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Planing mills; Chair factories; Furniture factories; Sash and door factories; etc.
The "Tower" Dry Kiln
The so-called "Tower" dry kiln (see Fig. 38) is designed for the rapid drying of small stuff in quantities. Although the general form of construction and the capacity of the individual bins or drying rooms may vary, the same essential method of operation is common to all. That is, the material itself, such as wooden novelties, loose staves, and heading for tubs, kits, and pails, for box stuff, kindling wood, etc., is dumped directly into the drying rooms from above, or through the roof, in such quantities as effectually to fill the bin, from which it is finally removed when dry, through the doors at the bottom.
These dry kilns are usually operated as "Blower" kilns, the heating apparatus is generally located in a separate room or building adjacent to the main structure or drying rooms, and arranged so that the hot air discharged through the inlet duct (see illustration) is thoroughly distributed beneath a lattice floor upon which rests the material to be dried. Through this floor the air passes directly upward, between and around the stock, and finally returns to the fan or heating room.
This return air duct is so arranged that by means of dampers, leading from each drying room, the air may be returned in any quantity to the fan room where it is mixed with fresh air and again used. This is one of the main features of economy of the blower system of drying, as by the employment of this return air system, considerable saving may be made in the amount of steam required for drying.
The lattice floors in this type of dry kiln are built on an incline, which arrangement materially lessens the cost, and increases the convenience with which the dried stock may be removed from the bins or drying rooms.
In operation, the material is conveyed in cars or trucks on an overhead trestle—which is inclosed—from which the material to be dried is dumped directly into the drying rooms or bins, through hoppers arranged for that purpose thereby creating considerable saving in the handling of the material to be dried into the kiln. The entire arrangement thus secures the maximum capacity, with a minimum amount of floor space, with the least expense. Of course, the higher these kilns are built, the less relative cost for a given result in the amount of material dried.
In some instances, these kilns are built less in height and up against an embankment so that teamloads of material may be run directly onto the roof of the kilns, and dumped through the hoppers into the drying rooms or bins, thus again reducing to a minimum the cost of this handling.
The return air duct plays an important part in both of these methods of filling, permitting the air to become saturated to the maximum desired, and utilizing much of the heat contained therein, which would otherwise escape to the atmosphere.
The "Tower" kiln is especially adapted to factories of the following class:
Sawmills; Novelty factories; Woodenware factories; Tub and pail factories; etc.
The "Box" Dry Kiln
The "Box" kiln shown in Figure 39 is an exterior view of a kiln of this type which is 20 feet wide, 19 feet deep, and 14 feet high, which is the size generally used when the space will permit.
Box kilns are used mostly where only a small quantity of material is to be dried. They are not equipped with trucks or cars, the material to be dried being piled upon a raised platform inside the drying room. This arrangement, therefore, makes them of less cost than the other types of dry kilns.
They are particularly adapted to any and all species and size of lumber to be dried in very small quantities.
In these small kilns the circulation is under perfect control, so that the efficiency is equal to that of the more extensive plants.
These special kilns will readily appeal to manufacturers, whose output calls for the prompt and constant seasoning of a large variety of small stock, rather than a large volume material of uniform size and grade.
SECTION XIII
DRY KILN SPECIALTIES
KILN CARS AND METHOD OF LOADING
Within recent years, the edge-wise piling of lumber (see Figs. 40 and 41), upon kiln cars has met with considerable favor on account of its many advantages over the older method of flat piling. It has been proven that lumber stacked edge-wise dries more uniformly and rapidly, and with practically no warping or twisting of the material, and that it is finally discharged from the dry kiln in a much better and brighter condition. This method of piling also considerably increases the holding and consequent drying capacities of the dry kiln by reason of the increased carrying capacities of the kiln cars, and the shorter period of time required for drying the material.
In Figures 42 and 43 are shown different views of the automatic lumber stacker for edge-wise piling of lumber on kiln cars. Many users of automatic stackers report that the grade of their lumber is raised to such an extent that the system would be profitable for this reason alone, not taking into consideration the added saving in time and labor, which to anyone's mind should be the most important item.
In operation, the lumber is carried to these automatic stackers on transfer chains or chain conveyors, and passes on to the stacker table. When the table is covered with boards, the "lumber" lever is pulled by the operator, which raises a stop, preventing any more lumber leaving the chain conveyor. The "table" lever then operates the friction drive and raises the table filled with the boards to a vertical position. As the table goes up, it raises the latches, which fall into place behind the piling strips that had been previously laid on the table. When the table returns to the lower position, a new set of piling strips are put in place on the table, and the stream of boards which has been accumulating on the conveyor chain are again permitted to flow onto the table. As each layer of lumber is added, the kiln car is forced out against a strong tension. When the car is loaded, binders are put on over the stakes by means of a powerful lever arrangement.
After leaving the dry kilns, the loaded car is transferred to the unstacker (see Fig. 47). Here it is placed on the unstacker car which, by means of a tension device, holds the load of lumber tight against the vertical frame of the unstacker. The frame of the unstacker is triangular and has a series of chains. Each chain has two special links with projecting lugs. The chains all travel in unison. The lug links engage a layer of boards, sliding the entire layer vertically, and the boards, one at a time, fall over the top of the unstacker frame onto the inclined table, and from there onto conveyor chains from which they may be delivered to any point desired, depending upon the length and direction of the chain conveyor.
With these unstackers one man can easily unload a kiln car in twenty minutes or less.
The experience of many users prove that these edge stacking machines are not alike. This is important, because there is one feature of edge stacking that must not be overlooked. Unless each layer of boards is forced into place by power and held under a strong pressure, much slack will accumulate in an entire load, and the subsequent handling of the kiln cars, and the effect of the kiln-drying will loosen up the load until there is a tendency for the layers to telescope. And unless the boards are held in place rigidly and with strong pressure they will have a tendency to warp.
A kiln car of edge-stacked lumber, properly piled, is made up of alternate solid sheets of lumber and vertical open-air spaces, so that the hot air and vapors rise naturally and freely through the lumber, drying both sides of the board evenly. The distribution of the heat and moisture being even and uniform, the drying process is naturally quickened, and there is no opportunity or tendency for the lumber to warp.
In Figure 49 will be seen a method of loading kiln cars with veneer on edge by the use of a tilting platform. On the right of the illustration is seen a partially loaded kiln car tilted to an angle of 45 degrees, to facilitate the placing of the veneer on the car. At the left is a completely loaded car ready to enter the dry kiln.
Gum, poplar, and pine veneers are satisfactorily dried in this manner in from 8 to 24 hours.
In Figure 50 will be seen method of piling lumber on the flat, "cross-wise" of the dry kiln when same has three tracks.
In Figure 51 will be seen another method of piling lumber on the flat, "cross-wise" of the dry kiln when same has three tracks.
In Figure 52 will be seen method of piling lumber on the flat, "end-wise" of the dry kiln when same has two tracks.
In Figure 53 will be seen another method of piling lumber on the flat, "end-wise" of the dry kiln when same has two tracks.
In Figure 54 will be seen method of piling slack or tight barrel staves "cross-wise" of the kiln when same has three tracks.
In Figure 55 will be seen another method of piling slack or tight barrel staves "cross-wise" of the dry kiln when same has three tracks.
In Figure 56 will be seen method of piling small tub or pail staves "cross-wise" of the dry kiln when same has two tracks.
In Figure 57 will be seen method of piling bundled staves "cross-wise" of the dry kiln when same has two tracks.
In Figure 58 will be seen method of piling shingles "cross-wise" of dry kiln when same has three tracks.
In Figure 59 will be seen another method of piling shingles "cross-wise" of the dry kiln when same has three tracks.
In Figure 60 will be seen method of piling shingles "end-wise" of the dry kiln when same has two tracks.
In Figure 61 will be seen a kiln car designed for handling short tub or pail staves through a dry kiln.
In Figure 62 will be seen a kiln car designed for short piece stock through a dry kiln.
In Figure 63 will be seen a type of truck designed for the handling of stave bolts about a stave mill or through a steam box.
In Figure 64 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.
In Figure 65 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.
In Figure 66 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.
In Figure 67 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.
In Figure 68 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.
In Figure 69 will be seen the Regular 3-rail Transfer Car designed for the handling of 2-rail kiln cars which have been loaded "end-wise."
In Figure 70 will be seen another type of Regular 3-rail Transfer Car designed for the handling of 2-rail kiln cars which have been loaded "end-wise."
In Figure 71 will be seen a Specially-designed 4-rail Transfer Car for 2-rail kiln cars which have been built to accommodate extra long material to be dried.
In Figure 72 will be seen the Regular 2-rail Transfer Car designed for the handling of 3-rail kiln cars which have been loaded "cross-wise."
In Figure 73 will be seen another type of Regular 2-rail Transfer Car designed for the handling of 3-rail kiln cars which have been loaded "cross-wise."
In Figure 74 will be seen the Regular 2-rail Underslung type of Transfer Car designed for the handling of 3-rail kiln cars which have been loaded "cross-wise." Two important features in the construction of this transfer car make it extremely easy in its operation. It has extra large wheels, diameter 13-1/2 inches, and being underslung, the top of its rails are no higher than the other types of transfer cars. Note the relative size of the wheels in the illustration, yet the car is only about 10 inches in height.
In Figure 75 will be seen the Regular 3-rail Underslung type of Transfer Car designed for the handling of 2-rail kiln cars which have been loaded "end-wise." This car also has the important features of large diameter wheels and low rail construction, which make it very easy in its operation.
In Figure 76 will be seen the Special 2-rail Flexible type of Transfer Car designed for the handling of 3-rail kiln cars which have been loaded "cross-wise." This car is equipped with double the usual number of wheels, and by making each set of trucks a separate unit (the front and rear trucks being bolted to a steel beam with malleable iron connection), a slight up-and-down movement is permitted, which enables this transfer car to adjust itself to any unevenness in the track, which is a very good feature.
In Figure 77 will be seen the Regular Transfer Car designed for the handling of stave bolt trucks.
In Figure 78 will be seen another type of Regular Transfer Car designed for the handling of stave bolt trucks.
In Figure 79 will be seen a Special Transfer Car designed for the handling of stave bolt trucks.
In Figure 80 will be seen the Regular Channel-iron Kiln Truck designed for edge piling "cross-wise" of the dry kiln.
In Figure 81 will be seen another type of Regular Channel-iron Kiln Truck designed for edge piling "cross-wise" of the dry kiln.
In Figure 82 will be seen the Regular Channel-iron Kiln Truck designed for flat piling "end-wise" of the dry kiln.
In Figure 83 will be seen the Regular Channel-iron Kiln Truck with I-Beam cross-pieces designed for flat piling "end-wise" of the dry kiln.
In Figure 84 will be seen the Regular Small Dolly Kiln Truck designed for flat piling "end-wise" of the dry kiln.
Different Types of Kiln Doors
In Figure 85 will be seen the Asbestos-lined Door. The construction of this kiln door is such that it has no tendency to warp or twist. The framework is solid and the body is made of thin slats placed so that the slat on either side covers the open space of the other with asbestos roofing fabric in between. This makes a comparatively light and inexpensive door, and one that absolutely holds the heat. These doors may be built either swinging, hoisting, or sliding.
In Figure 86 will be seen the Twin Carrier type of door hangers with doors loaded and rolling clear of the opening.
In Figure 87 will be seen the Twin Carrier for doors 18 to 35 feet wide, idle on a section of the track.
In Figure 88 will be seen another type of carrier for kiln doors.
In Figure 89 will be seen the preceding type of kiln door carrier in operation.
In Figure 90 will be seen another type of carrier for kiln doors.
In Figure 91 will be seen kiln doors seated, wood construction, showing 3-1/2" x 5-3/4" inch-track timbers and trusses, supported on 4-inch by 6-inch jamb posts. "T" rail track, top and side, inclined shelves on which the kiln door rests. Track timber not trussed on openings under 12 feet wide.
In Figure 92 will be seen kiln doors seated, fire-proof construction, showing 12-inch, channel, steel lintels, 2" x 2" steel angle mullions, track brackets bolted to the steel lintels and "T" rail track. No track timbers or trusses used.
SECTION XIV
HELPFUL APPLIANCES IN KILN-DRYING
The Humidity Diagram
Some simple means of determining humidities and changes in humidity brought about by changes in temperature in the dry kiln without the use of tables is almost a necessity. To meet this requirement the United States Forestry Service has devised the Humidity Diagram shown in Figure 93. It differs in several respects from the hydrodeiks now in use.
The purpose of the humidity diagram is to enable the dry-kiln operator to determine quickly the humidity conditions and vapor pressure, as well as the changes which take place with changes of temperature. The diagram above is adapted to the direct solution of problems of this character without recourse to tables or mathematical calculations.
The humidity diagram consists of two distinct sets of curves on the same sheet. One set, the convex curves, is for the determination of relative humidity of wet-and-dry-bulb hygrometer or psychrometer; the other, the concave curves, is derived from the vapor pressures and shows the amount of moisture per cubic foot at relative humidities and temperatures when read at the dew-point. The latter curves, therefore, are independent of all variables affecting the wet-bulb readings. They are proportional to vapor pressures, not to density, and, therefore, may be followed from one temperature to another with correctness. The short dashes show the correction (increase or decrease) which is necessary in the relative humidity, read from the convex curves, with an increase or decrease from the normal barometric pressure of 30 inches, for which the curves have been plotted. This correction, except for very low temperatures, is so small that it may usually be disregarded.
The ordinates, or vertical distances, are relative humidity expressed in per cent of saturation, from 0 per cent at the bottom to 100 per cent at the top. The abscissae, or horizontal distances, are temperatures in degrees Fahrenheit from 30 degrees below zero, at the left, to 220 degrees above, at the right.
Examples of Use
The application of the humidity diagram can best be understood by sample problems. These problems also show the wide range of conditions to which the diagram will apply.
EXAMPLE 1. To find the relative humidity by use of wet-and-dry-bulb hygrometer or psychrometer:
Place the instrument in a strong circulation of air, or wave it to and fro. Read the temperature of the dry bulb and the wet, and subtract. Find on the horizontal line the temperature shown by the dry-bulb thermometer. Follow the vertical line from this point till it intersects with the convex curve marked with the difference between the wet and dry readings. The horizontal line passing through this intersection will give the relative humidity.
Example: Dry bulb 70 deg., wet bulb 62 deg., difference 8 deg.. Find 70 deg. on the horizontal line of temperature. Follow up the vertical line from 70 deg. until it intersects with the convex curve marked 8 deg.. The horizontal line passing through this intersection shows the relative humidity to be 64 per cent.
EXAMPLE 2. To find how much water per cubic foot is contained in the air:
Find the relative humidity as in example 1. Then the nearest concave curve gives the weight of water in grains per cubic foot when the air is cooled to the dew-point. Using the same quantities as in example 1, this will be slightly more than 5 grains.
EXAMPLE 3. To find the amount of water required to saturate air at a given temperature:
Find on the top line (100 per cent humidity) the given temperature; the concave curve intersecting at or near this point gives the number of grains per cubic foot. (Interpolate, if great accuracy is desired.)
EXAMPLE 4. To find the dew-point:
Obtain the relative humidity as in example 1. Then follow up parallel to the nearest concave curve until the top horizontal (indicating 100 per cent relative humidity) is reached. The temperature on this horizontal line at the point reached will be the dew-point.
Example: Dry bulb 70 deg., wet bulb 62 deg.. On the vertical line for 70 deg. find the intersection with the hygrometer (convex) curve for 8 deg.. This will be found at nearly 64 per cent relative humidity. Then follow up parallel with the vapor pressure (concave) curve marked 5 grains to its intersection at the top of the chart with the 100 per cent humidity line. This gives the dew-point as 57 deg..
EXAMPLE 5. To find the change in the relative humidity produced by a change in temperature:
Example: The air at 70 deg. Fahr. is found to contain 64 per cent humidity; what will be its relative humidity if heated to 150 deg. Fahr.? Starting from the intersection of the designated humidity and temperature coordinates, follow the vapor-pressure curve (concave) until it intersects the 150 deg. temperature ordinate. The horizontal line then reads 6 per cent relative humidity. The same operation applies to reductions in temperature. In the above example what is the humidity at 60 deg.? Following parallel to the same curve in the opposite direction until it intersects the 60 deg. ordinate gives 90 per cent; at 57 deg. it becomes 100 per cent, reaching the dew-point.
EXAMPLE 6. To find the amount of condensation produced by lowering the temperature:
Example: At 150 deg. the wet bulb reads 132 deg.. How much water would be condensed if the temperature were lowered to 70 deg.? The intersection of the hygrometer curve for 18 deg. (150 deg.-132 deg.) with temperature line for 150 deg. shows a relative humidity of 60 per cent. The vapor-pressure curve (concave) followed up to the 100 per cent relative humidity line shows 45 grains per cubic foot at the dew-point, which corresponds to a temperature of 130 deg.. At 70 deg. it is seen that the air can contain but 8 grains per cubic foot (saturation). Consequently, there will be condensed 45 minus 8, or 37 grains per cubic foot of space measured at the dew-point.
EXAMPLE 7. To find the amount of water required to produce saturation by a given rise in temperature:
Example: Take the values given in example 5. The air at the dew-point contains slightly over 5 grains per cubic foot. At 150 deg. it is capable of containing 73 grains per cubic foot. Consequently, 73-5=68 grains of water which can be evaporated per cubic foot of space at the dew-point when the temperature is raised to 150 deg.. But the latent heat necessary to produce evaporation must be supplied in addition to the heat required to raise the air to 150 deg..
EXAMPLE 8. To find the amount of water evaporated during a given change of temperature and humidity:
Example: At 70 deg. suppose the humidity is found to be 64 per cent and at 150 deg. it is found to be 60 per cent. How much water has been evaporated per cubic foot of space? At 70 deg. temperature and 64 per cent humidity there are 5 grains of water present per cubic foot at the dew-point (example 2). At 150 deg. and 60 per cent humidity there are 45 grains present. Therefore, 45-5=40 grains of water which have been evaporated per cubic foot of space, figuring all volumes at the dew-point.
EXAMPLE 9. To correct readings of the hygrometer for changes in barometric pressure:
A change of pressure affects the reading of the wet bulb. The chart applies at a barometric pressure of 30 inches, and, except for great accuracy, no correction is generally necessary.
Find the relative humidity as usual. Then look for the nearest barometer line (indicated by dashes). At the end of each barometer line will be found a fraction which represents the proportion of the relative humidity already found, which must be added or subtracted for a change in barometric pressure. If the barometer reading is less than 30 inches, add; if greater than 30 inches, subtract. The figures given are for a change of 1 inch; for other changes use proportional amounts. Thus, for a change of 2 inches use twice the indicated ratio; for half an inch use half, and so on.
Example: Dry bulb 67 deg., wet bulb 51 deg., barometer 28 inches. The relative humidity is found, by the method given in example 1, to equal 30 per cent. The barometric line—gives a value of 3/100H for each inch of change. Since the barometer is 2 inches below 30, multiply 3/100H by 2, giving 6/100H. The correction will, therefore, be 6/100 of 30, which equals 1.8. Since the barometer is below 30, this is to be added, giving a corrected relative humidity of 31.8 per cent.
This has nothing to do with the vapor pressure (concave) curves, which are independent of barometric pressure, and consequently does not affect the solution of the previous problems.
EXAMPLE 10. At what temperature must the condenser be maintained to produce a given humidity?
Example: Suppose the temperature in the drying room is to be kept at 150 deg. Fahr., and a humidity of 80 per cent is desired. If the humidity is in excess of 80 per cent the air must be cooled to the dew-point corresponding to this condition (see example 4), which in this case is 141.5 deg..
Hence, if the condenser cools the air to this dew point the required condition is obtained when the air is again heated to the initial temperature.
EXAMPLE 11. Determination of relative humidity by the dew-point:
The quantity of moisture present and relative humidity for any given temperature may be determined directly and accurately by finding the dew-point and applying the concave (vapor-pressure) curves. This does away with the necessity for the empirical convex curves and wet-and-dry-bulb readings. To find the dew-point some form of apparatus, consisting essentially of a thin glass vessel containing a thermometer and a volatile liquid, such as ether, may be used. The vessel is gradually cooled through the evaporation of the liquid, accelerated by forcing air through a tube until a haze or dimness, due to condensation from the surrounding air, first appears upon the brighter outer surface of the glass. The temperature at which the haze first appears is the dew-point. Several trials should be made for this temperature determination, using the average temperature at which the haze appears and disappears.
To determine the relative humidity of the surrounding air by means of the dew-point thus determined, find the concave curve intersecting the top horizontal (100 per cent relative humidity) line nearest the dew-point temperature. Follow parallel with this curve till it intersects the vertical line representing the temperature of the surrounding air. The horizontal line passing through this intersection will give the relative humidity.
Example: Temperature of surrounding air is 80; dew-point is 61; relative humidity is 53 per cent.
The dew-point determination is, however, not as convenient to make as the wet-and-dry-bulb hygrometer readings. Therefore, the hygrometer (convex) curves are ordinarily more useful in determining relative humidities.
The Hygrodeik
In Figure 94 will be seen the Hygrodeik. This instrument is used to determine the amount of moisture in the atmosphere. It is a very useful instrument, as the readings may be taken direct with accuracy.
To find the relative humidity in the atmosphere, swing the index hand to the left of the chart, and adjust the sliding pointer to that degree of the wet-bulb thermometer scale at which the mercury stands. Then swing the index hand to the right until the sliding pointer intersects the curved line, which extends downwards to the left from the degree of the dry-bulb thermometer scale, indicated by the top of the mercury column in the dry-bulb tube.
At that intersection, the index hand will point to the relative humidity on scale at bottom of chart (for example see Fig. 94). Should the temperature indicated by the wet-bulb thermometer be 60 degrees, and that of the dry-bulb 70 degrees, the index hand will indicate humidity 55 degrees, when the pointer rests on the intersecting line of 60 degrees and 80 degrees.
The Recording Hygrometer
In Figure 95 is shown the Recording Hygrometer complete with wet and dry bulbs, two connecting tubes and two recording pens and special moistening device for supplying water to the wet bulb.
This equipment is designed particularly for use in connection with dry rooms and dry kilns and is arranged so that the recording instrument and the water supply bottle may be installed outside of the dry kiln or drying room, while the wet and dry bulbs are both installed inside the room or kiln at the point where it is desired to measure the humidity. This instrument records on a weekly chart the humidity for each hour of the day, during the entire week.
The Registering Hygrometer
In Figure 96 is shown the Registering Hygrometer, which consists of two especially constructed thermometers. The special feature of the thermometers permits placing the instrument in the dry kiln without entering the drying room, through a small opening, where it is left for about 20 minutes.
The temperature of both the dry and wet bulbs are automatically recorded, and the outside temperature will not affect the thermometers when removed from the kiln. From these recorded temperatures, as shown when the instrument is removed from the kiln, the humidity can be easily determined from a simple form of chart which is furnished free by the makers with each instrument.
The Recording Thermometer
In Figure 97 is shown the Recording Thermometer for observing and recording the temperatures within a dry kiln, and thus obtaining a check upon its operation. This instrument is constructed to record automatically, upon a circular chart, the temperatures prevailing within the drying room at all times of the day and night, and serves not only as a means of keeping an accurate record of the operation of the dry kiln, but as a valuable check upon the attendant in charge of the drying process.
The Registering Thermometer
In Figure 98 is shown the Registering Thermometer, which is a less expensive instrument than that shown in Figure 97, but by its use the maximum and minimum temperatures in the drying room during a given period can be determined.
The Recording Steam Gauge
In Figure 99 is shown the Recording Steam Pressure Gauge, which is used for accurately recording the steam pressures kept in the boilers. This instrument may be mounted near the boilers, or may be located at any distance necessary, giving a true and accurate record of the fluctuations of the steam pressure that may take place within the boilers, and is a check upon both the day and night boiler firemen.
The Troemroid Scalometer
In Figure 100 is shown the Troemroid Scalometer. This instrument is a special scale of extreme accuracy, fitted with agate bearings with screw adjustment for balancing. The beam is graduated from 0 to 2 ounces, divided into 100 parts, each division representing 1-50th of an ounce; and by using the pointer attached to the beam weight, the 1-100th part of an ounce can be weighed.
The percentage table No. II has a range from one half of 1 per cent to 30 per cent and is designed for use where extremely fine results are needed, or where a very small amount of moisture is present. Table No. III ranges from 30 per cent up to 90 per cent. These instruments are in three models as described below.
MODEL A. (One cylinder) ranges from 1/2 of 1 per cent to 30 per cent and is to be used for testing moisture contents in kiln-dried and air-dried lumber.
MODEL B. (Two cylinders) ranges from 1/2 of 1 per cent up to 90 per cent and is to be used for testing the moisture contents of kiln-dried, air-dried, and green lumber.
MODEL C. (One cylinder) ranges from 30 per cent to 90 per cent and is applicable to green lumber only.
Test Samples.—The green boards and all other boards intended for testing should be selected from boards of fair average quality. If air-dried, select one about half way up the height of the pile of lumber. If kiln-dried, two thirds the height of the kiln car. Do not remove the kiln car from the kiln until after the test. Three of four test pieces should be cut from near the middle of the cross-wise section of the board, and 1/8 to 3/16 inch thick. Remove the superfluous sawdust and splinters. When the test pieces are placed on the scale pan, be sure their weight is less than two ounces and more than 1-3/4 ounces. If necessary, use two or more broken pieces. It is better if the test pieces can be cut off on a fine band saw.
Weighing.—Set the base of the scale on a level surface and accurately balance the scale beam. Put the test pieces on the scale pan and note their weight on the lower edge of the beam. Set the indicator point on the horizontal bar at a number corresponding to this weight, which may be found on the cylinder at the top of the table.
Dry the test pieces on the Electric Heater (Fig. 101) 30 to 40 minutes, or on the engine cylinder two or three hours. Weigh them at once and note the weight. Then turn the cylinder up and at the left of it under the small pointer find the number corresponding to this weight. The percentage of moisture lost is found directly under pointer on the horizontal bar first mentioned. The lower portion on the cylinder Table No. II is an extension of the upper portion, and is manipulated in the same manner except that the bottom line of figures is used for the first weight, and the right side of cylinder for second weight. Turn the cylinder down instead of up when using it.
Examples (Test Pieces)
MODEL A. Table No. II, Kiln-dried or Air-dried Lumber:
If first weight is 90-1/2 and the second weight is 87, the cylinder table will show the board from which the test pieces were taken had a moisture content of 3.8 per cent.
MODEL B. Tables No. II and III, Air-dried (also Green and Kiln-dried) Lumber.
If the first weight on lower cylinder is 97 and the second weight is 76, the table will show 21.6 per cent of moisture.
MODEL C. Table III, Green Lumber:
If the first weight is 94 and the second weight is 51, the table shows 45.8 per cent of moisture.
Keep Records of the Moisture Content
Saw Mills.—Should test and mark each pile of lumber when first piled in the yard, and later when sold it should be again tested and the two records given to the purchaser.
Factories.—Should test and mark the lumber when first received, and if piled in the yard to be kiln-dried later, it should be tested before going into the dry kiln, and again before being removed, and these records placed on file for future reference.
Kiln-dried lumber piled in storage rooms (without any heat) will absorb 7 to 9 per cent of moisture, and even when so stored should be tested for moisture before being manufactured into the finished product.
Never work lumber through the factory that has more than 5 or 6 per cent of moisture or less than 3 per cent.
Dry storage rooms should be provided with heating coils and properly ventilated.
Oak or any other species of wood that shows 25 or 30 per cent of moisture when going into the dry kiln, will take longer to dry than it would if it contained 15 to 20 per cent, therefore the importance of testing before putting into the kiln as well as when taking it out.
The Electric Heater
In Figure 101 is shown the Electric Heater. This heater is especially designed to dry quickly the test pieces for use in connection with the Scalometer (see Fig. 100) without charring them. It may be attached to any electric light socket of 110 volts direct or alternating current. A metal rack is provided to hold the test pieces vertically on edge.
Turn the test pieces over once or twice while drying.
It will require from 20 minutes to one hour to remove all the moisture from the test pieces when placed on this heater, depending on whether they are cut from green, air-dried, or kiln-dried boards.
Test pieces cut from softwoods will dry quicker than those cut from hardwoods.
When the test pieces fail to show any further loss in weight, they are then free from all moisture content.
BIBLIOGRAPHY
AMERICAN BLOWER COMPANY, Detroit, Mich.
IMRE, JAMES E., "The Kiln-drying of Gum," The United States Dept. of Agriculture, Division of Forestry.
NATIONAL DRY KILN COMPANY, Indianapolis, Ind.
PRICHARD, REUBEN P., "The Structure of the Common Woods," The United States Dept. of Agriculture, Division of Forestry, Bulletin No. 3.
ROTH, FILIBERT, "Timber," The United States Dept. of Agriculture, Division of Forestry, Bulletin No. 10.
STANDARD DRY KILN COMPANY, Indianapolis, Ind.
STURTEVANT COMPANY, B. F., Boston, Mass.
TIEMAN, H. D., "The Effects of Moisture upon the Strength and Stiffness of Wood," The United States Dept. of Agriculture, Division of Forestry, Bulletin No. 70.
TIEMAN, H. D., "Principles of Kiln-drying Lumber," The United States Dept. of Agriculture, Division of Forestry.
TIEMAN, H. D., "The Theory of Drying and its Application, etc.," The United States Dept. of Agriculture, Division of Forestry, Bulletin No. 509.
THE UNITED STATES DEPT. OF AGRICULTURE, DIVISION OF FORESTRY, "Check List of the Forest Trees of the United States."
THE UNITED STATES DEPT. OF AGRICULTURE, DIVISION OF FORESTRY, Bulletin No. 37.
VON SCHRENK, HERMAN, "Seasoning of Timbers," The United States Dept. of Agriculture, Division of Forestry, Bulletin No. 41.
WAGNER, J. B., "Cooperage," 1910.
GLOSSARY
Abnormal. Differing from the usual structure.
Acuminate. Tapering at the end.
Adhesion. The union of members of different floral whorls.
Air-seasoning. The drying of wood in the open air.
Albumen. A name applied to the food store laid up outside the embryo in many seeds; also nitrogenous organic matter found in plants.
Alburnam. Sapwood.
Angiosperms. Those plants which bear their seeds within a pericarp.
Annual rings. The layers of wood which are added annually to the tree.
Apartment kiln. A drying arrangement of one or more rooms with openings at each end.
Arborescent. A tree in size and habit of growth.
Baffle plate. An obstruction to deflect air or other currents.
Bastard cut. Tangential cut. Wood of inferior cut.
Berry. A fruit whose entire pericarp is succulent.
Blower kiln. A drying arrangement in which the air is blown through heating coils into the drying room.
Box kiln. A small square heating room with openings in one end only.
Brittleness. Aptness to break; not tough; fragility.
Burrow. A shelter; insect's hole in the wood.
Calorie. Unit of heat; amount of heat which raises the temperature.
Calyx. The outer whorl of floral envelopes.
Capillary. A tube or vessel extremely fine or minute.
Case-harden. A condition in which the pores of the wood are closed and the outer surface dry, while the inner portion is still wet or unseasoned.
Cavity. A hollow place; a hollow.
Cell. One of the minute, elementary structures comprising the greater part of plant tissue.
Cellulose. A primary cell-wall substance.
Checks. The small chinks or cracks caused by the rupture of the wood fibres.
Cleft. Opening made by splitting; divided.
Coarse-grained. Wood is coarse-grained when the annual rings are wide or far apart.
Cohesion. The union of members of the same floral whorl.
Contorted. Twisted together.
Corolla. The inner whorl of floral envelopes.
Cotyledon. One of the parts of the embryo performing in part the function of a leaf, but usually serving as a storehouse of food for the developing plant.
Crossers. Narrow wooden strips used to separate the material on kiln cars.
Cross-grained. Wood is cross-grained when its fibres are spiral or twisted.
Dapple. An exaggerated form of mottle.
Deciduous. Not persistent; applied to leaves that fall in autumn and to calyx and corolla when they fall off before the fruit develops.
Definite. Limited or defined.
Dew-point. The point at which water is deposited from moisture-laden air.
Dicotyledon. A plant whose embryo has two opposite cotyledons.
Diffuse. Widely spreading.
Disk. A circular, flat, thin piece or section of the tree.
Duramen. Heartwood.
Embryo. Applied in botany to the tiny plant within the seed.
Enchinate. Beset with prickles.
Expansion. An enlargement across the grain or lengthwise of the wood.
Fibres. The thread-like portion of the tissue of wood.
Fibre-saturation point. The amount of moisture wood will imbibe, usually 25 to 30 per cent of its dry-wood weight.
Figure. The broad and deep medullary rays as in oak showing when the timber is cut into boards.
Filament. The stalk which supports the anther.
Fine-grained. Wood is fine-grained when the annual rings are close together or narrow.
Germination. The sprouting of a seed.
Girdling. To make a groove around and through the bark of a tree, thus killing it.
Glands. A secreting surface or structure; a protuberance having the appearance of such an organ.
Glaucous. Covered or whitened with a bloom.
Grain. Direction or arrangement of the fibres in wood.
Grubs. The larvae of wood-destroying insects.
Gymnosperms. Plants bearing naked seeds; without an ovary.
Habitat. The geographical range of a plant.
Heartwood. The central portion of tree.
Hollow-horning. Internal checking.
Honeycombing. Internal checking.
Hot-blast kiln. A drying arrangement in which the air is blown through heating coils into the drying room.
Humidity. Damp, moist.
Hygroscopicity. The property of readily imbibing moisture from the atmosphere.
Indefinite. Applied to petals or other organs when too numerous to be conveniently counted.
Indigenous. Native to the country.
Involute. A form of vernation in which the leaf is rolled inward from its edges.
Kiln-drying. Drying or seasoning of wood by artificial heat in an inclosed room.
Leaflet. A single division of a compound leaf.
Limb. The spreading portion of the tree.
Lumen. Internal space in the spring- and summer-wood fibres.
Median. Situated in the middle.
Medulla. The pith.
Medullary rays. Rays of fundamental tissue which connect the pith with the bark.
Membranous. Thin and rather soft, more or less translucent.
Midrib. The central or main rib of a leaf.
Moist-air kiln. A drying arrangement in which the heat is taken from radiating coils located inside the drying room.
Mottle. Figure transverse of the fibres, probably caused by the action of wind upon the tree.
Non-porous. Without pores.
Oblong. Considerably longer than broad, with flowing outline.
Obtuse. Blunt, rounded.
Oval. Broadly elliptical.
Ovary. The part of the pistil that contains the ovules.
Parted. Cleft nearly, but not quite to the base or midrib.
Parenchyma. Short cells constituting the pith and pulp of the tree.
Pericarp. The walls of the ripened ovary, the part of the fruit that encloses the seeds.
Permeable. Capable of being penetrated.
Petal. One of the leaves of the corolla.
Pinholes. Small holes in the wood caused by worms or insects.
Pistil. The modified leaf or leaves which bear the ovules; usually consisting of ovary, style and stigma.
Plastic. Elastic, easily bent.
Pocket kilns. Small drying rooms with openings on one end only and in which the material to be dried is piled directly on the floor.
Pollen. The fertilizing powder produced by the anther.
Pores. Minute orifices in wood.
Porous. Containing pores.
Preliminary steaming. Subjecting wood to a steaming process before drying or seasoning.
Progressive kiln. A drying arrangement with openings at both ends, and in which the material enters at one end and is discharged at the other.
Rick. A pile or stack of lumber.
Rift. To split; cleft.
Ring shake. A large check or crack in the wood following an annual ring.
Roe. A peculiar figure caused by the contortion of the woody fibres, and takes a wavy line parallel to them.
Sapwood. The outer portions of the tree next to the bark; alburnam.
Saturate. To cause to become completely penetrated or soaked.
Season checks. Small openings in the ends of the wood caused by the process of drying.
Seasoning. The process by which wood is dried or seasoned.
Seedholes. Minute holes in wood caused by wood-destroying worms or insects.
Shake. A large check or crack in wood caused by the action of the wind on the tree.
Shrinkage. A lessening or contraction of the wood substance.
Skidways. Material set on an incline for transporting lumber or logs.
Species. In science, a group of existing things, associated according to properties.
Spermatophyta. Seed-bearing plants.
Spring-wood. Wood that is formed in the spring of the year.
Stamen. The pollen-bearing organ of the flower, usually consisting of filament and anther.
Stigma. That part of the pistil which receives the pollen.
Style. That part of the pistil which connects the ovary with the stigma.
Taproot. The main root or downward continuation of the plant axis.
Temporary checks. Checks or cracks that subsequently close.
Tissue. One of the elementary fibres composing wood.
Thunder shake. A rupture of the fibres of the tree across the grain, which in some woods does not always break them.
Tornado shake. (See Thunder shake.)
Tracheids. The tissues of the tree which consist of vertical cells or vessels closed at one end.
Warping. Turning or twisting out of shape.
Wind shake. (See Thunder shake.)
Working. The shrinking and swelling occasioned in wood.
Wormholes. Small holes in wood caused by wood-destroying worms.
Vernation. The arrangement of the leaves in the bud.
Whorl. An arrangement of organs in a circle about a central axis.
INDEX OF LATIN NAMES
Abies amabalis, 21 Abies balsamea, 20 Abies concolor, 20 Abies grandis, 20 Abies magnifica, 21 Abies nobilis, 21 Acer macrophyllum, 69 Acer negundo, 69 Acer Pennsylvanicum, 70 Acer rubrum, 69 Acer saccharinum, 69 Acer saccharum, 68 Acer spicatum, 69 AEsculus flava, 45 AEsculus glabra, 45 AEsculus octandra, 45 Ailanthus glandulosa, 37 Asimina triloba, 76
Betula lenta, 41 Betula lutea, 42 Betula nigra, 43 Betula papyrifera, 43 Betula populifolia, 42 Betula rubra, 43 Buxus sempervirens, 77
Carpinus Caroliana, 44 Castanea Americana, 48 Castanea chrysophylla, 49 Castanea dentata, 48 Castanea pumila, 48 Castanea vesca, 48 Castanea vulgaris, 48 Catalpa bignonioides, 46 Catalpa speciosa, 46 Celtis occidentalis, 62 Chamaecyparis Lawsonia, 18 Chamaecyparis thyoides, 17 Cladrastis lutea, 85 Cornus florida, 49 Cupressus nootkatensis, 18
Diospyros Virginia, 77
Evonymus atropurpureus, 82
Fagus ferruginea, 40 Fraxinus Americana, 37 Fraxinus Caroliniana, 39 Fraxinus nigra, 38 Fraxinus Oregana, 38 Fraxinus Pennsylvanica, 38 Fraxinus pubescens, 38 Fraxinus quadrangulata, 38 Fraxinus sambucifolia, 38 Fraxinus viridis, 38
Gleditschia triacanthos, 66 Gymnocladus dioicus, 49
Hicoria alba, 64 Hicoria glabra, 64 Hicoria minima, 64 Hicoria ovata, 64 Hicoria pecan, 64
Ilex monticolo, 65 Ilex opaca, 64
Juglans cinerea, 45 Juglans nigra, 82 Juniperus communis, 19 Juniperus Virginiana, 18
Larix Americana, 22 Larix laricina, 22 Larix occidentalis, 22 Libocedrus decurrens, 18 Liquidamber styraciflua, 54 Liriodendron tulipfera, 81
Maclura aurantiaca, 76 Magnolia acuminata, 67 Magnolia glauca, 67 Magnolia tripetala, 67 Morus rubra, 70
Nyssa aquatica, 60 Nyssa sylvatica, 62
Ostrya Virginiana, 65 Oxydendrum arboreum, 80
Picea alba, 28 Picea canadensis, 28 Picea engelmanni, 28 Picea mariana, 27 Picea nigra, 27 Picea rubens, 28 Picea sitchensis, 28 Pinus banksiana, 27 Pinus cubensis, 26 Pinus divaricata, 27 Pinus enchinata, 26 Pinus flexilis, 24 Pinus inops, 27 Pinus Jeffreyi, 25 Pinus Lambertiana, 24 Pinus monticolo, 24 Pinus Murryana, 27 Pinus palustris, 24 Pinus ponderosa, 25 Pinus resinosa, 25 Pinus rigida, 26 Pinus strobus, 23 Pinus taeda, 25 Pinus Virginiana, 27 Platanus occidentalis, 80 Platanus racemosa, 81 Populus alba, 79 Populus angulata, 77 Populus balsamifera, 79 Populus fremontii, 78 Populus grandidentata, 79 Populus heteropylla, 78 Populus monilifera, 77 Populus nigra italica, 79 Populus tremuloides, 79 Populus trichocarpa, 78 Populus Wislizeni, 78 Prunus Pennsylvanica, 47 Prunus serotina, 47 Pseudotsuga douglasii, 29 Pseudotsuga taxifolia, 29 Pyrus coronaria, 49
Quercus acuminata, 73 Quercus alba, 71 Quercus aquatica, 73 Quercus bicolor, 72 Quercus chrysolepis, 76 Quercus coccinea, 75 Quercus digitata, 75 Quercus durandii, 71 Quercus falcata, 75 Quercus garryana, 71 Quercus ilicijolia, 74 Quercus imbricaria, 75 Quercus lobata, 72 Quercus lyrata, 73 Quercus macrocarpa, 72 Quercus marilandica, 75 Quercus Michauxii, 74 Quercus minor, 74 Quercus nigra, 75 Quercus obtusiloda, 74 Quercus palustris, 73 Quercus phellos, 72 Quercus platanoides, 72 Quercus prinoides, 74 Quercus prinus, 73 Quercus pumila, 74 Quercus rubra, 74 Quercus tinctoria, 74 Quercus velutina, 74 Quercus virens, 75
Rhamnus Caroliniana, 45 Robinia pseudacacia, 66 Robinia viscosa, 66
Salix alba, 83 Salix amygdaloides, 84 Salix babylonica, 84 Salix bebbiana, 84 Salix discolor, 84 Salix fluviatilis, 84 Salix fragilis, 84 Salix lucida, 84 Salix nigra, 83 Salix rostrata, 84 Salix vitellina, 83 Sassafras sassafras, 80 Sequoia sempervirens, 19
Taxodium distinchum, 19 Taxus brevifolia, 30 Thuya gigantea, 17 Thuya occidentalis, 17 Tilia Americana, 39 Tilia heterophylla, 39 Tilia pubescens, 39 Tsuga canadensis, 21 Tsuga mertensiana, 21
Ulmus alata, 51 Ulmus Americana, 50 Ulmus crassifolia, 51 Ulmus fulva, 51 Ulmus pubescens, 51 Ulmus racemosa, 50 Umbellularia Californica, 65
INDEX
Abele, Tree, 79
Absorption of water by dry wood, 124
Acacia, 66
Acacia, false, 66
Acacia, three-thorned, 66
According to species, different kiln drying, 170
Advantages in seasoning, 128
Advantages of kiln-drying over air-drying, 156
Affect drying, properties of wood that, 156
Ailanthus, 37
Air circulation, 173
Air-drying, advantages of kiln-drying over, 156
Alaska cedar, 18
Alaska cypress, 18
Alcoholic liquids, stave and heads of barrels containing, 112
Almond-leaf willow, 84
Ambrosia or timber beetles, 99
American box, 49
American elm, 50
American larch, 22
American linden, 39
American oak, 71
American red pine, 25
Anatomical structure, 14
Annual ring, the yearly or, 10
Apartment dry kiln, 198
Apple, crab, 49
Apple, custard, 76
Apple, wild, 49
Appliances in kiln-drying, helpful, 237
Arborvitae, 17
Ash, 37
Ash, black, 38
Ash, blue, 38
Ash, Carolina, 39
Ash, green, 38
Ash, ground, 38
Ash, hoop, 38
Ash-leaved maple, 69
Ash, Oregon, 38
Ash, red, 38
Ash, white, 37
Aspen, 39, 79
Aspen, large-toothed, 78
Aspen-leaved birch, 42
Aspen, quaking, 79
Atmospheric pressure, drying at, 146
Bald Cypress, 19
Ball tree, button, 80
Balm of gilead, 79
Balm of gilead fir, 20
Balsam, 20, 79
Balsam fir, 20
Bark and pith, 8
Bark on, round timber with, 106
Barrels containing alcoholic liquids, staves and heads of, 112
Barren oak, 75
Bar willow, sand, 84
Basket oak, 74
Basswood, 39
Basswood, small-leaved, 39
Basswood, white, 39
Bastard pine, 26
Bastard spruce, 29
Bay poplar, 60
Bay, sweet, 67
Bear oak, 74
Beaver wood, 67
Bebb willow, 84
Bee tree, 39
Beech, 40
Beech, blue, 44
Beech, red, 40
Beech, water, 44, 80
Beech, white, 40
Berry, sugar, 62
Beetles, ambrosia or timber, 99
Big bud hickory, 64
Bilsted, 54
Birch, 41
Birch, aspen-leaved, 42
Birch, black, 41
Birch, canoe, 43
Birch, cherry, 41
Birch, gray, 42
Birch, mahogany, 41
Birch, old field, 42
Birch, paper, 43
Birch, red, 42
Birch, river, 43
Birch, silver, 42
Birch, sweet, 41
Birch, white, 42, 43
Birch, wintergreen, 41
Birch, yellow, 42
Bird cherry, 47
Bitternut hickory, 64
Black ash, 38
Black birch, 41
Black cherry, 47
Black cottonwood, 78
Black cypress, 19
Black gum, 62
Black hickory, 64
Black jack, 75
Black larch, 22
Black locust, 66
Black nut hickory, 64
Black oak, 74
Black pine, 25, 27
Black spruce, 27
Black walnut, 44, 82
Black willow, 83
Blower dry kiln, operation of, 186
Blower or hot blast dry kiln, 185
Blue ash, 38
Blue beech, 44
Blue poplar, 81
Blue willow, 83
Bois d'Arc, 45, 76
Bolts, stave, heading and shingle, 109
Borers, flat-headed, 103
Borers, powder post, 105
Borers, round-headed, 101
Box, American, 49
Box elder, 69
Box dry kiln, 204
Broad-leaved maple, 69
Broad-leaved trees, 31
Broad-leaved trees, list of most important, 37
Broad-leaved trees, wood of, 31
Brown hickory, 64
Brown locust, 66
Buckeye, 45
Buckeye, fetid, 45
Buckeye, Ohio, 45
Buckeye, sweet, 45
Buckthorne, 45
Bud hickory, big, 64
Bull nut hickory, 64
Bull pine, 25
Bur oak, 72
Burning bush, 82
Bush, burning, 82
Bush, juniper, 18
Butternut, 45
Button ball tree, 80
Button wood, 80
California Redwood, 19
California white pine, 25
Canadian pine, 25
Canary wood, 81
Canoe birch, 43
Canoe cedar, 17
Carolina ash, 39
Carolina pine, 26
Carolina poplar, 77
Cars, method of loading kiln, 206
Catalpa, 46
Cedar, 17
Cedar, Alaska, 18
Cedar, canoe, 17
Cedar, elm, 51
Cedar, ground, 19
Cedar, incense, 18
Cedar of the West, red, 17
Cedar, Oregon, 18
Cedar, pencil, 18
Cedar, Port Orford, 18
Cedar, red, 18, 19
Cedar, white, 17, 18
Cedar, yellow, 18
Changes rendering drying difficult, 140
Characteristics and properties of wood, 1
Checking and splitting, prevention of, 129
Cherry, 47
Cherry birch, 41
Cherry, bird, 47
Cherry, black, 47
Cherry, Indian, 45
Cherry, red, 47
Cherry, rum, 47
Cherry, wild, 47
Cherry, wild red, 47
Chestnut, 48
Chestnut, horse, 45, 65
Chestnut oak, 73
Chestnut oak, rock, 73
Chestnut oak, scrub, 74
Chinquapin, 48, 49
Chinquapin oak, 73, 74
Chinquapin oak, dwarf, 74
Choice of drying method, 195
Circassian walnut, 60
Circulation, air, 173
Clammy locust, 66
Classes of trees, 5
Cliff elm, 50
Coast redwood, 19
Coffee nut, 49
Coffee tree, 49
Color and odor of wood, 89
Color, odor, weight, and figure in wood, grain, 86
Composition of sap, 116
Conditions and species, temperature depends on, 171
Conditions favorable for insect injury, 106
Conditions governing the drying of wood, 156
Conditions of success in kiln-drying, 169
Coniferous trees, 8
Coniferous trees, wood of, 8
Coniferous woods, list of important, 17
Containing alcoholic liquids, staves and heads of barrels, 112
Cooperage stock and wooden truss hoops, dry, 112
Cork elm, 50
Cotton gum, 60
Cottonwood, 49, 77, 78
Cottonwood, black, 78
Cottonwood, swamp, 78
Cow oak, 74
Crab apple, 49
Crab, fragrant, 49
Crack willow, 84
Crude products, 106
Cuban pine, 26
Cucumber tree, 49, 67
Cup oak, mossy, 72
Cup oak, over-, 72, 73
Custard apple, 76
Cypress, 19
Cypress, Alaska, 18
Cypress, bald, 19
Cypress, black, 19
Cypress, Lawson's, 18
Cypress, pecky, 19
Cypress, red, 19
Cypress, white, 19
D'Arc, Bois, 45, 76
Deal, yellow, 23
Demands upon soil and moisture of red gum, 56
Depends on conditions and species, temperature, 171
Description of the forest service kiln, theory and, 161
Diagram, the uses of the humidity, 237
Difference between seasoned and unseasoned wood, 121
Different grains of wood, 86
Different kiln-drying according to species, 170
Different species, weight of kiln-dried wood of, 95
Different types, kilns of, 196
Different types of dry kilns, 185
Different types of kiln doors, 231
Difficult, changes rendering drying, 140
Difficulties of drying wood, 138
Distribution of water in wood, 114
Distribution of water in wood, local, 114
Distribution of water in wood seasonal, 115
Dogwood, 49
Doors, different types of kiln, 231
Douglas spruce, 29
Downy linden, 39
Downy poplar, 78
Dry cooperage stock and wooden truss hoops, 112
Drying according to species, different kiln, 170
Drying, advantages of kiln-drying over air, 156
Drying at atmospheric pressure, 146
Drying by superheated steam, 150
Drying, conditions of success in kiln, 169
Drying difficult, changes rendering, 140
Drying gum, kiln, 180
Drying, helpful appliances in kiln, 237
Drying, kiln, 164, 177
Drying, losses due to improper kiln, 141
Drying method, choice of, 185
Drying, methods of kiln, 145
Drying, objects of kiln, 168
Drying of green red gum, kiln, 183
Drying of wood, kiln, 156
Drying of wood, physical conditions governing the, 156
Drying, physical properties that influence, 125
Drying, properties of wood that effect, 141
Drying, theory of kiln, 157
Drying, underlying principles of kiln, 166
Drying under pressure and vacuum, 146
Drying, unsolved problems in kiln, 143
Drying wood, difficulties of, 138
Drying 100 lb. of green wood in the kiln, pounds of water lost, 179
Dry kiln, apartment, 198
Dry kiln, box, 204
Dry kiln, operation of the blower, 186
Dry kiln, operation of the moist-air, 192
Dry kiln, moist-air or pipe, 188
Dry kiln, pocket, 200
Dry kiln, progressive, 196
Dry kiln, requirements in a satisfactory, 160
Dry kilns, different types of, 185
Dry kiln specialties, 206
Dry kilns, types of, 185
Dry kiln, tower, 202
Dry wood, absorption of water by, 124
Duck oak, 73
Due to improper kiln-drying, losses, 141
Dwarf chinquapin oak, 74
Effects of Moisture on Wood, 117
Elder, box, 69
Electric heater, the, 250
Elimination of stain and mildew, 136
Elm, 50
Elm, American, 50
Elm, cedar, 51
Elm, cliff, 50
Elm, cork, 50
Elm, hickory, 50
Elm, moose, 51
Elm, red, 51
Elm, rock, 50
Elm, slippery, 51
Elm, water, 50
Elm, winged, 51
Elm, white, 50
Enemies of wood, 98
Evaporation of water, manner of, 123
Evaporation, rapidity of, 124
Expansion of wood, 135
Factories, Scalometer in, 249
False acacia, 66
Favorable for insect injury, conditions, 106
Fetid buckeye, 45
Fibre saturation point in wood, 118
Field birch, old, 42
Field pine, old, 25, 26
Figure in wood, 96
Figure in wood, grain, color, odor, weight, and, 86
Final steaming of gum, 182
Fir, 20
Fir, balm of gilead, 20
Fir balsam, 20
Fir, noble, 21
Fir, red, 21, 29
Fir tree, 20
Fir, white, 20, 21
Fir, yellow, 29
Flat-headed borers, 103
Forest service kiln, theory and description of, 161
Form of the red gum, 55
Fragrant crab, 49
Gauge, the Recording Steam, 246
Georgia pine, 24
Gilead, balm of, 79
Gilead fir, balm of, 20
Ginger pine, 18
Glaucous willow, 84
Governing the drying of wood, physical conditions, 156
Grain, color, odor, weight, and figure in wood, 86
Grains of wood, different, 86
Gray birch, 42
Gray pine, 27
Green ash, 38
Green red gum, kiln-drying, 183
Green wood in the kiln, pounds of water lost in drying 100 lbs., 179
Ground ash, 38
Ground cedar, 19
Growth red gum, second, 59
Gum, 52
Gum, black, 62
Gum, cotton, 60
Gum, demands upon soil and moisture of red, 56
Gum, final steaming of, 182
Gum, form of red, 55
Gum, kiln-drying, 180
Gum, kiln-drying of green red, 183
Gum, method of piling, 180
Gum, preliminary steaming of, 182
Gum, range of red, 55
Gum, range of tupelo, 61
Gum, red, 54, 79
Gum, reproduction of red, 57
Gum, second-growth red, 59
Gum, sour, 62, 80
Gum, sweet, 54, 80
Gum, tolerance of the red, 56
Gum, tupelo, 60
Gum, uses of tupelo, 61
Hackberry, 62
Hacmatac, 22
Hard maple, 68
Hard pine, 26
Hard pines, 24
Hard pine, southern, 24
Hardwoods, 37
Hazel pine, 54, 60
Headed borers, flat, 103
Headed borers, round, 101
Heading, stave and shingle bolts, 109
Heads and staves of barrels containing alcoholic liquids, 112
Heart hickory, white, 64
Heartwood, sap and, 8
Heater, the electric, 250
Helpful appliances in kiln-drying, 237
Hemlock, 21
Hemlock spruce, 21
Hickory, 63
Hickory, big bud, 64
Hickory, bitternut, 64
Hickory, black, 64
Hickory, black nut, 64
Hickory, brown, 64
Hickory, bull nut, 64
Hickory elm, 50
Hickory, mockernut, 64
Hickory, pignut, 64
Hickory, poplar, 81
Hickory, scalybark, 64
Hickory, shagbark, 64
Hickory, shellbark, 64
Hickory, swamp, 64
Hickory, switchbud, 64
Hickory, white heart, 64
Holly, 64, 65
Holly, mountain, 65
Honey locust, 66
Honey shucks, 66
Hoop ash, 38
Hoops, dry cooperage stock and wooden truss, 112
Hop hornbeam, 65
Hornbeam, 44
Hornbeam, hop, 65
Horse chestnut, 45, 65
Hot blast or blower kiln, 185
Humidity, 174
Humidity diagram, uses of the, 237
How to prevent insect injury, 107
How wood is seasoned, 145
Hygrodeik, the, 242
Hygrometer, the recording, 242
Hygrometer, the registering, 244
Illinois Nut, 64
Important broad-leaved trees, list of most, 37
Important coniferous woods, list of, 17
Impregnation methods, 151
Improper kiln-drying, losses due to, 141
Incense cedar, 18
Indian bean, 46
Indian cherry, 45
Influence drying, physical properties that, 125
Injury, conditions favorable for insect, 106
Injury from insects, how to prevent, 107
Insect injury, conditions favorable for, 106
Insects, how to prevent injury from, 107
Iron oak, 74
Ironwood, 44, 65
Jack, Black, 75
Jack oak, 75
Jack pine, 27
Jersey pine, 27
Juniper, 18
Juniper bush, 18
Juniper, red, 18
Juniper, savin, 18
Keep Records of the Moisture Content, 249
Kiln, apartment dry, 198
Kiln, blower or hot blast, 185
Kiln, box dry, 204
Kiln cars and method of loading, 206
Kiln doors, different types, 231
Kiln-dried wood of different species, weight of, 95
Kiln-drying, 164, 177
Kiln-drying according to species, different, 170
Kiln-drying, conditions of success in, 169
Kiln-drying gum, 180
Kiln-drying, helpful appliances in, 237
Kiln-drying, losses due to improper, 141
Kiln-drying, objects of, 168
Kiln-drying of green red gum, 183
Kiln-drying of wood, 156
Kiln-drying of wood, 156
Kiln-drying over air-drying, advantages of, 156
Kiln-drying, theory of, 157
Kiln-drying, underlying principles of, 166
Kiln-drying, unsolved problems in, 143
Kiln, operation of the blower dry, 186
Kiln, operation of the moist-air dry, 192
Kiln, pipe or moist-air dry, 188
Kiln, pocket dry, 200
Kiln, progressive dry, 196
Kiln, requirements in a satisfactory dry, 160
Kilns, different types of dry, 185
Kilns of different types, 196
Kiln specialties, dry, 206
Kiln, theory and description of the forest service, 161
Kilns, types of dry, 185
Kiln, tower dry, 202
Land Spruce, Tide, 28
Larch, 22
Larch, American, 22
Larch, black, 22
Larch, western, 22
Large-toothed aspen, 79
Laurel, 65
Laurel oak, 75
Lawson's cypress, 18
Leaf pine, long-, 24
Leaf pine, short-, 26
Leaf willow, long, 84
Leaved basswood, small, 39
Leaved birch, aspen, 42
Leaved maple, ash, 69
Leaved maple, broad, 69
Leaved maple, silver, 69
Leaved trees, broad, 31
Leaved trees, list of most important broad, 37
Leaved trees, wood of broad, 31
Leverwood, 65
Life, tree of, 17
Lime tree, 39
Lin, 39
Linden, 39
Linden, American, 39
Linden, downy, 39
Liquidamber, 54
Liquids, staves and heads of barrels containing alcoholic, 112
List of important coniferous trees, 17
List of most important broad-leaved trees, 37
Live oak, 75, 76
Loading, kiln cars and method of, 206
Loblolly pine, 25
Local distribution of water in wood, 114
Locust, 66
Locust, black, 66
Locust, brown, 66
Locust, clammy, 66
Locust, honey, 66
Locust, sweet, 66
Locust, yellow, 66
Lodge-pole pine, 27
Lombardy poplar, 79
Long-leaf pine, 24
Long-leaf willow, 84
Long-straw pine, 24
Losses due to improper kiln-drying, 141
Lost in kiln-drying 100 lb. green wood in the kiln, pounds of water, 179
Magnolia, 67
Magnolia, small, 67
Magnolia, swamp, 67
Mahogany, birch, 41
Mahogany, white, 45
Manner of evaporation of water, 123
Maple, 67
Maple, ash-leaved, 69
Maple, broad-leaved, 69
Maple, hard, 68
Maple, mountain, 69
Maple, Oregon, 69
Maple, red, 69
Maple, rock, 68
Maple, silver, 69
Maple, silver-leaved, 69
Maple, soft, 69
Maple, striped, 70
Maple, sugar, 68
Maple, swamp, 69
Maple, water, 69
Maple, white, 69
Maul oak, 75, 76
Meadow pine, 26
Method, choice of drying, 195
Method of loading kiln cars, 206
Method of piling gum, 180
Methods, impregnation, 151
Methods of drying, 154
Mildew, elimination of stain and, 136
Minute structure, 34
Mockernut hickory, 64
Moist-air dry kiln, operation of, 192
Moist-air or pipe kiln, the, 188
Moisture content, keep records of the, 249
Moisture, demands upon soil and, 56
Moisture on wood, effects of, 117
Moose elm, 51
Moose-wood, 70
Mossy-cup oak, 72
Most important broad-leaved trees list of, 37
Mountain holly, 65
Mountain maple, 69
Mulberry, 70
Mulberry, red, 70
Myrtle, 65, 70
Nettle Tree, 62
Noble fir, 21
Norway pine, 25
Nut, coffee, 49
Nut hickory, black, 64
Nut hickory, bull, 64
Nut, Illinois, 64
Nyssa, 60
Oak, 70
Oak, American, 71
Oak, barren, 75
Oak, basket, 74
Oak, bear, 74
Oak, black, 74
Oak, bur, 72
Oak, chestnut, 73
Oak, chinquapin, 73, 74
Oak, cow, 74
Oak, duck, 73
Oak, dwarf chinquapin, 74
Oak, iron, 74
Oak, jack, 75
Oak, laurel, 75
Oak, live, 75, 76
Oak, maul, 75, 76
Oak, mossy-cup, 72
Oak, over-cup, 72, 73
Oak, peach, 72
Oak, pin, 73
Oak, possum, 73
Oak, post, 74
Oak, punk, 73
Oak, red, 74, 75
Oak, rock, 73
Oak, rock chestnut, 73
Oak, scarlet, 75
Oak, scrub, 74
Oak, scrub chestnut, 74
Oak, shingle, 75
Oak, Spanish, 75
Oak, swamp post, 73
Oak, swamp Spanish, 73
Oak, swamp white, 72, 73
Oak, water, 73
Oak, western white, 71
Oak, white, 71, 72
Oak, willow, 72
Oak, yellow, 73, 74
Oak, Valparaiso, 76
Objects of kiln-drying, 168
Odor and color of wood, 89
Odor, weight, and figure in wood, grain, color, 86
Ohio buckeye, 45
Old field birch, 42
Old field pine, 25, 26
Operation of the blower kiln, 186
Operation of the moist-air kiln, 192
Orange, osage, 76
Oregon ash, 38
Oregon cedar, 18
Oregon maple, 69
Oregon pine, 29
Orford cedar, Port, 18
Osage orange, 76
Out-of-door seasoning, 154
Over-cup oak, 72, 73
Papaw, 76
Paper birch, 43
Peach oak, 72
Pecan, 64
Pecky cypress, 19
Pencil cedar, 18
Pepperidge, 60
Perch willow, 84
Persimmon, 77
Peruche, 21
Physical conditions governing the drying of wood, 156
Physical properties that influence drying, 125
Pignut hickory, 64
Piling gum, methods of, 180
Pine, American red, 25
Pine, bastard, 26
Pine, black, 25, 27
Pine, bull, 25
Pine, California white, 25
Pine, Canadian, 25
Pine, Carolina, 26
Pine, Cuban, 26
Pine, Georgia, 24
Pine, ginger, 18
Pine, gray, 27
Pine, hard, 26
Pine, hazel, 54, 60
Pine, jack, 27
Pine, Jersey, 27
Pine, loblolly, 25
Pine, lodge-pole, 27
Pine, long-leaf, 24
Pine, long-straw, 24
Pine, meadow, 26
Pine, Norway, 25
Pine, old field, 25, 26
Pine, Oregon, 29
Pine, pitch, 26
Pine, Puget Sound, 29
Pine, pumpkin, 23, 24
Pine, red, 29
Pine, rosemary, 25
Pine, sap, 25
Pine, scrub, 27
Pines, hard, 24
Pine, short-leaf, 26
Pine, short-straw, 25
Pine, slash, 25, 26
Pine, soft, 23, 24
Pine, southern, 24
Pine, southern hard, 24
Pine, spruce, 26
Pine, sugar, 24
Pine, swamp, 26
Pine, torch, 26
Pine, Weymouth, 23
Pine, western, 25
Pine, western white, 25
Pine, western yellow, 25
Pine, white, 23, 24
Pine, yellow, 24, 25, 26
Pin oak, 73
Pipe or moist-air kiln, 188
Pitch pine, 26
Pith and bark, 8
Plane tree, 80
Pocket dry kiln, the, 200
Point in wood, the fibre saturation, 118
Pole pine, lodge, 27
Poplar, 67, 77, 79, 81
Poplar, bay, 60
Poplar, blue, 81
Poplar, Carolina, 77
Poplar, downy, 78
Poplar, hickory, 81
Poplar, Lombardy, 79
Poplar, swamp, 60
Poplar, white, 79, 81
Poplar, yellow, 81
Port Orford cedar, 18
Possum oak, 73
Post borers, powder, 105
Post oak, 74
Post oak, swamp, 73
Pounds of water lost in drying 100 lb. green wood in the kiln, 179
Powder post borers, 105
Preliminary steaming of gum, 182
Preliminary treatments, 151
Pressure and vacuum, drying under, 146
Pressure, drying at atmospheric, 146
Prevent injury from insects, how to, 107
Prevention of checking and splitting, 129
Principles of kiln-drying, underlying, 166
Problems in kiln-drying, unsolved, 143
Products, crude, 106
Products in the rough, seasoned, 112
Products in the rough, unseasoned, 109
Progressive dry kiln, the, 196
Properties, characteristics and, 1
Properties of wood, 4
Properties of wood that affect drying, 141
Properties that influence drying, physical, 125
Puget Sound pine, 29
Pumpkin pine, 23, 24
Punk oak, 73
Pussy willow, 84
Quaking Aspen, 79
Range of Red Gum, 55
Range of tupelo gum, 61
Rapidity of evaporation, 124
Recording hygrometer, the, 242
Recording steam gauge, the, 246
Recording thermometer, the, 245
Records of the moisture content, keep, 249
Red ash, 38
Red beech, 40
Red birch, 43
Red cedar, 18, 19
Red cedar of the West, 17
Red cherry, 47
Red cherry, wild, 47
Red cypress, 19
Red elm, 51
Red fir, 21, 29
Red gum, 54, 79
Red gum, demands upon soil and moisture of, 56
Red gum, form of the, 55
Red gum, kiln-drying of green, 183
Red gum, range of, 55
Red gum, reproduction of, 57
Red gum, second-growth, 59
Red gum, tolerance of, 56
Red juniper, 18
Red maple, 69
Red mulberry, 70
Red oak, 74, 75
Red pine, 29
Red pine, American, 25
Red spruce, 28
Redwood, 19, 27
Redwood, California, 19
Redwood, Coast, 19
Registering hygrometer, the, 244
Registering thermometer, the, 246
Rendering drying difficult, changes, 140
Reproduction of red gum, 57
Requirements in a satisfactory dry kiln, 160
Ring, the annual or yearly, 10
River birch, 43
Rock chestnut oak, 73
Rock elm, 50
Rock maple, 68
Rock oak, 73
Rosemary pine, 25
Rough, seasoned products in the, 112
Rough, unseasoned products in the, 109
Round-headed borers, 101
Round timber with bark on, 106
Rum cherry, 47
Samples for Scalometer Test, 248
Sand bar willow, 84
Sap and heartwood, 8
Sap, composition of, 116
Saplings, 108
Sap pine, 25
Sassafras, 80
Satin walnut, 54
Satisfactory dry kiln, requirements in a, 160
Saturation point in wood, fibre, 118
Sawmills, scalometer in, 249
Savin juniper, 18
Scalometer in factories, 249
Scalometer in sawmills, 249
Scalometer, test samples for, 248
Scalometer, the troemroid, 247
Scalometer, weighing with, 248
Scalybark hickory, 64
Scarlet oak, 75
Scrub chestnut oak, 74
Scrub oak, 74
Scrub pine, 27
Seasonal distribution of water in wood, 115
Seasoned and unseasoned wood, difference between, 121
Seasoned, how wood is, 145
Seasoned products in the rough, 112
Seasoning, advantages in, 128
Seasoning is, what, 119
Seasoning, out-of-door, 154
Second-growth red gum, 59
Sequoia, 19
Service kiln, theory and description of forest, 161
Shagbark hickory, 64
Shellbark hickory, 64
Shingle, heading and stave bolts, 109
Shingle oak, 75
Shining willow, 84
Short-leaf pine, 26
Short-straw pine, 25
Shrinkage of wood, 130
Shucks, honey, 66
Sitka spruce, 28
Silver birch, 42
Silver-leaved maple, 69
Silver maple, 69
Slash pine, 25, 26
Slippery elm, 51
Small-leaved basswood, 39
Small magnolia, 67
Soft maple, 69
Soft pine, 23, 24
Soil and moisture, demands upon, 56
Sorrel-tree, 80
Sound pine, Puget, 29
Sour gum, 62, 80
Sourwood, 80
Southern hard pine, 24
Southern pine, 24
Spanish oak, 75
Spanish oak, swamp, 73
Specialties, dry-kiln, 206
Species, different kiln-drying according to, 170
Species, temperature depends upon condition and, 171
Species, weight of kiln-dried wood of different, 95
Spindle tree, 82
Splitting, prevention of checking and, 129
Spring and summer-wood, 12
Spruce, 27
Spruce, bastard, 29
Spruce, black, 27
Spruce, Douglas, 29
Spruce, hemlock, 21
Spruce pine, 26
Spruce, red, 28
Spruce, Sitka, 28
Spruce, tide-land, 28
Spruce, white, 28
Stain and mildew, elimination of, 136
Stave, heading and shingle bolts, 109
Staves and heads of barrels containing alcoholic liquids, 112
Steam, drying by superheated, 150
Steam gauge, the recording, 246
Steaming of gum, preliminary, 182
Steaming of gum, final, 182
Stock and wooden truss hoops, dry cooperage, 112
Straw pine, long, 24
Straw pine, short, 25
Striped maple, 70
Structure, anatomical, 14
Structure, minute, 34
Structure of wood, 4
Stump tree, 49
Success in kiln-drying, conditions of, 169
Sugar berry, 62
Sugar maple, 68
Sugar pine, 24
Summerwood, spring and, 12
Superheated steam, drying by, 150
Swamp cottonwood, 78
Swamp hickory, 64
Swamp magnolia, 67
Swamp maple, 69
Swamp pine, 26
Swamp poplar, 60
Swamp post oak, 73
Swamp Spanish oak, 73
Swamp white oak, 72, 73
Sweet bay, 67
Sweet buckeye, 45
Sweet birch, 41
Sweet gum, 54, 80
Sweet locust, 66
Switchbud hickory, 64
Sycamore, 80, 81
Tacmahac, 79
Tamarack, 22, 27, 29
Temperature depends upon conditions and species, 171
Test samples for scalometer, 248
Theory and description of the forest service kiln, 161
Theory of kiln-drying, 157
Thermometer, the recording, 245
Thermometer, the registering, 246
Thorned acacia, three, 66
Three-thorned acacia, 66
Tide-land spruce, 28
Timber, 1
Timber beetles, ambrosia or, 99
Timber with bark on, round, 106
Timber worms, 103
Tolerance of red gum, 56
Toothed aspen, large-, 79
Torch pine, 26
Tower dry kiln, the, 202
Treatments, preliminary, 151
Tree, abele, 79
Tree, bee, 39
Tree, button ball, 80
Tree, coffee, 49
Tree, cucumber, 49, 67
Tree, fir, 20
Tree, lime, 39
Tree, nettle, 62
Tree of life, 17
Tree, plane, 80
Trees, broad-leaved, 31
Trees, classes of, 5
Trees, coniferous, 8
Trees, list of important coniferous, 17
Trees, list of most important broad-leaved, 37
Tree, sorrel, 80
Tree, spindle, 82
Tree, stump, 49
Trees, wood of broad-leaved, 31
Trees, wood of the coniferous, 8
Tree, tulip, 81
Tree, umbrella, 67
Troemroid Scalometer, the, 247
Truss hoops, dry cooperage stock and, 112
Tulip tree, 81
Tulip wood, 67, 81
Tupelo, 82
Tupelo gum, 60
Tupelo gum, range of, 61
Tupelo gum, uses of, 61
Types of dry kilns, different, 185
Types of kiln doors, different, 231
Types, kilns of different, 196
Umbrella Tree, 67
Underlying principles of kiln-drying, 166
Unseasoned products in the rough, 109
Unseasoned wood, difference between seasoned and, 121
Unsolved problems in kiln-drying, 143
Uses of the humidity diagram, 237
Uses of tupelo gum, 61
Vacuum, Drying under Pressure and, 146
Valparaiso oak, 76
Virgilia, 85
Wahoo, 51, 82
Walnut, 45, 82
Walnut, black, 44, 82
Walnut, circassian, 60
Walnut, satin, 54
Walnut, white, 45, 83
Water beech, 44, 80
Water by dry wood, absorption of, 124
Water elm, 50
Water in wood, 114
Water in wood, distribution of, 114
Water in wood, local distribution of, 114
Water in wood, seasonal distribution of, 115
Water lost in drying 100 lb. of green wood in the kiln, pounds of, 179
Water, manner of evaporation of, 123
Water maple, 69
Water oak, 73
Weeping willow, 84
Weighing with scalometer, 248
Weight, and figure in wood, grain, color, odor, 86
Weight of kiln-dried wood of different species, 95
Weight of wood, 91
Western larch, 22
Western pine, 25
Western white oak, 71
Western white pine, 25
Western yellow pine, 25
West, red cedar of the, 17
Weymouth pine, 23
What seasoning is, 119
White ash, 37
White basswood, 39
White beech, 40
White birch, 42, 43
White cedar, 17, 18
White cypress, 19
White elm, 50
White fir, 20, 21
White heart hickory, 64
White mahogany, 45
White maple, 69
White oak, 71, 72
White oak, swamp, 72, 73
White oak, western, 71
White pine, 23, 24
White pine, California, 25
White pine, western, 25
White poplar, 79, 81
White spruce, 28
White walnut, 45, 83
White willow, 83
Whitewood, 39, 81, 83
Wild apple, 49
Wild cherry, 47
Wild red cherry, 47
Willow, 83
Willow, almond-leaf, 84
Willow, bebb, 84
Willow, black, 83
Willow, blue, 83
Willow, crack, 84
Willow, glaucous, 84
Willow, long-leaf, 84
Willow, oak, 72
Willow, perch, 84
Willow, pussy, 84
Willow, sand bar, 84
Willow, shining, 84
Willow, weeping, 84
Willow, white, 83
Willow, yellow, 83
Winged elm, 51
Wintergreen birch, 41
Wood, absorption of water by dry, 124
Wood, beaver, 67
Wood, canary, 81
Wood, characteristics and properties of, 1
Wood, color and odor of, 89
Wood, different grains of, 86
Wood, difference between seasoned and unseasoned, 121
Wood, difficulties of drying, 138
Wood, distribution of water in, 114
Wood, effects of moisture on, 117
Wood, enemies of, 98
Wood, expansion of, 135
Wood, figure in, 96
Wood, grain, color, odor, weight, and figure in, 86
Wood, how seasoned, 145
Wood in the kiln, pounds of water lost in drying 100 lb. of green, 179
Wood, iron, 65
Wood, kiln-drying of, 156
Wood, lever, 65
Wood, local distribution of water in, 114
Wood, moose, 70
Wood, of broad-leaves trees, 31
Wood of different species, weight of kiln-dried, 95
Wood of coniferous trees, 8
Wood, physical conditions governing the drying of, 156
Wood, properties of, 4
Wood, seasonal distribution of water in, 115
Wood, shrinkage of, 130
Woods, list of important coniferous, 17
Wood, spring and summer, 12
Wood, structure of, 4
Wood that effect drying, properties of, 141
Wood, the fibre saturation point in, 118
Wood, tulip, 67, 81
Wood, water in, 114
Wood, weight of, 89
Wood, white, 81, 83
Wood, yellow, 85
Wooden truss hoops, dry cooperage, stock and, 112
Worms, timber, 103
Yearly Ring, the Annual of, 10
Yellow birch, 42
Yellow cedar, 18
Yellow deal, 23
Yellow fir, 29
Yellow locust, 66
Yellow oak, 73, 74
Yellow pine, 24, 25, 26
Yellow pine, western, 25
Yellow poplar, 81
Yellow willow, 83
Yellow wood, 85
Yew, 29, 30
D. VAN NOSTRAND COMPANY 25 PARK PLACE NEW YORK
SHORT-TITLE CATALOG OF Publications and Importations OF SCIENTIFIC AND ENGINEERING BOOKS
This list includes the technical publications of the following English publishers:
SCOTT, GREENWOOD & CO. JAMES MUNRO & CO., Ltd. CONSTABLE & COMPANY, Ltd. TECHNICAL PUBLISHING CO. ELECTRICIAN PRINTING & PUBLISHING CO.
for whom D. Van Nostrand Company are American agents.
JULY, 1917
SHORT-TITLE CATALOG OF THE Publications and Importations OF D. VAN NOSTRAND COMPANY 25 PARK PLACE, N. Y.
Prices marked with an asterisk (*) are NET.
All bindings are in cloth unless otherwise noted.
Abbott, A. V. The Electrical Transmission of Energy 8vo, *$5 00
—— A Treatise on Fuel. (Science Series No. 9) 16mo, 0 50
—— Testing Machines. (Science Series No. 74.) 16mo, 0 50
Adam, P. Practical Bookbinding. Trans. by T. E. Maw 12mo, *2 50
Adams, H. Theory and Practice in Designing 8vo, *2 50
Adams, H. C. Sewage of Sea Coast Towns 8vo, *2 00
Adams, J. W. Sewers and Drains for Populous Districts 8vo, 2 50
Adler, A. A. Theory of Engineering Drawing 8vo, *2 00
—— Principles of Parallel Projecting-line Drawing 8vo, *1 00
Aikman, C. M. Manures and the Principles of Manuring 8vo, 2 50
Aitken, W. Manual of the Telephone 8vo, *8 00
d'Albe, E. E. F., Contemporary Chemistry 12mo, *1 25
Alexander, J. H. Elementary Electrical Engineering 12mo, 2 00
Allan, W. Strength of Beams Under Transverse Loads. (Science Series No. 19.) 16mo, 0 50
—— Theory of Arches. (Science Series No. 11) 16mo,
Allen, H. Modern Power Gas Producer Practice and Applications. 12mo, *2 50
Anderson, J. W. Prospector's Handbook 12mo, 1 50
Andes, L. Vegetable Fats and Oils 8vo, *4 00
—— Animal Fats and Oils. Trans. by C. Salter 8vo, *4 00
—— Drying Oils, Boiled Oil, and Solid and Liquid Driers 8vo, *5 00
—— Iron Corrosion, Anti-fouling and Anti-corrosive Paints. Trans. by C. Salter 8vo, *4 00
—— Oil Colors, and Printers' Ink. Trans. by A. Morris and H. Robson 8vo, *2 50
—— Treatment of Paper for Special Purposes. Trans. by C. Salter 12mo, *2 50
Andrews, E. S. Reinforced Concrete Construction 12mo, *1 50
—— Theory and Design of Structures 8vo, *3 50
—— Further Problems in the Theory and Design of Structures 8vo, *2 50
—— The Strength of Materials 8vo, *4 00
Andrews, E. S., and Heywood, H. B. The Calculus for Engineers. 12mo, *1 50
Annual Reports on the Progress of Chemistry. Twelve Volumes now ready. Vol. I., 1904, Vol. XII., 1914 8vo, each, *2 00
Argand, M. Imaginary Quantities. Translated from the French by A. S. Hardy. (Science Series No. 52.) 16mo, 0 50
Armstrong, R., and Idell, F. E. Chimneys for Furnaces and Steam Boilers. (Science Series No. 1.) 16mo, 0 50
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Asch, W., and Asch, D. The Silicates in Chemistry and Commerce 8vo, *6 00
Ashe, S. W., and Kelley, J. D. Electric Railways. Theoretically and Practically Treated. Vol. I. Rolling Stock 12mo, *2 50
Ashe, S. W. Electric Railways. Vol. II. Engineering Preliminaries and Direct Current Sub-Stations 12mo, *2 50
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Atkinson, P. The Elements of Electric Lighting 12mo, 1 00
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Austin and Cohn. Pocketbook of Radiotelegraphy (In Press.)
Ayrton, H. The Electric Arc 8vo, *5 00
Bacon, F. W. Treatise on the Richards Steam-Engine Indicator 12mo, 1 00
Bailey, R. D. The Brewers' Analyst 8vo, *5 00
Baker, A. L. Quaternions 8vo, *1 25
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Baker, G. S. Ship Form, Resistance and Screw Propulsion 8vo, *4 50
Baker, I. O. Levelling. (Science Series No. 91.) 16mo, 0 50
Baker, M. N. Potable Water. (Science Series No. 61.) 16mo, 0 50
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Baker, T. T. Telegraphic Transmission of Photographs 12mo, *1 25
Bale, G. R. Modern Iron Foundry Practice. Two Volumes. 12mo. Vol. I. Foundry Equipment, Materials Used *2 50 Vol. II. Machine Moulding and Moulding Machines *1 50
Ball, J. W. Concrete Structures in Railways 8vo, *2 50
Ball, R. S. Popular Guide to the Heavens 8vo, *5 00
—— Natural Sources of Power. (Westminster Series.) 8vo, *2 00
Ball, W. V. Law Affecting Engineers 8vo, *3 50
Bankson, Lloyd. Slide Valve Diagrams. (Science Series No. 108.). 16mo, 0 50
Barham, G. B. Development of the Incandescent Electric Lamp 8vo, *2 00
Barker, A. F. Textiles and Their Manufacture. (Westminster Series.) 8vo, 2 00
Barker, A. F., and Midgley, E. Analysis of Textile Fabrics 8vo, 3 00
Barker, A. H. Graphic Methods of Engine Design 12mo, *1 50
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Barnard, J. H. The Naval Militiaman's Guide 16mo, leather, 1 00
Barnard, Major J. G. Rotary Motion. (Science Series No. 90.) 16mo, 0 50
Barnes, J. B. Elements of Military Sketching 16mo, *0 60
Barrus, G. H. Engine Tests 8vo, *4 00
Barwise, S. The Purification of Sewage 12mo, 3 50
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Bates, E. L., and Charlesworth, F. Practical Mathematics and Geometry 12mo, Part I. Preliminary and Elementary Course *1 50 Part II. Advanced Course *1 50
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