I think this bird is one of the coolest looking aircraft ever designed. It could have been featured in the movie "Dune".
The following articles are from Flight Magazine.
RARELY in the history of flying has a machine so
captured the imagination as has the large
Dornier flying ship, the " Do. X." The size is
beyond anything previously accomplished;
the lines of the machine are unusual; and the
power plant arrangements n o v e l .
Ground enough surely, for being intrigued,
and for wishing " to know all about it."
FLIGHT has published illustrations of
the Do. X on more than one occasion, and has commented
editorially on its main features. Hitherto, however, the
necessary authentic data have not been forthcoming, in
the absence of which it has been a little difficult to form a
rrue picture of what the Do. X is, and what it really means.
We have now received from Dornier Metallbauten of
Friedrichshafen on Lake Constance, a small booklet in which
is set forth an account of the underlying ideas of the Dornier
engineers in producing this machine, details given of the
construction, and accurate data supplied concerning such
items as dimensions and areas, weight, performance, etc.
Thus we feel that we are better equipped to deal with what
is the most interesting design of modern times, and that
FLIGHT readers will not mind—in fact, will wish us to—if we
return once more to the subject of the Do. X.
Dr. Claudius Dornier, like Dr. Rohrbach, began his
aeronautical career with the Zeppelin company, and during
the early days, when Rohrbach and Baumann were designing
the large four-engined Zeppelin Staaken monoplane which,
as a result of gross stupidity, was later destroyed because
of certain clauses in the Treaty of Versailles, Dr. Dornier
began to occupy himself with the subject of seaplanes and
flying-boats. He produced, first as chief designer at the
Zeppelin Lindau works and later as head of his own
company, a series of flying-boats, the earlier types of which
those sufficiently interested may find described in FLIGHT
of December 16' and 23, 1920.
Quite early in his career Dr. Dornier adopted short wing
stumps springing from the sides of the boat hull for obtaining
lateral stability on the water. In one early example, theDo. Rs. II, these stumps were braced by struts from below,
and they must have caused the machine to be very " dirty "
on the water. In those early days, too, the tail surfaces
were carried either on boom outriggers or on a fuselage
placed high above the hull. In the Gs. I, produced in 1919,
Herr Dornier for the first time carried his tail surfaces on
the main hull, which was extended right aft instead of the
rather short sort of " Bat boat " hull which he had previously
favoured. In the Do. Gs. I the wing stumps had become
pure cantilever members ; and, furthermore, the main
wing lift struts were anchored to the tips of the stumps.
The power plant consisted of two water-cooled engines in
tandem, placed above the monoplane wing. From this
machine developed as a logical outcome the Dornier Gs. II,
the Wai, and the Superwal, gradually increasing in size
and power, but retaining all the fundamental features of
the Gs. I. From that machine, therefore, may be said
to date Dr. Dornier's real programme of flying-boat development,
and the Gs. I is the ancestor of the long series of boats
which has now culminated in the production of the Do. X.
No other flying-boat designer in the world has had the
opportunities of Dornier, who, already during the war,
was not expected to turn out military aircraft which must
be immediately successful, but who was given more or less
a free hand to prepare for the future by evolving commercial
We have dealt with this phase of Dr. Dornier's work
at some length, because only if on,e knows something of his
earlier history can one obtain the correct perspective for
judging his latest work. We believe we are correct in stating
that altogether Dr. Dornier has produced no less than
28 types (not all flying-boats).
Before the actual work of designing the Do. X could be
started, a large number of theoretical and scientific investigations
had to be made because, although it was not desired
to introduce any unknown features where it could be avoided,
the very size of the projected machine called for much work
in determining the most economical type of structural
members, and so forth. This preliminary work was begun
in 1924. In December, 1927, actual construction was
commenced in the new works at Altenrhein. The first test
flight was made on July 12, 1929.
The Do. X is a semi-cantilever monoplane flying-boat,
with the engines placed above the main wing, in six tandem
pairs, and a small auxiliary wing joining them. A good
deal of speculation concerning this wing has occupied those
interested in the Do. X, and it has even been claimed that
by fitting it Herr Dornier has obtained a " sort of slot
effect" and greater lift. We could never, personally, see ,•
any reason for this supposition, and the booklet sent us
by the Dornier company makes it quite clear that the
auxiliary wing is a structural member first and foremost,
serving to steady the engine mountings laterally.
The boat hull is of fairly normal Dornier design as
regards its external shape. Minor differences are formed
on the one hand by the control cabin, which projects
above the main deck and may be expected slightly to
increase the drag, and on the other hand by a rounding of
the stumps into the hull, which may slightly reduce
the drag. The control surfaces are fairly normal and
are all balanced by secondary surfaces. As regards the aerodynamic
efficiency of the Do. X, the aspect ratio (if
one may be so old-fashioned as to use this expression) is
low (about 5) and the s-pan loading is very high. This is,
of course, merely another way of saying that the
induced drag is high. To that the designers of the
Do. X would probably reply that this is not of serious
consequence, as the machine has a small speed range and a
high take-off speed.
If one now turns to the—in this particular instance,
perhaps, more important—question of minimum drag
coefficient, it is of considerable interest to find that this is
rather surprisingly low for a multi-engined machine. For
example, at the normal gross weight of 46 metric tons
(101,200 lbs.) the wing loading is 19-3 lbs./sq. ft. Assuming
the engines to develop a normal output of 500 h.p. each, the
total power is 6,000 b.h.p. and the power loading is 16-88
lbs.,'h.p. The " wing power " in that case is 12 -33 h.p./sq. m.
(1-15 h.p./sq. ft.). For a top speed of 130 m.p.h. this
corresponds to a " high-speed figure "• of 13, which would
appear to be as high as that attained by many smaller machines, even single-engined types. Doubtless the tandem
engine arrangement has resulted in the drag being quite
considerably lower than it would have been had the engines
been spread out.
The boat hull of the Do. X is, in its outward shape, very
similar to that of previous Dornier machines. The mam
step is placed rather farther aft than in British flying--
boat hulls, and is formed with fore-and-aft shallow
steps which gradually merge into the forward vee of the
bottom. The rear step does not, as in British practice,
extend laterally out to the, chines but is of narrower
beam than the main bottom, and is fairly deep. The Germans
term this form of step a " displacement step " (Verdriingungssporn),
presumably because it acts by displacement
rather than by dynamic pressure. From the main
step to the stern post the chine members are straight
and swept up at a fairly pronounced angle so as to get
the tail well clear of the water. Forward of the step the main
bottom becomes, as already indicated, of pronounced
V-form, to terminate finally in a straight raked stem.
The total length of the boat hull is 40-05 m. (131 ft. 6 in.)-
The beam, over the stumps, is 10 m. (32 ft. 10 in.), and the
maximum beam of the hull itself is 3-5 m. (11 ft. 6 in.)-
The greatest depth of hull is 6-4 m. (21 ft.), and the draught
empty is 0 -8 m. (2 ft. 8 in.). At a gross weight of 50 metric.
tons the draught is 1 -05 m. (3 ft. 5 in.), and the metacentric
height 4-58 m. (15 ft.). Inclusive of the stumps, the hull
has a volume of 400 cu. m. (141,200 cu. ft.), and in this
connection it is interesting to record that the hull weight has
been reduced in the Do. X to 21 kg./cn. m. (l-3 1b./cUj
ft.), whereas in the " Wai " it was 26-2 kg./cu. m. (1-6-3
lb./cu. ft.) and in the little " Libelle " it was as high as
29-9 kg./cu. m. (1-85 lb./cu. ft.).
The maximum cross sectional area of the hull,
exclusive of the stumps, is 17-21
(185 sq. ft.). There are in the hull 58 main frames, spaced
0-7 m. (2 ft. 4 in.) apart. An innovation in construction
as far as Dr. Dornier is concerned is the introduction oi a
deep keel girder which runs from the bows to the rear stepnd
has a length of 23 a.m.,(76 ft. 5 in.) and a greatest depth
.'if 1!12 m! (6 ft. 11 in.). This fore-and-aft girder stiffens
•he li«H v e r v considerably. Parallel with the keel girder,
im! spaced from it 0-9 m. and 1-58 m. (2 ft. 11 in. and
,S ft. 2 in.), are two keelsons on each side. These, with the
transverse frames and keel girder, form a very strong structure
and reduce the panels (themselves of heavy gauge) of
the bottom to squares of about 0-63 sq. m.2 (6-8 sq. ft.).
chief engineer's control station, wireless room and so forth.
The forward portion of this upper deck has windows along
the sides and rounded front, and is in fact, a sort of enclosed
" bridge " for the pilots and navigators. The other service
compartments, engineer's control station, wireless room,
auxiliary engine room, etc., are, however, inside the centre
of the wing, and have consequently no windows on the sides.
They extend aft as far as the trailing edge of the wing.
The large dimensions of the Do. X have allowed of an
internal arrangement unlike those of previous flying-boats,
and more resembling the lay-out on board a surface vessel.
Inc main deck is located some 4 ft. above the load water
'me, and forms the floor of the main accommodation for
passengers. Below this deck, the hull is divided by eight
watertight bulkheads into nine compartments. The side
stumps themselves (of a total volume of 43-5 cu. m. (1,550
cu- -t.)) are divided each into four watertight compartments,
sj' that altogether the hull would have to sustain very conquerable
damage before the machine is likely to sink, providing
the bulkheads do not give way. Below the main deck,
111 the watertight compartments, the main petrol tanks are
i "tinted, their number depending upon the length of route
over which the machine is to be operated.
The passengers'quarters are totally above the water line, and the construction
is such that the subdivision of them is reduced to a minimum,
watertight compartments finishing at the main deck.
Above the Passengers' quarters are the crew's quarters and g
Passengers' quarters are the crew's quarters, and
various service compartments, such as pilots' cabin
The wing, which has a span of 157 ft. 6 in., and a chord of
31 ft. 2 in., differs in construction from previous Dornier
types in that three main spars are employed, of which the
middle is situated at approximately the greatest depth of
the wing section. The front and rear spars are placed
9 ft. 2 in. from the middle spar. The spars are built up
of angle sections and laminated flange strips, the number
of laminations in the flanges being proportional to the stresses
from point to point. Box ribs are placed at distances of
from 2-8 to 3-6 m. (9 ft. 2 in. to 11 ft. 10 in.), and the
metal panels of the wing covering are riveted to them
and to the spar flanges. This metal covering extends outward
to the outer engine nacelles only, the wings from there to
the tips being covered with fabric. The maximum depth
of wing section is 1-28 m. (4 ft. 2 | in), and the result is
that almost every part of the internal wing structure can
be reached for inspection by a man crawling about inside.
Attachment of the wing to the hull is by a number of large
bolts, situated inside the covering and offering no extra
drag. The small auxiliary wing serves to brace
and steady the engine mountings, and it is
worth noting that it is so designed as to take
no part of the wing stresses. In fact, in
order to avoid the possibility of throwing
unexpected stresses on the main wing, the
auxiliary wing is arranged with flexible
joints between the outer engine nacelle and
the next, so that should the main wing
deflect under load, the auxiliary wing can
" give " to any extra loads.
The control surfaces are of fairly normal design, and are all provided with separate
surfaces acting as balances. The tail is of " sesquiplane " type in that there is a small tail plane resting direct on the stern portion of the hull, and a main tail plane higher up, braced to the lower and to the hull by struts. The rudder balances take the form of vertical surfaces placed between the top and bottom tail planes, as distinct from the horn balance or servo rudder used on large British flying-boats. ' The operation of the control surfaces is by steel rods, or tubes, suspended on pendulum cranks. Ballbearings are used throughout. Trimming of elevators and rudder is achieved by a setting of the separate balance surfaces, the angle of which in relation to the main surface which they balance being adjustable from the cockpit. This setting is reported to be very easy, i.e., to require but very small forces, and the machine is stated to be as easy on the controls as are smaller aircraft. The power plant consists of 12 Siemens- Jupiter engines, arranged in six tandem pairs. The large number of engines required forced, it is stated, this arrangement on the designers, and it is an arrangement the advantages and disadvantages of which are familiar to the Dornier designers from more than 10 years' experience.
The Dormer engineers argue that the use of
tandem engines almost reduces the number of separate
units to one-half, in that each tandem unit of two 9-cylinder engines is very little more complicated than one 18-cylinder engine, and is much more reliable in service. The drag of a tandem installation is, it is claimed, no greater than that of one larger engine, and the propeller diameter,
for same efficiency, is smaller. The Siemens-Jupiter engines of the Do. X are of the geared type, with 2 : 1 reductiongears. Great importance has been attached to accessibilityof the engines, and by mounting the nacelles on streamline
supports, all the engine nacelles can be reached from the
interior of the wing. Inspection doors in the covering of
the streamline supports give access to the interior of the
nacelles when the machine is at rest.
As already mentioned, the quantity of petrol carried will
depend upon the route operated. Normally, there are four
main tanks of 3,000 litres (660 gallons) xapacity each, resting
on the floor of the hull, and a further two tanks' of 1,700 litres
(374 gallons) each, also resting on the floor, but slightly
farther forward (see sectional side elevation). There are,
furthermore, two small tanks of 300 litres (66 gallons) each
housed in the leading edge of the wings, a total petrol capacity
(normal) of 16,000 litres (3,520 gallons). The main tanks
and leading edge tanks are connected to a collector (sammelioPf).
and the fuel is pumped from the main tanks to the
leading edge tanks. In order to avoid any possible breakdown
in the petrol system, no less than three separate pump
systems are provided : a windmill-driven pump, an electric
pump, and a hand pump. From the leading edge tanks, the
Petrol is pumped by A.M. pumps to the carburettors, surplus
Petrol draining back into the collector. Oil tanks of 100
litres (22 gallons) capacitj' are housed in the engine nacelles,
and there is a main oil tank of 1,000 litres (220 gallons) in
the " bilge."
-The engine controls of a multi-engined flying-boat like
the Do. X presented something of a problem. Obviously,
the pilot cannot himself attend to all the engines, their
controls, etc. On the other hand, it is essential that the
Pilot should have full control of all the available power,
with the arrangement selected, there is a main engine
control room, reigned over by the chief engineer, and in this
aiT concentrated the individual engine controls, engine
instruments, etc. To avoid confusion, all the controls and
instruments appertaining to the port engines are collected
°n the port side of the engine control room, and all those of
the starboard engines on the starboard side. From this
engine control room, two sets of engine controls are taken
to the cockpit, or rather pilots' control room. Thus the
pilot has but two engine controls, one of which operates the
6 port engines, and the other the 6 starboard. He also has
two revolution indicators, of which one shows the mean
revolutions of the six port engines, the other the mean
revolutions of the six starboard engines. If one of the
engines is disconnected from the pilot's engine controls, a
red lamp lights up, on port or starboard side, to let the pilot
know that he has not available the full power of all six engines
on that side. Starting of the engines is by means of compressed
air worked by an auxiliary engine in the main engine
control room. The average time for starting all 12 engines
is 4-5 mins. They have been started in 3 mins. It is reported
that the engine installation is remarkably free from vibration.
The arrangement of the passengers' accommodation will
depend upon the length of route and number of passengers
carried. Normally, comfortable accommodation cannot be
provided for more than 100 passengers, and it is pointed out
that when the machine is used for routes so short that the
pay load exceeds 10,000 kgs. (a passenger is taken to weigh,
with luggage, 100 kgs., i.e., 220 lbs.), the difference between
the weight of the 100 passengers and the lift available for pay
load will have to be made up of mails and/or freight. The
various cabins, etc., available for passengers, measure,
altogether, some 24 m. (78 ft. 9 in.) in length, and have an
average width of about 3 m. (10 ft.).
A chart has been prepared which indicates the distances
that can be traversed by the Do. X without refuelling, and
the number of passengers, or the weight of mails and goods
which can be transported over these distances. A few
representative distances have been drawn in to give a better
picture of what the various distances mean in practice. The
chart has been based upon a take-off gross weight of 45 tons
(100,000 lbs.), and in estimating the pay load available for
the various distances, ideal weather conditions have been
assumed, i.e., still air. By carrying the usual 30 per cent,
reserve of fuel, the take-off weight would be increased. Thus,
it is stated that with a 30 per cent, petrol reserve for a distance
of 1,800 kms. (1,120 miles), the take-off gross weight would
be increased to 49-5 tons (109,000 lbs.).
by E. C. Gordon England
Our contributor was one of the fortunate persons to make the journey from
Calshot to Berlin in the Do.X., and his account gives our readers an excellent
impression of this enormous flying boat
AVE you ever got out of bed at 4 o'clock in the
morning with the greatest reluctance and dubbed
yourself a fool for weakly agreeing to embark
on an enterprise at so unearthly an hour?
Doubtless you have, and so did I on Tuesday, May 24,
having lightheartedly agreed the night before, to go down
the next morning from London by car with Dr. Dornier
and his charming wife to Calshot, and there to see them off
on the final stage of the Do.X's trip from New York.
London at 5 o'clock on a pouring wet morning does not
stimulate light or joyous thinking. How I wished that
people would choose more agreeable hours for departure!
Secretly, I think, we all felt that it was an unnecessarily
early hour to start, because through the pouring
rain on the trip down we kept assuring one another that
visibility would doubtless improve shortly!
As Calshot came in sight there was the Do.X, hardly
visible against the grey sky and sea, dwarfing entirely the
large Air Force flying-boats moored alongside her.
Dr. Dornier and Capt. Christiansen had decided to leave
at 8.30, but this was impossible.
On board we were met on the stub wing by Capt.
Christiansen, the pilots, officers and crew, who were each
in turn warmly congratulated by Dr. Dornier on their
Fraulein Strassmann, who had made the trip from New
York, was also introduced. She can hardly be termed a
passenger as she appointed herself stewardess and general
ministering angel to the needs of the captain, officers and
crew. Everybody agreed that she was very efficient and
indefatigable in her efforts. Historically, she will probably
be able to claim that she acted as first stewardess in
an air liner on a transatlantic flight.
I was immediately impressed with the splendid condition
of the ship both externally and internally at the
end of its 15 months' sojourn away from its native hangar.
During the whole of this time the ship has not been
under cover. Her condition gives the lie direct to those
prophets who predicted corrosion and deterioration, for
there is not the slightest evidence of this anywhere.
Equally interesting is the fact that all the internal
appointments are in first-class condition throughout, and,
while some people may not appreciate the decorative
schemes of the interior, these have retained entirely their
freshness and are none the worse for wear.
The impressiveness of the immense size and spaciousness
of the Do.X was perhaps even more accentuated than
on the previous occasion when I went on board this vast
vessel as she set out from Calshot for her Atlantic adventure.
I found myself slipping into the same difficulty,
that of realising that it was an aircraft and not a seacrait.
I t is extraordinary how what one may term the " aircraft
sense " entirely disappears in the Do.X. On the way
down in the car I had jokingly asked Dr.
Dornier what was the law in connection with stowaways
in aircraft, and I mentioned while we were waiting for
the weather to clear how very much I envied them the
experience of the trip they were then setting out on.
The Master of Sempill, who had flown through the pouring
rain in the early morning from Hanworth in his " Puss
Moth," was saying good-bye to Dr. Dornier. Presently
came the cry, " All visitors ashore," and the many R.A.F.
officers and others who had been inspecting the ship went
ashore, when Dr. Dornier came up to me and said, " I
hear from the Master of Sempill that unless I offer to take
you to Berlin I am likely to have a stowaway on board,
and therefore I am inviting you to accompany u s ."
Without hesitation I accepted his very sporting offer.
Items as lack of passport, luggage and opportunity of
advising people of my departure were brushed aside, and
I realised at that moment how fortunate I was to have
been dug out at 4 o'clock that morning after all.
The refuelling pontoon which was moored to the end
of the port stub wing was cast off, the last motor-boat
left the side of the ship, when a cry went up " Where is
the coffee? " The tragic discovery having been made
that two enormous thermos pails sent up to the R.A.F.
mess to be filled with hot coffee were the only stores not
safely on board.
Good use was made of a megaphone to communicate
this disastrous information to the shore. Meanwhile, the
engines were started up one by one. On the first engine
being started the moorings were slipped, and the ship
started to cruise slowly round in a small circle off the Air
Station. Gradually more engines were started, and
soon the ship was cruising at about eight to ten knots.
At this moment a small motor-boat dashed up bearing
the thermos pails. A very sporting R.A.F. officer, holding
a pail in each hand, leaped neatly on to the stub wing as
the boat came alongside. Fraulein Strassmann seized the
pails, obviously overjoyed at the recovery of these important
items of the galley's equipment. The transhipment
of the R.A.F. officer back to the motor-boat was most
neatly and skilfully accomplished. The motor-boat
approached the Do.X from the stern, and its prow
mounted the rear edge of the stub wing while the officer
leaped on board, and then, although there was considerable
suction holding the boat, it was backed off.
All the engines were now running. We turned our nose
down the Solent towards Cowes. As we came up to Cowes
Point we turned round and faced towards Portsmouth,
heading into wind. The engines were opened up, and
within 56 sec. the 54£ tons of the Do.X were in the air
and rising rapidly.
Almost immediately the engines were throttled, and the
ship began to lose height, and one was convinced that alanding was going to be made, so close to the water did
the ship appear to return, but in actual fact a height was
set of ten metres, and at this height we went across the
North Sea, for, as Capt. Christiansen said, what is the
object of flying high—it only wastes power and fuel.
Thirty feet on an ordinary aircraft gives you an impression
of being up in the air, but thirty feet in the Do.X
makes you feel all the time that the next wave will gently
lap against the bottom of the boat.
The noise is terrific and conversation is difficult even in
the luxurious saloons but there is no doubt it could be
greatly reduced by the fitting of an exhaust system, for
twelve 600-h.p. engines kick up a fiendish row.
Shortly after taking off, Capt. Christiansen came through
the saloons and advised us that if we liked we could go up
into the control or chart room. The noise up there makes
conversation almost impossible except to the most
hardened voyager, .but Capt. Christiansen, the pilots,
officers and crew were able to converse, although obviously
with some difficulty. The rest of us had to be content with
writing all our observations on scribbling pads.
The idea of a flying-boat with three decks is difficult to
appreciate until you yourself climb the companionway
to the control deck or watch one of the crew descend into
the fuel deck to make his regular round of inspection.
There were five of us on the trip who could be classed
as passengers:—Dr. and Mrs. Dornier, Fraulein Strassmann,
Herr Ruhl, of the Deutsche Vacuum Oel, A.-G.
Hamburg, and myself.
Wandering about in the various saloons we were literally
lost. Up in the chart room all the interesting things take
place, but the passenger deck is frightfully uninteresting
because, although one has all the room and comfort one
wants, there is literally nothing to do.
Up in the chart room all the activity that is taking place
can be observed. There is a large table and lockers containing
the charts, and in spite of this table, which is
about the size of an average small dining room table, there
is ample room for at least eight people to lounge about
comfortably and observe what is going on.
Forward of the chart room is the pilot's cabin. This
is spacious and comfortable with a wonderful view and
adequately provided with all the necessary instruments
for blind flying.
Behind the chart room is the engine control room which
has the most complete and fascinating lay-out of engine
controls, instruments and gauges which any man could
wish to see, and which would gladden the heart of any
marine engineer in its completeness and efficient lay-out.
Behind the engine control room is the wireless operator's
cabin, and we all made good use of this by sending
messages, which were accepted at the ordinary rates.
I thought to gladden the heart of my board and make
them feel that my presence in the Do.X. was worth while,
so got Capt. Christiansen to send the following: —
" Just off Dover. Splendid passage due to Mobiloil and
Capt. Christiansen is a splendid chief, obviously on the
best of terms with all his officers and men, but at the
same time, with all his good humour, keen and efficient.
During the whole trip he never left the bridge or chart
room for more than a few minutes at a time.
The navigating officer was extremely efficient. It was
interesting to see how accurately we made our course to
the settings he gave the pilots from time to time, in
spite of the veering winds and unpleasant weather.
At one point we ran into a very heavy rain squall, which
completely blotted out everything, but through all this the
Do.X sailed on as calmly and as steadily as if in a dead
calm, and I think it can be said to be literally true that
had a glass of water been filled to the brim and left on a
table in one of the saloons, it would have remained there
without spilling a drop throughout this 8J hours' flight.
I t was an object lesson to see quite large ships tossing
about a few feet below us on a choppy North Sea, while
the Do.X sailed on in perfect steadiness.
Our cruising speed was usually 175 kilometres an hour
(108.7 m.p.h.). The pilot's watch was exactly one hour
on and one hour off, and during part of the flight Capt.
Christiansen kindly let me occupy the second pilot's seat
for over halt an hour.
As far as I could judge, the ship is easy to handle under
all normal conditions, and the pilot's vision is good in all
directions except straight back and directly overhead.
It is wonderful how hungry one gets in the air, and after
we had been flying for a short while, or what seemed a
short time, we were very grateful to take lunch served up
to us by Fraulein Strassmann.
The captain and officers on duty had their lunch in the
chart room and the crew in the engine room, but it was
insisted that mere passengers should take theirs down in
one of the saloons.
When we reached Nordney the Captain gave instructions
for us to circle the island, to the obvious delight of the
enthusiastic watchers below. We circled round once at a
height of about three or four hundred feet, and then resumed
our course, followed by attendant aircraft who came
up to greet us. They looked absurd flying alongside the
Do.X—so small and insignificant.
On we went over Hamburg, where the traffic stopped
and everybody seemed to come out into the street to welcome
the ship as she passed overhead.
By this time we had risen to about 1,500 ft. and maintained
this height all the way to Berlin.
I t was absurd to see an enormous number of flocks of
geese with their necks outstretched, running for dear life
as fast as their web feet would carry them across the fields
as the Do.X droned overhead. In each case the flocks
were in almost perfect formation, and in field after field
these flocks fled to the port and starboard.
A large number of farmers in Germany over whose land
we flew must have somewhat disturbed recollections of the
passing of the Do.X, as on several occasions I noticed
horses and cows crashing through fences or jumping gates
in their terror to get away from the noise of the Do.X.
She has a very startling effect on animals, quite different
from that of the average aircraft.
Presently a second meal was served, which I suppose
would correspond to tea. There seemed something odd in
being called down to meals at regular intervals—just
another of those impressions which make you feel you are
back on board ship.
As Berlin came in sight there was great joy on board.
Dr. Dornier came up to me and impressed upon me that Iwas about to witness the termination of one of the most
historic flights in aviation—I cordially agreed.
We discussed the future of the Do.X, and I was deeply
interested in what he had to say about the possibilities
ahead. It made one feel depressed that the call for
economy had caused our Air Ministry to stop work on our
own large flying boat.
We circled over Berlin, and I hope the terrific noise we
made did not disturb the German legislators in the
Reichstag! We then turned east towards the Miiggelsee.
Berlin was obviously overjoyed at the safe arrival of the
Do.X, as witness the crowds and the stationary traffic.
As the Milggelsee came in sight one saw that the lake
was divided down the centre by a long line of thick traffic
and that one half of the lake was dotted all over with small
craft of every conceivable shape, size and kind.
The long trim line was maintained by the police boats
as they kept the other half of the lake free, on which the
Do.X was to land. As we circled twice round this lake
we noticed its banks were lined by thousands and thousands
of people who had come to pay their respects to this great
and successful German enterprise. The air was full of
aeroplanes circling around us in welcome.
The engines were shut down, and we made a gracefulglide towards the surface of the lake. The landing was
so perfect it was almost impossible to tell the actual
moment of contact with the water.
The ship slowed down and went to her moorings, and
the moment it had become stationary the vast Armada of
boats broke the police cordon and surged round—a neverto-
be-forgotten sight! Hooters blew, people cheered, and
everybody was wildly enthusiastic, but so extraordinarily
considerate and well behaved, all taking great care not to
damage the Do.X.
Nobody was allowed on board until the police boat flying
the quarantine flag had brought the doctor and Customs
officer on board and the ship had been duly passed out—
yet a further marine touch. After that, the German
Minister of Communications came on board officially to
welcome the triumphant captain and crew, and congratulated
I t was a gorgeous evening, a fitting setting to a great
undertaking. The enthusiasm of the Armada prevented
the official launches coming alongside, and it was over an
hour before we could disembark.
As we were driven into Berlin we met hundreds of cars
streaming out, full of eager people going to pay their
respects to this wonder ship.
WHEN she reached Vigo, on the coast of Spain,
during the afternoon of May 22, the Dornier
Do.X flying boat (12 Curtiss " Conqueror "
engines) had completed a circuit of the
Atlantic. It was on January 31, 1930, that she set out
from Lisbon on her outward journey. At Las Palmas she
sustained damage which kept her there for repairs until
May 1, 1931, when the boat reached Bolama, in Portuguese
Guinea. Again a long wait followed, but on June 4
the machine left the Cape Verde Islands, and on June 5
Fernando Noronha. reaching Port Natal, in Brazil, in the
afternoon of the same day.
After the Atlantic crossing the Do.X flew to Bahia on
June 18, and arrived at Rio de Janeiro on June 20. When
visits had been paid to various towns in South America,
the Do.X headed for North America, her journey from
Rio showing the following dates: Para, on August 8; Port
of Spain, Trinidad, on August 19; San Juan, Puerto Rico,
on August 21; Miami, Florida, on August 22; Charleston,
South Carolina, on August 25; Norfolk, Virginia, on
August 26; and New York, on August 27. The stay in
America was prolonged by various forms of unpleasantness.
THE DO-X RETURNS
March 1932 Flight MAg.
The machine was struck by lightning on September
14, but did not sustain any damage. Then the lawyers
got to work, alleging some patent infringement, and confiscation
was threatened. Over this part of the sojourn
in America it were, perhaps, better to draw a discreet veil.
For her return flight the Do.X slipped quietly out of
New York on the evening of May 18 and moored for the
night in Long Island Sound. The next morning early
(5 a.m.) the machine took off for the flight to Newfoundland,
which was reached without incident, only to discover
that fog made it impossible for the machine to reach
St John's, and the refueling base established there. There
was nothing for it but to hunt for some sheltered bay
where it should be possible to take on board a fairly large
quantity of fuel. Such a bay was ultimately found, but
as the fuel had to be conveyed many miles a whole day
elapsed in fuelling. However, later in the day the fog
cleared and it was possible for the Do.X to reach St.
John's and complete her refuelling there.
The long delays prevented a start being made until the
morning of Saturday, May 21, when, after a run lasting
nearly two minutes, the Do.X managed to get into the
air with more than 6,000 gallons of petrol on board
gross weight was about 55 tons, which was about the
same as at the start of the outward flight last year. For
the first five hours or so after the start all went well and
the weather was fine The Do.X flew quite low over the
sea, as with her great load of petrol there was no point
in wasting fuel in gaining height, but she then ran into
bad weather, clouds and rain, and climbed to 1,500 ft.
to try to get above the rain.
Horta, in the Azores, was reached after dark, and in
fog, and Captain Christiansen very wisely decided that to
alight under such circumstances would mean running an
unjustifiable risk. He, therefore, steered out to sea again
and succeeded in finding a clear patch where there was
no fog. The great machine was brought safely on to the
sea, and proceeded under her own power, and guided by
her searchlight, towards Horta, the harbour of which was
reached and entered safely and the machine moored.
The next day, May 22, the Do.X refuelled and flew
across to Vigo on the west coast of Spain, the flight being
made at an average speed of 100 m.p.h. in a strong cross
wind. On May 23 the Do.X, after refuelling at Vigo,
headed for the English coast, towards which she had to
fight her way against a strong north-westerly wind. The
machine flew over Calshot about 7.15 p.m. and then
headed up Southampton Water to make a circuit of
Southampton. Coming back from there the Do.X made
another half-turn and alighted into the wind, up Southampton
Water. By 7.30 she was ready to moor.
A curious mishap very nearly resulted in serious damage
to the boat. In passing the mooring rope to the tender
a man fell overboard and the machine, with all her engines
stopped, began to drift with wind and tide towards the
jetty at Calshot. Frantic efforts by the engineers got one
of the Do.X's engines started just in time, and she was
able to claw her way to clear water and safety. On her
return flight the Do.X carried a crew of 14, including one
woman, Mrs. Strassmann.
I t had been hoped that there would have been an opportunity
for a certain number of English people to make a
flight in the Do.X, but this was not found possible, as
she was urgently requested to proceed towards home without
delay. The machine left Calshot at 10 a.m. on May 24,
with Berlin as her next port of call. Flying via Hamburg,
Berlin was reached at 6.30 p.m. and the machine moored
on the Miiggelsee