Low Temperature Carbonization

The problem of converting our raw coal, and especially those coals that are not suited for long storage, in other words soft, into a fuel which would be at once clean; of a high B. t, u. content and low ash, is one that has occupied the minds of many able chemical engineers and hydrocarbon technologists during the past few years. Low temperature carbonization is the present outcome of this line of research, and many methods have been evolved of recent years to turn out a serviceable, useful fuel, and at the same time, save the by-products. As most of the research and data within my experience and knowledge pertains to lignite or sub-bituminous coals, I will confine my remarks to coals of that character and grade: I might say that Colorado coals, commonly called lignite, are not in reality true lignite, but are sub-bituminous, although I have in my possession an analysis of a Colorado coal which shows a moisture of 17 per cent, volatile 31.5 per cent, fixed carbon 28.8 per cent, and an ash of 22.7 per cent, and B. t. u. less than 8,000. Even this, though useless for domestic or indeed industrial purposes, could not be classified as true lignite. However, for the purposes of this paper I will refer to these coals as lignite. Two thousand pounds, or one ton, of raw lignite carries about 20 per cent moisture. This, of course, varies in some coals, but is, I believe, a fair average. For carbonization purposes this is usually dried to a 5 per cent moisture, therefore leaving but 1,700 pounds of coal to be placed in the retort. From present knowledge, and with the average process of carbonization, 70 per cent of this coal will come out carbonized, or 1,190 pounds, to which is added about 10 per cent pitch, which is fried out as the coal passes through the retort, and which is used as a binder, making a total of 1,360 pounds of coke or carbonized coal. This is usually in appearance a dark colored, rather porous coke of about the size of pea coal. It burns without smoke and have a very high B. t. u. content. According to most authorities on this subject, carbon, hydrogen, oxygen, nitrogen, sulphur and ash constitute the only elements on which carbonization value of a coal depends, and of these hydrogen is the most important. It is claimed the value of a coal for carbonization purposes may be roughly surmised from the hydrogen content. If this is promising, that is, showing an available hydrogen content of from 3 to 5 per cent, the coal should be given a careful ultimate analysis. Should the seam, as often happens in lignite coals, show varying bands of coal of different structure or appearance, samples should be taken from each band as well as a gross sample taken down the face of the seam in the usual way. This is in order to determine what part of the seam is most promising for by-product processes. A seam showing a high nitrogen content adds to the attractiveness of the coal in carbonizing as; if available nitrogen is 2 per cent or better, it should give a very high ammonia yield.