CHAIRMAN LITTLEJOHN: Some of the members will want to question Mr. Farnham on some of the things he has brought tip, so we will throw the meeting open for discussion. I am quite sure Mr. Farnham will be willing and glad to answer any questions that may be put to him. MR. HOLMAN: I would like to ask Mr. Farnham a question in regard to the Duckbill: How wide a face will it operate without moving the bill? MR. FARNHAM: The Duckbill is a device that was developed in the Union Pacific Mine at Rock Springs, within the last few months, and it is shaped something like, a dustpan, with discharge throat in the rear. They made one seven feet wide and found it was too wide, and the one they are using now is between three and four feet in width. The front section of the conveyor, which attaches to the duckbill, meshes into it to form a sliding section, and the front end of the Duckbill is pushed by the upper segments. I saw one used in a room twenty-four feet wide, and they drew it back after they cleaned out one room and pushed it forward again. MR. HOLMAN: You have no arrangement other than ratchet work? MR. FARNHAM: The ratchet is for forward working and back; the sections are made 12 or 13 feet long, and the stroke of the conveyor automatically works the ratchet; they can ratchet it back; it is a hand device. MR. HOLMAN: They just swing the end of the conveyor across the face to pick up the loose coal? MR. FARNHAM: Yes; they are also planning to use it endwise along the panel face, that and the room work both are quite new in their application, and I do not think the Union Pacific is giving out any results as yet, because the system has not been in use long. MR. HOLMAN: We are planning on putting one in very shortly. MR. HALL: I understand they can swing it over 30 degrees one way or the other, and it goes the same way easily because of the continual jar of the back and forward motion on a 60-degree swing. SECRETARY SHUBART: Take on a comparatively long conveyor, you can get quite a sweep, a large part of the circle. The Duckbill could command quite a large range. For a 12-foot entry, take a four-foot wide advance through the middle of the shot coal, with a 12-foot advance, ratchet back, swing the Duckbill to the rib and repeat; but I do not think they could get as much as 60 degree. on the end of the Duckbill without curving further back. The conveyor is light and not normally set on any permanent foundation. I saw one of Mr. McCarty's first machines, a rather rudimentary one, clean tip a 12-trot entry, 21 tons of coal, in 16 minutes, three men at the face and one at the loading end. MR. FARNHAM: The average time to clean the entries is about an hour-to clean up good-it wouldn't take but a short time; that is why they get this record of several cuts a shift. CHAIRMAN LITTLEJOHN: Are there any other questions you would like to ask Mr. Farnham? MR. HOLMAN: We were discussing this entry driving in regard to the entry loader; an entry loader in advance work, just what you have to do to place the jackbars with the sheave-blocks? Do you dig along the ribs after the coal is shot or do you have any other scheme that could be worked out to a good advantage? MR. FARNHAM: This record is a report I have just received from our Chicago office, without the full details, which I have written for. I am sorry I cannot give you the details. This was an Indiana or Pennsylvania mine, near Pocahontas, not the one where they had an accident. I assume they set the jacks ahead and swung and dumped the coal partly out with a scoop and partly by hand, but the application for that for entry driving is entirely new. The reports stated that they anticipated using that as a standard method of entry driving in the future. I will be glad to see that you get a copy of it when I get the report completed. MR. MONAY: Mr. Shubart, did you say they loaded 12 tons in 16 minutes? SECRETARY SHUBART: Twenty-one tons. MR. MONAY: How long did it take to change the machinery out of there
We have listened to many papers describing mechanical loaders, and systems of mining planned to increase their efficiency. We have become familiar with the various types and in a general way, their capacities and limitations. Messrs. F. E. Cash and E. H. Johnson in Bulletin 17 of the Carnegie Institute of Technology, subject Coal Mining Investigations, have a very complete review of the loading situation then. Mr. A. W. Dickinson, in a recent paper before this Institute, gave a later illustrated review of mechanical loaders. On page 28 of Cash & Johnson's paper is a list of loading machines to which might be added to bring the list down to date, the following: Under Digging and Loading Machines The Goodman Power Shovel Under Scraper Loaders The Goodman 436-G-3 125 H. P. three drum Scraper loader The Goodman 35 H. P. Entry loader and the Two Drum 125 H. P. Hoist built by Vulcan of Denver for scrapers Under Shaking Trough Conveyors The Eickhoff Conveyor The Link-Belt Conveyor The McCarty Duck-bill which is really a digging and loading element built to attach to the end of and operated by a reciprocating conveyor. The outstanding feature in this line of work in the past few years is the fact that a few very successful operations have been worked out on a large scale; the officers and staff in charge of this work have gone into details very thoroughly and altered and improved, in many cases, their mine equipment and mining methods, and by the exercise of persistent energy and intelligent effort, in the face of frequent difficulties and discouragements, they have attained results that are far ahead of the average loader operation. The coal mining industry owes much to these men for the pioneering and development of mechanical loading; their investigations in transport, shooting, shearing, snubbing, cleaning, and production costs, the results of which they have given freely and frequently to the public, are of great value. Foremost among the pioneers in this work are the Union Pacific Coal properties, the Quealy properties, the Sheridan Wyoming Coal Company and in the Central West, the Union Colliery Company of Illinois. On the other hand, in the great majority of installations, one loader, or possibly two or three loaders have been started in a given operation and through failure to make the proper effort to improve their transportation and work out the systems to utilize their loading machines, the loaders have not shown appreciable savings and in many cases, the installation has failed. It has been frequently stated in many meetings where loading has been discussed, that the idea of mechanical loading must first be sold not only to the operating staff but to the entire personnel of any company where installations are made. The problems involved in the successful application of this equipment are such that it requires enthusiastic and wholehearted teamwork on the part of everyone connected with the work and when difficulties arise, they must be ready to exercise initiative and try new ways oftentimes of overcoming impediments. The closest attention now is given to the question of economics how much will a loader reduce the cost of coal in any particular situation? Without fear of successful contradiction, I believe that experience up to date has unquestionably shown that where the shovel type of loader can be properly used, it produces in wide work, the cheapest coal of any loading device yet brought onto the market. Naturally there is a considerable difference between the results from different makes of shovels.
The eightieth regular meeting and convention was called to order by the President, John T. Atkins, at 9:15 a.m. Monday, June 25, 1984 in the Colorado Ballroom of the Marriott's Mark Resort in Vail, Colorado. President Atkins welcomed the members and their guests to the convention and noted that the annual business meeting would be held Tuesday afternoon at 2:00 p.m. in the same room. A convention update was made by the Conven¬tion Liaison Officer, Loren V. Linville. This was followed with a program report by the Program Chairman, Doug Ingram. The chair then called on Clifford Barrett, Upper Colorado Regional Director of the Bureau of Rec¬lamation of the United States Department of the Interior. He presented the Bureau's Citizen Award to RMCMI former president Ira E. McKeever for his outstanding contributions to the joint private/ Federal effort and the open planning process for AQUATRAIN. According to Barrett, "from 1981 to early 1984, McKeever led private industry work in the AQUATRAIN project, a proposal for a 1,400 mile long pipeline system. AQUATRAIN was conceived as a possible alternative to solve the government's problem of rising salinity levels in the Colorado river, as well as the private sector's need for a more economical coal transport method. The Citizen Award cites McKeever's efforts in developing a model for future cooperative ventures between government and industry that can benefit the nation." Following this presentation, the formal program of the 80th meeting and convention began with the president, John Atkins, introducing the convention kickoff speaker, Andrew Franklin, President of Nerco Mining Co., Inc., followed by the convention keynote speaker, Dr. Margaret N. Maxey of the University of Texas. These speeches are printed in this Proceedings together with those of all other convention speakers. I'm Andrew Franklin, President of Nerco Min¬ing Company, and I'm delighted to be here to kick off the annual convention of the Rocky Mountain Coal Mining Institute. This has always been a very special convention in my eyes and I'm sure this year's will be no exception. I am also here to share my thoughts on the western coal industry and how we're all affected - for good and bad - by public policy decisions. Although the title of my talk is "Western Coal: An Industry Under Siege," I believe a more accurate title might be "Western Coal: The Pit and The Pendulum," because of the wide swings in public policy and coal development in the past 15 years which have cut a zigzag path for growth over this period. As one of the nation's largest coal producers, Nerco is well aware of the problems facing western coal production. Nerco Mining Company is the western coal mining subsidiary of Nerco Inc. We have been "in coal" for more than 25 years through our parent company, Pacific Power & Light. To state my conclusion at the outset, I feel it's extremely important that consistency and common sense should guide our national policy for the development of valuable energy resources. In particu¬lar, we must reduce the wide swings in government policy and activities which have affected energy development. In short, we must decide what kind of game we're playing so that the "players" and the "referees" can keep their eyes on the "ball." Business today faces two main types of uncertainty market uncertainty and public policy uncertainty. As businessmen, we expect and are used to facing the familiar challenges and uncertainties of the market in which we operate. Over the past 10 years, the market has appeared to be bullish on coal. But the facts make our future less rosy. Last year, western coal producers faced over 50 million
The Hiawatha pitmouth is located at the head of the middle fork of Miller creek, at an altitude of approximately 8,100 feet. The coal is lowered to the tipple down a gravity tram two miles long, in 16 car trips which carry about 60 tons net. The average running time of the trip is about nine minutes. At the bottom of the tram there are two tracks for the loads and two for the empties. The trip, after being cut off the rope, is dropped by gravity onto a feeder, where the cars are uncoupled and fed one at a. time across the pitcar scales and into the dump. The dump is of the full revolution type, friction driven. On passing out of the dump the cars are returned by a kickback onto the empty car haul. They are caught at the bottom by a brake which consists of a pair of steel squeeze blocks operated by heavy springs. The empties are elevated to the double tracks, where the trips are made up. The feeder, scales, dump and empty car haul are all built on the solid ground of the hillside instead of being incorporated in one structure with the screening plant. The coal is dumped into a small hopper with a capacity of about 15 tons, whence it is fed by a reciprocating feeder onto a scraper conveyor which takes the coal over to the screening plant, a distance of 120 feet. This conveyor is 48 inches wide and travels at 120 feet per minute. The screen itself is interesting. It is of the Marcus Horizontal type.
Discussion of Mechanical Loading (d3ec5682-fcc6-4f70-8660-39bb84ee9f5a)
The United States Fuel Company's Tipple at The Hiawatha Mine, Hiawatha, Utah