British Airships, Past, Present, and Future - BestLightNovel.com
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At the close of the nineteenth century Santos-Dumont turned his attention to airs.h.i.+ps. The experiments which he carried out marked a new epoch and there arose the nucleus of the airs.h.i.+p as we know it to-day. Between the years 1898 and 1905 he had in all built fourteen airs.h.i.+ps, and they were continually improved as each succeeding one made its appearance. In the last one he made a circular flight; starting from the aerodrome of the aero club, he flew round the Eiffel Tower and back to the starting point in thirty-one minutes on October 19th, 1902. For this feat the Deutsch prize was awarded to him.
The envelopes he used were in design much nearer approach to a streamline form than those previously adopted, but tapered to an extremely fine point both at the both and stem. For rigging he employed a long nacelle, in the centre of which was supported the car, and unusually long suspensions distributed the weight throughout practically the entire length of the envelope. To the name of Santos-Dumont much credit is due. He may be regarded as the originator of the airs.h.i.+p for pleasure purposes, and by his success did much to popularize them. He also was responsible to a large extent for the development and expansion of the airs.h.i.+p industry in Paris.
At a little later date, in 1902 to be precise, the Lebaudy brothers, in conjunction with Julliot, an engineer, and Surcoup, an aeronaut, commenced building an airs.h.i.+p of a new type. This s.h.i.+p was a semirigid and was of a new shape, the envelope resembling in external appearance a cigar. In length it was 178 feet with a diameter of 30 feet and the total capacity was 64,800 cubic feet. This envelope was attached to a rigid elliptical keel-shaped girder made of steel tubes, which was about a third of the length of the s.h.i.+p. The girder was covered with a s.h.i.+rting and intended to prevent the s.h.i.+p pitching and rolling while in flight. A horizontal rudder was attached to the under side of this girder, while right aft a large vertical rudder was fixed.
A small car was suspended by steel rods at a distance of 17 feet 9 inches from the girder, with a framework built up underneath to absorb the shock on landing.
A 35 horse-power Daimler-Mercedes motor, weighing some 800 lb. without cooling water and fuel, drove two twin-bladed propellers on either side of the car.
In the year 1903 a number of experimental flights were made with this s.h.i.+p and various details in the construction were continually introduced. The longest flight was 2 hours 46 minutes. Towards the end of that year, while a voyage was being made from Paris to Chalais Meudon, the airs.h.i.+p came in contact with a tree and the envelope was badly torn.
In the following year it was rebuilt, and the volume was slightly increased with fixed and movable planes added to increase the stability. After several trips had been made, the airs.h.i.+p again on landing came in contact with a tree and was burst.
The s.h.i.+p was rebuilt and after carrying out trials was purchased by the French Army. The Lebaudy airs.h.i.+p had at that time been a distinct success, and in 1910 one was purchased for the British Government by the readers of the Morning Post.
In the ten-ton Lebaudy the length of the keel framework was greatly extended, and ran for very nearly the full length of the envelope. The disadvantage of this s.h.i.+p was its slowness, considering its size and power, and was due to the enormous resistance offered by the framework and rigging.
Airs.h.i.+ps known as the "Clement-Bayard" were also built about this time.
They were manufactured by the Astra Company in conjunction with Monsieur Clement, a motor engineer.
In later days vessels were built by the Astra Company of the peculiar design introduced by Senor Torres. These s.h.i.+ps, some of which were of considerable size, were highly successful, and we became purchasers at a later date of several.
The Zodiac Company also constructed a number of small s.h.i.+ps which were utilized during the war for anti-submarine patrol. It cannot be said, however, that the French have fulfilled their early promise as airs.h.i.+p designers, the chief reason for this being that the airs.h.i.+p is peculiarly suitable for work at sea and the French relied on us to maintain the commerce routes on the high seas and concentrated their main efforts on defeating the Germans in the field, in which as all the world acknowledges they were singularly successful and hold us under an eternal obligation.
GERMANY
The progress and development of the airs.h.i.+p in Germany must now be considered; it will be seen that, although the production of satisfactory s.h.i.+ps was in very few hands, considerable success attended their efforts in the early days of the twentieth century.
In 1812, Leppig built an airs.h.i.+p at the cost of the State at Woronzowo in Russia. This was of the shape of a fish with a rigid framework beginning at the height of the longitudinal axis.
The lower keel-shaped part of the same formed the car. Two fans were attached to the sides and a tail piece was provided behind to act as a rudder. The s.h.i.+p was inflated, but structural damage occurred during this operation and rendered it incapable of flight.
In 1836, Georg Rebenstein, of Nurnburg, was considering the use of the fall of inclined planes to obtain horizontal motion.
Nothing of importance was produced until a much later date, when in 1885 M. Wolf constructed an envelope of 26,500 cubic feet. An engine and propeller were fixed in a triangular framework in front of the airs.h.i.+p, supported by the steam pipe of a steam engine fixed under the body of the envelope. The framework lacked rigidity, and the envelope tore during inflation and the airs.h.i.+p failed to ascend.
In the following year Dr. Woelfert, of Berlin, produced a cigar-shaped envelope, to which was attached rigidly a long bamboo framework containing the car. An 8 horse-power benzine Daimler motor drove a twin-bladed aluminium propeller, and another propeller for vertical movement was provided beneath the car. Four trial flights were attempted, but on each occasion the motor gave unsatisfactory results, and Woelfert sought to improve it with a benzine vaporizer of his own pattern. This improvement was not a success, as during the last flight an explosion took place and both Woelfert and an aeronaut named Knabe, who was accompanying him, were killed.
In 1906, Major von Pa.r.s.eval experimented, in Berlin, with a non-rigid type of airs.h.i.+p. His first s.h.i.+p had a volume of 65,200 cubic feet, but owing to his system of suspensions, the car hung 27 feet 6 inches below the envelope. A Daimler engine was used, driving a four-bladed propeller. Owing to the great overall height of this s.h.i.+p, experiments were made to determine a system of rigging, enabling the car to be slung closer to the envelope, and in later types the elliptical rigging girdle was adopted. His later s.h.i.+ps were of large dimensions and proved very satisfactory. About the same time Major Gross also built airs.h.i.+ps for the German aeronautical battalion.
It is, however, the rigid airs.h.i.+p that has made Germany famous, and we must now glance at the evolution of these s.h.i.+ps with which we became so familiar during the war.
The first rigid airs.h.i.+p bearing any resemblance to those of the present day was designed by David Schwartz, and was built in St. Petersburg in 1893. It was composed of aluminium plates riveted to an aluminium framework. On inflation, the frame-work collapsed and the s.h.i.+p was unusable.
In 1895 he designed a second rigid airs.h.i.+p, which was built in Berlin by Messrs. Weisspfennig and Watzesch. The hull framework was composed of aluminium and was 155 feet long, elliptical in cross section, giving a volume of 130,500 cubic feet. It was pointed in front and rounded off aft. The car, also constructed of the same material, was rigidly attached to the hull by a lattice framework, and the whole hull structure was covered in with aluminium sheeting. A 12 horse-power Daimler benzine motor was installed in the car, driving through the medium of a belt twin aluminium screw propellers; no rudders were supplied, the steering being arranged by means of a steering screw placed centrally to the s.h.i.+p above the top of the car. Inflation took place at the end of 1897 by a method of pressing out air-filled fabric cells which were previously introduced into the hull. This operation took three and a half hours. On the day of the first flight trials there was a fresh wind of about 17 miles per hour. The airs.h.i.+p ascended into the air, but, apparently, could make little headway against the wind. During the trip the driving-belt became disengaged from the propellers and the s.h.i.+p drifted at the mercy of the wind, but sustained little damage on landing. After being deflated, the hull began to break up under the pressure of the wind and was completely destroyed by the vandalism of the spectators.
In 1898 Graf F. von Zeppelin, inspired by the example of Schwartz, and a.s.sisted by the engineers Kober and Kubler, conceived the idea of constructing a rigid airs.h.i.+p of considerable dimensions. For this purpose a floating shed was built on Lake Constance, near to Friedrichshafen. The hull was built of aluminium lattice-work girders, and had the form of a prism of twenty-four surfaces with arch-shaped ends. In length it was 420 feet, with a diameter of 38 feet 6 inches, and its capacity was 400,000 cubic feet. The longitudinal framework was divided by a series of rings, called transverse frames, into seventeen compartments containing fabric gasbags. The transverse frames were fitted with steel wire bracings, both radial and chord, and to strengthen the whole a triangular aluminium keel of lattice work was used. A vertical and horizontal rudder were fitted to the forward portion of the s.h.i.+p, and aft another vertical rudder. The whole exterior of the s.h.i.+p was fitted with a fabric outer cover.
Two aluminium cars, each about 20 feet long, were rigidly attached to the framework of the hull. Each car was furnished with a 16 horse-power Daimler engine, driving two four-bladed screw propellers of aluminium sheeting. These propellers were situated on the side of the hull at the centre of resistance. The transmission was supplied by steel tubes with universal cross joints through the medium of bevel gears. Reversible driving arrangements were installed in the cars in order that the s.h.i.+p could be driven backwards and forwards. Electric bells, telegraphs, and speaking tubes were also fitted, and it can be seen that for general arrangements this airs.h.i.+p was a long way ahead of any built at that date.
The first flight was made on July 2nd, 1900. The s.h.i.+p attained a speed of 17 per hour, and the numerous technical details stood the tests well. The stability was considered sufficient, and the height of flight could be altered by the horizontal rudder. The landing on the water was accomplished without difficulty, and could be regarded as free from danger. The faults requiring remedy were, firstly, the upper cross stays, which buckled in flight owing to insufficient strength for the length of the hull; secondly, the gasbags were not sufficiently gastight and, thirdly, the power of the engines were not sufficient for such a heavy s.h.i.+p.
This airs.h.i.+p was broken up in 1902.
In 1905 the second s.h.i.+p of the series was completed. She was of nearly the same size as the previous s.h.i.+p, but the workmans.h.i.+p was much superior. Increased engine-power was also supplied, as in this instance two 85 horse-power Mercedes engines were fitted. This s.h.i.+p was destroyed by a storm while landing during the next year.
The third s.h.i.+p, which was completed in 1906, was the first Zeppelin airs.h.i.+p acquired by the Government, and lasted for a considerable time, being rebuilt twice, first in 1908 and again in 1911. She was slightly larger than the previous two.
The building was continued, and up to the outbreak of war no fewer than twenty-five had been completed. It is impossible, in the s.p.a.ce at our disposal, to trace the career of all of them. Several came to an untimely end, but as the years went by each succeeding s.h.i.+p proved more efficient, and the first s.h.i.+p which was delivered to the Navy performed the notable flight of thirty-one hours.
To revert, for a moment, once more to the earlier s.h.i.+ps--the fourth was wrecked and burned at Echterdingen in the same year in which she was completed. The fifth, which was the second military airs.h.i.+p, was fitted with two 110 horse-power engines and also came to a tragic end, being destroyed by wind at Weilberg in 1910, and the following s.h.i.+p was burnt at Baden in the same year.
The seventh s.h.i.+p was the first pa.s.senger airs.h.i.+p of the series, and was known as the Deutschland. By this time the capacity had increased to 536,000 cubic feet, and she was propelled by three 120 horse-power engines. She also fell a victim to the wind, and was wrecked in the Teutoberg Forest in 1910; and yet another was destroyed in the following year at Dusseldorf.
The tenth s.h.i.+p to be completed was the pa.s.senger s.h.i.+p Schwaben; her capacity was 636,500 cubic feet, and she had three 150 horse-power engines. This s.h.i.+p carried out her first flight in June, 1911, and was followed four months later by the Victoria Luise. The fourth pa.s.senger airs.h.i.+p was known as the Hansa. These three s.h.i.+ps were all in commission at the outbreak of war.
The first naval airs.h.i.+p, L 1, mentioned above, was larger than any of these. The total length was 525 feet, diameter 50 feet, and cubic contents 776,000 cubic feet. Her hull framework in section formed a regular polygon of seventeen sides, and was built up of triangular aluminium girders. The gasbags were eighteen in number. This s.h.i.+p was fitted with three 170 horse-power Maybach engines, which were disposed as follows--one in the forward car, driving two two-bladed propellers; two in the after car, each driving a single four-bladed propeller. For steering purposes she had six vertical and eight horizontal planes.
The total lift was 27 tons, with a disposable lift of 7 tons. Her speed was about 50 miles per hour, and she could carry fuel for about 48 hours. Her normal crew consisted of fourteen persons, including officers.
It will probably be remembered that the military Zeppelin Z III was compelled to make a forced landing in France. This s.h.i.+p was of similar construction to L 1, but of smaller volume, her capacity being 620,000 cubic feet. A trial flight was being carried out, and while above the clouds the crew lost their bearings. Descending they saw some French troops and rose again immediately. After flying for four hours they thought they must be safely over the frontier and, running short of petrol, made a landing--not knowing that they were still in France until too late. The airs.h.i.+p was taken over by the French authorities.
Until the year 1916 the Zeppelin may be considered to have pa.s.sed through three stages of design. Of the twenty-five s.h.i.+ps constructed before the war, twenty-four were of the first type and one of the second. Each type possessed certain salient features, which, for simplicity, will be set out in the form of a tabulated statement, and may be useful for comparison when our own rigid airs.h.i.+ps are reviewed.
Stage 1.
Long parallel portion of hull with bluff nose and tail.
External keel with walking way.
Box rudders and elevators.
Two cars.
Four wing propellers.
Stage 2.
Long parallel portion of hull with bluff nose, tail portion finer than in Stage I Internal keel walking way.
Box rudders and elevators.
Three cars, foremost for control only.
Four wing propellers.
Stage 3.
Shorter parallel portion of hull framework, bluff nose and tapering tail.
Internal keel walking way.
Balanced monoplane rudders and elevators.
Three cars, foremost for control only.
Two foremost cars close together and connected by a canvas joint to look like one car.
Four engines and four propellers. One engine in forward car driving pusher propeller. Three engines in after car driving two wing and one pusher propeller.
To the second stage belongs naval airs.h.i.+p L 2, which was destroyed by fire a month after completion in 1913. In 1916 a fourth stage made its appearance, of which the first s.h.i.+p was L 30, completed in May, and to which the ill-fated L 33 belonged. This type is known as the super-Zeppelin, and has been developed through various stage until L 70, the latest product before the armistice. In this stage the following are its main features:
Stage 4.