Browse TRAIL Inventories

Why and how coke should be used for domestic heating

Coking of Illinois coal in Koppers type oven :an operating test at the St. Paul plant of Minnesota By-product Coke Co., conducted jointly by National Bureau of Standards and Bureau of Mines

Coal and coke mixtures as water-gas generator fuel

Value of coke, anthracite, and bituminous coal for generating steam in a low-pressure cast-iron boiler

Comparative tests of by-product coke and other fuels for house-heating boilers

Value of bituminous coal and coke for generating steam in a low-pressure cast-iron boiler

Coke as a domestic heating fuel

Cracking natural gas in water-gas generators with recovery of carbon black

Influence of washing coal on coke properties and on gas and by- product yields

The determination of volatile matter in low-temperature cokes, chars, and noncoking coals

The agglomerating index of coal

Expansion of coal during coking

Shrinkage of coke

Combustibility of coke in air

Selection of coals for coke making

Utilization of anthracite fines in the manufacture of byproduct coke

Control of bulk densities in coke ovens :studies on the coal used at three byproduct-coke plants

Blending properties of low- and medium- volatile coals as determined in the BM-AGA appaaratus

Low-temperature coke by the Krupp-Lurgi process

Coking-coal deposits on Lookout Mountain, DeKalb and Cherokee Counties, Ala.

Measurement of coking pressure in a small laboratory oven

Some observations on coking practice in Germany

Coproducts of coke in the United States, 1919-1947

Coal for coke production

Physical properties of coke :size and its measurement

Significance of laboratory tests of coal and coke for combustion

Development of new, experimental coke oven

Carbonizing procedures with new experimental coke oven

Effects of variations in bulk density on coking time

Studies of size-distribution patterns and breakage processes for metallurgical cokes

Use of anthrafines for producing metallurgical coke

Carbonizing tests with Tuscaloosa oven :use of fluid petroleum coke as a blending agent

Carbonizing tests with Tuscaloosa (Ala.) oven :dependence of coking time on flue temperature

Carbonizing tests in Tuscaloosa oven :properties of wet- and dry-quenched cokes

Correlations involving different screen indexes for a given size distribution of coke

Comparative evaluation of coking properties of four coals

Determining phosphorous in coal and coke :evaluation of volumetric, colormetric, and gravimetric methods

Carbonizing tests with Tuscaloosa oven :factors influencing apparent specific gravity

Carbonizing tests with Tuscaloosa oven :hardness of cokes from blends containing added inerts

Coking-rate study on a commercial blend of western coals

Densimetric method in studying coal and coke structure

Comparison of properties of coke produced by BM-AGA and industrial methods

Correlation of ASTM and Micum coke test methods

Evaluation of a formcoke for blast furnace use

Mechanical strength of coke and iron ore pellets at elevated temperatures

Coking properties of selected Utah coals and blends

The effect of carbonization conditions and coal properties on coke size and strength parameters

Effect of operating variables on the production of chemical coke by the traveling-grate process

Use of antifissurants in making better coke from Sunnyside coal from Utah

Prediction of coke strength and carbonization product yields from exploration data


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