A New Joint for Steel Pipe - Industrial & Engineering Chemistry (ACS

A New Joint for Steel Pipe. Ind. Eng. Chem. , 1912, 4 (8), pp 623–623. DOI: 10.1021/ie50044a053. Publication Date: August 1912. ACS Legacy Archive. ...
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Aug., 1912

THE J O URiVAL OF I N D U S T R I A L AiYD E K G I S E E R I N G C H E M I S T R Y .

THE MEASUREMENT OF STEAM CONSUMPTION. The steam consumed by a turbine or engine can be determined by measuring or weighing the “steam mater” or condensate from the surface condenser. A method of doing this (Industrial E?igiiieering, I I , 4 7 1 ) is presented in the indicating hot-well, which is attached t o the bottom of the condenser, forming a part of tbe shell. The opening in the bottom c f the condenser is constructed so t h a t t h e condensate drains into the left-hand chamber of the hot-well, and communication from this chamber to the hot-well pump suction is established in the dividing wall. The orifice, polished and finished t o insure accuracy of flow, is formed in a brass plate inserted in the partition wall. The indicating gauge is attached to the shell of the hot-well, and ball check valves are provided in each fitting, so that, should the gauge glass break, the flow of air will be prevented and the glass can be conveniently replaced. A gauge glass is also provided for the indication of the height of water in the hot-well suction compartment, in which t h e water must not be allowed to snbmerge the orifice. The scale attached to the indicating gauge reads directly in pounds of steam per hour.

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A NEW JOINT FOR STEEL PIPE. The Matheson pipe joint, which was developed for steel or wrought-iron pipe, is similar t o the well known bell and spigot joint used with cast-iron pipe. When the pipe is manufactured, one end is expanded into a bell, and around the edge of the bell a reinforcing band of steel is shrunk. The spigot end of the pipe is provided with a slight depression or groove which encircles the pipe near the spigot end. according to The E‘~7gineering awd Mining Journal ( 9 3 , 1026), in laying the pipe the spigot end is placed in the bell end of the adjacent length of pipe and molten lead is poured into the bell in exactly the same way t h a t the joint of cast-iron bell and spigot pipe is laid. The lead filling may be calked when cool, the reinforcing band adding strength t o the bell to resist any tendency to expand as a result of the calking. When the pipe is to be subjected to high pressure, a bolt-flange coupling may be used in conjunction with the lead joint. The advantages claimed are that a strong tight joint is as readily obtained with steel as n i t h cast-iron pipe and t h a t for the same strength steel or wrought-iron pipe is lighter.

NOTES AND CORRESPONDENCE

SEA-WEED, POTASH AND IODINE. A CRITICISM. I n Senate Document No. 190, 62nd Congress, 2nd Session, “Fertilizer Resources of the United States,” as ne11 as in a n address by F.K. Cameron,’ sea-need and especially t h a t of the Pacific coast is mentioned as a possible source of the potash salts used in t h e United States. Most of the Senate Document consists of a n ordinary description of t h e stationary growing algae (kelps) and their ecological character. Much space has been given to the species of fzictts growing in the litoral region. Every expert knows t h a t this species is of no value, as these plailts absorb very little valuable material. The content of inorganic valuable materials in these kelps depends first of all on t h e physical conditions of their growth. Force of current, temperature, and content of salts are important factors, but other life conditions of the algae also affect their chemical composition. It is of considerable importance whether they are growing near the surface or in deeper n ater, in comparatively quiet straits or in t h e breakers of the ocean. The species which, while growing, absorb the most valuable materials are not found in any considerable amounts in the straits or sounds2 nor in the litoral region, but are abundant out in the ocean, and about the belts of islands, girding t h e coast, and in these places from t h e limit of tidewater down t o the depth of 20-25 fathoms. The far more important “ P o r r a ” which, until lately, has been given very little consideration, deserves, technically, t h e greatest attention. A flourishing sea-weed industry on the Pacific coast can be imagined only on t h e basis of this marine plant. It grows in deeper water and in the open ocean and is consequently richer in valuable materials. It is found in great abundance, is easy to harvest along the coast during fall and winter, and can be worked a t proportionately lower cost. The Senate Document, furthermore, suggests some antiquated methods of burning sea-weed, of preparations of potassium salts, and finally of “Methods of Analyses.” I should advise the use of t h e “kelpash” and its contents of inorganic valuable materials as the standard scale for the valuation of sea-weed, and not the sea-weed itself. This ill simplify transactions between the seller and buyer of kelp or kelpash. THISJOURNAL, 4, 169 For the last 10 years, I have known the kelp from the interior part of Puget Sound t o be of very little, or no value. 1

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Far more interesting are the colored charts, copies of the U. S. Coast Survey Chart. They ought to be combined but they should indicate the special places along the coast, where the “driftkelp” is mashed ashore by the stream. As the explorations are limited to the few sumrr-er months and as this season mainly comprises all kinds of stationary growing kelp, the useful as xell as t h e useless, we are able t o find in the Senate Document little of any importance from which to form any opinion about a n eventful lucrative sea-weed industry on the Pacific Coast. The conclu,sion drawn from these preliminary explorations is t h a t in the sea-weed of the n e s t coast we have not only a source to furnish all the potash salts consumed in this country but “ i t means a possible production of potassium chloride about the same as, or even a little larger than, the total production in Germany,” and, “ taking every consideration and leaning strongly to conservatism, i t might be said t h a t i t ought to be perfectly practicable to obtain an annual yield of at least a million tons of potassium chloride, worth a t present prices, upwards of $30,000,000. The iodine obtainable a t the same time should go far toward paying the expenses of harvesting the kelp and extracting the potash.” In the opinion of t h e writer, $30,000,000 a year, made by potash and perhaps a similar amount or more by iodine extracted from sea-weed on the west coast of the United States, is surely impossible in the light of t h e following analysis: I . Is it possible that the Pacific sea-meed can produce sufficient raw material for the production of one million tons of potash salts? 2. Can the potash salts obtained from sea-weed containing a per cent. in the ash limited quantity of iodine (not more than of the plant) be furnished a t a price similar t o t h a t of German potash salt? To answer the first of these questions, I need only point t o the simplest and primitive method of producing (burning) kelpash on the shore. The proposed technical improvements in this process have as yet never been tried practically, and do not promise any such profit as suggested in t h e published statements. For the purpose of illustration, I shall use the Nereocystis Lutkeana mentioned in the Senate Document among Dr. J. W. Turrentine’s “Analyses of Pacific Kelp,” Sample No. 8. This marine plant (a laminaria) belongs t o those containing the