard D.
Glenn Springs Holdings, Inc.
Medina Maribel
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