US382384A - Buildings - Google Patents

Description

2 Sheets-Sheet 1.

(No Model.)

W. E. PRALL. METHOD OF SUPPLYING HEAT AND PQWER TO LARGE DISTRICTS 0P BUILDINGS.

Patented WITNESSES.-

QT g1 276 I ATTORNEY.

N. PETER$ PholwLilhugraphar. Washinglon. 0.0.

2 L L A R P E W METHOD OF SUPPLYING HEAT AND-POWER'TO LARGE DISTRICTS 01? BUILDINGS.

IIVI/EIVTOH. W 6 M ATTORNEY Patented M WILLIAM E. PRALL, or WASHINGTON, DISTRICT on COLUMBIA, ASSIGNOR To THE NATIONAL HEATING COMPANY, OF NEW YORK, N. Y.

METHOD OF SUPPLYING HEAT AND POWER TO LARGE DISTRICTS 0F BUILDINGS.

SPECIFICATION forming part of Letters Patent No. 382,384, dated May 8, 1888.

Application filed January 21, 1888. Serial No. 261,449. (No model.) PatentedinEngland July 23, 1879, No. 2,987, and in Germany January 27, 1880, No. 13,525.

To all whom it may concern.-

Be it known that L'WILLIAM E. PRALL, a citizen of the United States, anda resident of Washington,in the District of Oolumbia,have invented a certain new and useful Method of Supplying Heat and Power to Large Districts of Buildings in Cities and Towns, (for which I have obtained a patent in Great Britain, dated July 23, 1879,No. 2,987, and also in Germany, No. 13,525, dated January 27, 1880,) of which the following is a specification.

This invention relates to a novel method of supplying heat and power to large districts of buildings in cities and towns,steam and superheated water being used as heat and power conveying mediums, and to the manner of utilizing and distributing the same from one common source of supply, and embodies a safe, economical, convenient, and healthful system of delivering and controlling the heat in each and every building and compartment therein,

and of supplying motive power for stationary and other engines.

In the accompanying drawings, forming part of this specification, in which similar letters indicate like parts wherever found, Figure 1 is a view, partly in section, of a heatingstation,

containing a boiler or heater, and pumps, 8m;

also circulating-mains and a building fitted with radiators and other appliances, in communication with the circulating-mains. Fig. 2 is a plan view of the heater; circulatingpumps, and the circulating-mains'for conveybe of suflicient capacity to furnish all the heat or power required in the district reached by the circulating mains. This heater is pro vided with a constant supply of water, by means of a pumping-engine from any convenient source, in such quantities as is needed to keep up the waste from the mains or supply the place of water or steam drawn from the same for any purpose whatever. The power for driving the pumping-engine may be taken from steam generatedin the water heateigor it may be taken from any other boiler erected for that purpose.

It is evident that there may be several of the water-heaters employed for the purpose of supplying water or steam for circulation, and they may all be connected, or they may be separated by means of cocks placed in the conneeting-pipes, so that one or more may be used independent of the others.

B is a steam-circulating main in communication with a steam drum A, and extends throughout the entire district to be heated.

B is a hot-water pipe Within the steam-main B, connected with the heater Aat a point below the water-line, and extends within said main B throughout the district,and the return end is also in communication with the heater or boiler below the water-line. This pipe B is provided with a force-pump, O, by which the water is circulated through said pipe. With this construction the steam-main B may receive steam from the boiler, and convey it throughout the district, or it may receive water from the pipe B by means of automatic valves, for evaporation,the water in said pipe being heated much above the steam-generating point-for example, to 400; or this plan may be adapted to the re-evaporation of the c'ondensedwater formed in the steam-main,

vwhen such main is used to convey steam from the boiler, the heat of said pipe being amply sufficient for this purpose; and thus the temperature and pressureof the steam in the main would be maintained for a great distance, and thereby all trouble from the collection of condensed water in said main would be avoided.

In Fig. l I have shown at 0 a pipe prosuch that it will open at a certain predeter-V mined pressure of the superheated water, and close whenever the pressure of the steam in the main B is greater than that of the water in the pipe B. Any properly-constructed fiuid-pressure-regulating valve will serve the purpose, this feature of construction, except in the combination shown, forming no part of my invention. The steammain B, waterpipe B, and the connecting-pipe o, with its valve 0, are shown on an enlarged scale in Fig. 4.

My invention is not limited to the location of the water-pipe within the steam-main, as shown, as it is evident that said main andpipe may be placed simply in contact or contiguous to each other. The form shown, however, is preferred, as in that position the heat from the superheated waterpipe operates most directly to maintain the steam in the main B at high pressure and to re-evaporate the water of condensation formed therein.

With this system, as before stated, either steam may be taken from the steam-main by means of a pipe, I), as indicated in the first building shown in Fig. 1, and circulated through coils or radiators, or both, or hot water may be taken from the pipe B by means of a pipe, 12, as in the second building of said .figure and circulated as in the first instance. The water of condensation, if steam be used or the water from pipe B, after its tempera ture has been reduced by circulation through the coils or radiators, may be discharged as waste water into a waste-pipe or sewer, or it may be returned by means of pipes d and d to a return-main, D, by which it is reconveyed to the heater. This return-main also extends throughout the circuit of the supply-main and is laid in the same conduit,-as shown in Fig. 3, said conduit being provided with a channel, E, which is in communication with the streetsewer H, whereby any leakage or other water that may collect in the conduit is con veyed to the sewer. Should the condensation in main B, when steam is taken from the boiler A, form water faster than could be re-evaporated by transmitted heat fromthe hot-water pipe B, I contemplate drawing it off from the steam-main by branch pipes e, connected therewith at all the lower points, and convey it to the return-main D, each end of which is in communication with a pump, K, by which the return-water is reconveyed to the boiler,where it is reheated for the purpose of recirculation and the generation of steam. In this manner all the water of condensation, whether formed in the steam-main or radiators, and the water taken from pipe B and circulated for heating purposes, as before stated, are returned to the heater and the steam-main is left free for the passage of steam.

If water is taken from pipe B, asindicated in the second building in Fig. 1, it may be converted into steam or circulated as hot water for heat or power purposes, as -shown and describedin myapplicat-ionsSerialNos.258,464 5 and 258,465, filed December 20, 1887. This feature, however, forms no part of the invention claimed herein.

In Fig. 2 I have shown a plan for circulating hot water and steam around several blocks of buildings and means for controlling the flow in each and every section, and also a system of return-pipes'connected with the steam and hot-water pipes by the connecting-pipes from the radiators in the buildings,and connections between the steam and water supply mains and pipes and the return-pipes may be made at the junctions of the streets, if required. In this view 112' represents the pipe which supplies the steam-pump G, by which the water is circulated through the supply-pipe B, and m a pipe which supplies the pump K, by which the return-water from pipe D is forced into the heater, the circulation in the supply and return mains and pipes being as indicated by the arrows. It is evident that by means of cocks or valves at the connections Ov the circulation in any of the cross-pipes maybe cut off or controlled. It is also evident that very little water would be wasted from the pipes, as all the condensed water would be returned for reheating, and the amount so wasted may be supplied from any convenient source,as hereinbefore stated, and as shown in my applications herein'referred to. It is also evident that a force-pump may be employed" wherever required to cause a circulation in the return-pipe, and that the pump 0 may be placed at either end of the supply-pipe B.

In the practical operation of this invention the heaters should be located in a suitable building convenient to the district to be sup- "heat'ed'or heated above 212-for example, to

850 or 400-under pressure and will be kept operating with sufficient rapidity to cause a rapid and regular flow of water throughout the entire length of pipe B, and the temperature of the water in said pipe will thus be kept about the same as that in the heater.

The covering for the street-supply and return mains and pipes to prevent as much as possible the radiation of heat therefrom, the expansion-joints to allow for the expansion of the supply mains and pipes longitudinally, the metering of the hot water or steam within the buildings, and many other details-form no part of the invention claimed in this application, and are not therefore shown 'and described in full. A portion of these features of construction are such as are well known in this art, while others are shown and described in my prior applications, hereinbefore referred to.

Having thus fully described my invention, its construction, and mode of operation, what I claim, and desire to secure by Letters Patent of the United States, is-

1. The herein-described method of supplying heat and power to large districts of buildings in cities and towns, in which superheated water and steam are used as heat and power conveying mediums, which consists in superheating water and generating steam at a central station, conveying each contiguously throughout the district, and extracting a portion of either of the heat and power conveying mediums at points where the same is required.

2. The herein-described method of supplying heat and power, in which steam and superheated water are used as heat-conveying mediums, which consists in superheating water and generating steam, conveying them, one within the other, throughout the district where heat and power are required, extracting a portion of the heat and power conveying medium at the points where the sameis required, and returning the same to the heater after it has been employed for said purposes.

3. Theherein-described method of supplying heat and power, which consists in superheating water and generating steam, conveying the steam and water contiguously to the point Where heat or power is required, and extracting a portion of the steam for heat or power purposes, substantially as shown and described.

4. The herein-described method of supplying heat and power, which consists in superheating water and generating steam, conveying the steam and water separately and contiguously to the point where heat or power is required, extracting a portion of the steam for heat or power purposes, and returning the water of condensation t0 the heater.

5. The herein-described method of supplying heat and power to large districts of buildings in cities and towns, which consists in superheating water and generating steam, conveying each contiguously throughout the district, and extracting portions of the water and mingling them with the steam at points along the route, and extracting the steam where heat or power is required.

6. The method of supplying heatand power herein described to large districts of buildings in cities and towns, which consists in superheating water and conveying it throughout the district, extracting a portion of the superheated water whereby steam is formed, conveying the steam so formed contiguously to the superheated water, extracting a further 'portion of the superheated water and cornmingling it with the steam previously formed, and utilizing the steam for heat or power purposes where required.

Signed at Washington, in the District of Oolumbia,this 13th day of January, A. D. 1888.

WM. E. PRALL.

Witnesses:

F. W. MOULTON, H. W. UPPERMAN.

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