| |
|
|
| |
|
|
| |
K r i e
g s t a g e b u c
h |
|
| |
|
|
| |
" U-107 " |
|
| |
|
|
| |
Machine Section |
|
| |
War patrol from 21.4. to 11.7.1942
(6th War Patrol) |
|
| |
|
|
| |
A.) 1.) Diesel power plant failures - cooling
water pumps, starboard exhaust gas valve, fuel oil loss, lubricating oil
purifier failure. |
|
| |
2.) Aft
diving plane failed. |
|
| |
3.) Distilling
unit's vapor pump failed. |
|
| |
4.) Trim
pump out of service. |
|
| |
5.) Main
drain pump buzzing sounds, leaking. |
|
| |
6.) Both
negative buoyancy tanks leaking. |
|
| |
7.) Conning
tower hatch leaking. |
|
| |
8.) Quick
vent valve of main ballast tank 7 starboard leaks. |
|
| |
9.) Battery:
Abnormally heavy water consumption, efficiency heavy degraded. |
|
| |
10.) Junkers compressor
failed. |
|
| |
11.) Port head valve
multiple leaks. |
|
| |
12.) Minor failures. |
|
| |
|
|
| |
To A 1: a) When inspecting the diesel
engine cooling pumps on 9, 11 and 13 June, looseness of the retaining
brackets of the port pump's inlet valve, and the starboard pump's inlet
and output valves was eliminated. On 16 June, knocking noises appeared
in the starboard pump. After immediately stopping the engine an
investigation was conducted, which showed the following: |
|
| |
The retaining
bracket was broken and the starboard external inlet valve's seat was badly
damaged. |
|
| |
Probable cause: |
|
| |
Breaking of
the valve seat rings. Pump had to be stopped. The repair took 3.5 hours.
Otherwise, the new drives (hardened shafts) of both cooling water pumps
have been working without any problems. |
|
| |
b) Spindle guide, grinding gear and stuffing box of the internal, starboard
exhaust valve leaks quite heavily despite tightening. When the starboard
valve is closed during submerged cruise, after cooling down, the water
leak in the exhaust manifold is even greater. The turbo-blower casing
and valves must be replaced. Despite frequent lubrication, the starboard
valve is very hard to operate. Crash diving takes twice as long.
There is water in the cylinders of the starboard engine.
The increasing level of water in the starboard collecting tank over approximately
1% is compensated for by cruising at higher RPM. On the basis of
the indicator diagram and the exhaust's color, it seems that the piston
rings must be replaced due to water leaks. |
|
| |
c) From 10 to 12 June the following fuel oil loss was determined: |
|
| |
Port 1 internal 5 m³ (cause not clear, not used previously, refueling
performed normally) |
|
| |
Starboard 1 internal, 1.5 m³ (probably leaks during fuel transfer
to collecting and gravity tanks) |
|
| |
Starboard 2 internal 1 m³ (unexplained) |
|
| |
Refueling according to the Flotilla Chief Orders.
Oil flew from the test lines. Cooling water pump used. No
oil leaks. |
|
| |
d) During last overhaul of the boat in the yard the lubricating
oil purifier was exchanged with one taken from another boat. There
is a leak in the loose valve seat ring over the neck journal bearing,
and as a result, the bearing, worm gear and the shaft were running in
a mixture of the lubricating oil and water. After 24 hours of continuous
operation, the purifier stopped with a buzzing noise. The teeth
of the worm gear were broken out for half of their length. Repair
was not possible by on board means. |
|
| |
|
|
| |
|
|
 |
 |
|
| |
|
|
| |
- 2 - |
|
| |
|
|
| |
e) Due to spring fatigue (opened at 0.9 kg/cm² and did not
close) - despite immediately stopping the diesel engine - the starboard
cooling water safety valve caused a large water intake in diesel engine
room. The spring tension was increased by inserting a 3 mm thick
gasket. The repair took 1 hour. The valve is tight. |
|
| |
|
|
| |
To A 2: On 3 May the aft diving planes jammed in
the “hard up” position due to limit switch failure. The boat
was trimmed on an even keel and the limit switch was removed. The switching
axle of the switch was rusted and eroded in the stuffing box. The
diving planes spindle was moved to the neutral position by means of tackle
and crowbar and a new limit switch was installed. The repair took 8 hours. |
|
| |
On 31 May during
a submerged attack, the aft diving planes driving motor windings started
to smoke. The driving motor was flooded with lubricating oil from the
gear box, through the radial shaft seal of the full-floating axle. The
commutator sparked strongly. |
|
| |
The motor was
disassembled, thoroughly cleaned, the resistance of the armature and field
windings measured, commutator removed and cleaned, and the brushes replaced.
After lowering the lubricating oil level in the gear box down to
the half of the height of the inspection hole, no further failures occurred.
The repair took 30 hours. The boat had to be submerged to
mount the motor, for this purpose, removing of the manual driving shaft
gear was necessary. |
|
| |
|
|
| |
To A 3: On 12 June a buzzing noise occurred
in the vacuum pump. |
|
| |
Due to slight bearing looseness, the working and control
pistons of the pump blocked each other, which led to breaking of the gear
teeth of the drive gear and drive shaft at the point of passing through
the casing. After removing both pistons, the pump casing openings
were closed with flanges and the evaporator started working as over-pressure
distilling unit. |
|
| |
Overpressure: 0.1 kg/cm² |
|
| |
Capacity:
100 liters/day |
|
| |
Salinity:
6 - 8 mg/liter |
|
| |
|
|
| |
To A 4: After a short time of operation, knocking
noises occurred in the trim pump, similar to those during the previous
war patrol, which led to the misaligning of the drive motor and pump shafts
(Goal of the repair: aligning the shafts). Up to 13 June rubber
sleeves of the coupling, destroyed by working, had to be replaced 4 times.
On 13 June the bearings of the worm shaft were warmed up to high
temperature and knocking occurred. After lifting and suspending
the driving motor, the worm shaft with bearings and worm gear could be
dismounted. Sea water had leaked into the crankcase through a cracked
cooling coil. The worm gear as well as the ball bearings were heavily
rusted and corroded. The bronze worm gear was heavily worn on its
edges. Bronze mud was in the crankcase. |
|
| |
The cooling coil was closed with flanges and the ball bearings
set up for lubrication with grease. After assembly, the pump was run for
a short time without any serious increase in the temperature of the bearings
or any loud noise. It must be considered why the oil can not be
exchanged without pump disassembly, if grease lubrication is safe for
the ball bearings and the drain screw of the crankcase is so inconveniently
located. The repair took 70 hours. |
|
| |
|
|
| |
To A 5: On 23 April when starting the main
drain pump, especially when submerged and when pumping from pressurized
regulating tank, a knocking noise occurred in the separating chamber caused
by the ball of the check valve. The check valve and venting cock
must not have been air tight. Multiple grindings of the leaking vent cock
and check valve did not remove the problem. When attaining greater
depth, the vent lines has to be wedged with wooden plugs to prevent large
water leaks (pump remains under external water pressure, because the main
drain pump suction hull valve and intake of the main drain pump are leaking). |
|
| |
|
|
| |
|
|
| |
|
|
|
|
|
| |
|
|
| |
- 3 - |
|
| |
|
|
| |
To A 6: Since 15 May, both negative buoyancy
tanks leak. They flood when external sea water pressure increases;
when pressure decreases, they leak or vent outboard. By pressurizing
the tanks or venting them inside the boat, corresponding to the depth,
the tanks are made makeshift tight. |
|
| |
|
|
| |
To A 7: The leaking conning tower hatch admits
water until periscope depth is achieved, can not be sealed by setting
the hatch dogs in their stop position. The hatch gapes over ¼
of the perimeter length. The hatch and the frame must be adjusted
precisely in the yard or the frame must be milled. |
|
| |
|
|
| |
To A 8: On 12 May, while blowing, heavy leaking
of quick vent valve chamber 6/7 in the upper deck was discovered.
Part of the rubber seal of the valve disc of the starboard tank 7 was
cracked at the external hinge and jammed between the seats. The
valve disc was disassembled and the rubber seal was replaced. The
repair took 2.5 hours. |
|
| |
|
|
| |
To A 9: The last battery capacity test performed
in Lorient showed an efficiency of 75%. During this patrol, especially
after failure of the distilling unit, due to abnormally heavy distilled
water consumption by individual cells, serious troubles occurred. |
|
| |
Probably some cells have internal short-circuits, caused
by lead mud, which – as well as sulfation – have significant
impact on the output voltage. These cells have to be renewed or
desludged. |
|
| |
On 8 July, the battery was charged for 3.45 hours at 600
Ah, until generating oxygen and hydrogen. According to the machine log,
there should be at least 10274 Ah available. After withdrawal of
4944 Ah for driving motors, 2070 Ah for the boat's equipment and 165 Ah
for losses, after 12 hours submerged cruise, there should be 3155 Ah remaining
available. |
|
| |
At 23.10 hours, the main switch board voltmeter showed
109 V, which corresponded to about 1500 Ah while cruising at slow speed.
After reaching periscope depth at half speed with both motors at
23.13 hours, voltage decreased to 94 V immediately. The diving planes
driving motors stopped working at such a low voltage supply, and the diving
planes remained in the following position: forward – hard up, aft
– down 10°. The broadcast and announcement system also
failed. The boat was not under control and had to be surfaced immediately. |
|
| |
Available Capacity: 7119 : 10274= 69% |
|
| |
Ratio to target capacity: 7119 : 12150
= 58% (50 hour-current) |
|
| |
|
|
| |
To A 10: Total operating time: |
|
| |
Since last overhaul: |
|
| |
a) After disassembly of the internal exhaust gas valve, it was found that
the seat of the valve was burnt or ground out over half of its perimeter.
Repair was not possible by on board means. The external valve is
tight. |
|
| |
b) On 13 May, the air compressor did not start. The fuel pump
plunger had been jammed during fuel priming. Due to wear of the
regulating spindle, it had canted when moving. As a result a lateral
force acted on the teeth of the pump plunger, which led to jamming of
the plunger. The regulating spindle was fixed by means of the
guide screw and jamming was thereby prevented. The shut-off gear
on the safety valve was thus blocked. The repair took 12 hours.
|
|
| |
c) On 25 April, the compressor had to be stopped, because of damage that
occurred in stages 3 and 4. After disassembly of the intake nozzles
of the stage 4, iron shavings were found between the valve disc and valve
seat, which caused pressure discharge from the stage 4 to stage 3. The
origin of the iron shavings was not possible to determine. Stages
3 and 4 were completely operable. After a 20 minute test run, the
same damage as described above occurred. After multiple starts of
the compressor, the stages 2, 3 and 4 did not receive starting air.
The compressor could not be started. As a cause, it was determined
that the ball of the check valve of the starting air line leading to stage
2 was jammed and prevented flow of the starting air. The examination
of the check valve showed, that the valve seat and fitting spring were
damaged. The failure in stages 3 and 4 is explained as follows:
after failure of the fitting spring and the seat of the check valve of
the starting air line for stages 2, 3 and 4, the valve's ball was swirled
by the flowing compressed air (line illegible) |
|
| |
|
|
| |
|
|
|
|
|
| |
|
|
| |
- 4 - |
|
| |
|
|
| |
compressed air through the compressor and caused the valve
damage. The repair took 15 hours. |
|
| |
The newly installed cooling water pump and automatic starting
gear were running without any problems. |
|
| |
|
|
| |
To A 11: On 3 and 28 June, during crash dives,
for an unknown reason, the port head valve was jammed about half way to
“closed” position. The valve must be disassembled in
the shipyard. |
|
| |
|
|
| |
To A 12: a) Due to contamination in
the high pressure compressed air installation caused by iron shavings
(see damage 10 c), the valve seats of the main blowing valve and regulating
and negative buoyancy tanks blowing valves had to be overhauled multiple
times. |
|
| |
b) On 22 April in stage 3 of the electric compressor pressure increased
abnormally. In stage 2 pressure increased at a smaller rate, jammed
inlet and delivery valves in stage 3 were replaced. The repair took
1.5 hours. |
|
| |
c) The loose clamping screws and scorched contacts of the relay
in the diesel engine room engine order telegraph receiver caused momentary
rattle in the starboard engine order telegraph in the electric motor room.
The repair took 4 hours. |
|
| |
d) The hull valves of the blowing lines leading to tanks 7 starboard,
6 port and 4 starboard were improperly sealed with non-oil-tight material
(hemp) and were leaking. They were sealed with asbestos-graphite
and since then they are tight. |
|
| |
e) Despite especially frequent and thorough draining, 6 cartridge
type, pressure reducing valves of type D 2500 (Dräger) were damaged
by water hammer effect. Evidently their construction is too sensitive
for pressurized water. |
|
| |
f) Despite appropriate rollers, the port shaft revolution transmitter
failed because the drive chain slipped off even at normal bow down angles.
Damage is typical. |
|
| |
g) Aerial bomb damage |
|
| |
On 15 May, one aerial
bomb, starboard abeam. Damaged fuses and fuse sockets, as well as
lamps. Log indicator and depth meter in the conning tower are out
of operation. |
|
| |
B.) a)
Nothing of note. |
|
| |
b) 1: Consumption of lubricating oil at a level of
3% shows, that newly installed piston and oil rings are correctly aligned.
The heavy smoke of the starboard engine at end of the patrol was caused
by flooding the cylinders with sea water two times. Some of the
failures described in paragraph A I should not have occurred after overhaul
in the shipyard, which went on for 5 weeks. |
|
| |
2: Breakdown A 4 shows, that a second auxiliary
drain and trim pump (piston type pump) would considerably increase the
safety of the boat. All previous patrols show, that in case of damage
of the trim pump, draining of the bilges in the end compartments by the
centrifugal pump is unreliable. |
|
| |
3: Breakdown 12 e shows, that especially when
the boat operates in the tropics, it seems advisable that sensitive low
pressure regulators should not be connected to the lowest outlets of the
high pressure air distributor to avoid carrying away accumulated water. |
|
| |
4: Refueling of 43 m³ fuel oil from “U-459” was
conducted quickly and without problems. |
|
| |
|
|
| |
|
|
|
|
|
| |
|
|
| |
- 5 - |
|
| |
|
|
| |
5: With plugged drain connections in the diesel engine room,
there is no possibility of draining the bilges with the trim pump by means
of a flexible hose. A moderate amount of necessary threaded fittings
would increase the safety in case of a water leak. |
|
| |
6: The plexiglas water level gauge of the regulating tanks
and the plexiglas tube for the Papenberg instrument, which were installed
during last overhaul in the yard, did not break when the aerial bomb exploded
quite near. |
|
| |
|
|
| |
| |
Port Motor |
|
Starboard Motor |
| |
|
|
|
|
|
|
|
| |
Days |
Hours |
Min. |
|
Days |
Hours |
Min. |
| |
|
|
|
|
|
|
|
| Total operating time since commissioning: |
220 |
18 |
33 |
|
221 |
15 |
30 |
| |
|
|
|
|
|
|
|
| Total operating time during the last patrol: |
37 |
7 |
37 |
|
37 |
22 |
15 |
| |
|
|
|
|
|
|
|
| Revolutions since commissioning: |
83 |
148 |
596 |
|
84 |
922 |
374 |
| |
|
|
|
|
|
|
|
| Revolutions during the last patrol: |
13 |
398 |
180 |
|
14 |
144 |
920 |
|
|
|
|
|
|
|
|
|
|
| |
Reached diving depth: A +60 meters. |
|
| |
|
|
| |
B.) Consumption: |
|
| |
|
|
| |
Fuel measured run, see enclosure. |
|
| |
|
|
| |
Commissioning of the boat 8.10.1940 |
|
| |
|
|
| |
Presented:
The Chief Engineer |
|
| |
signed in draft G e l h a u s
signed in draft B ö e r |
|
| |
|
|
| |
|
|
| |
Kaptlt. and Kommandant
Kaptlt. (Ing.) |
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
| |
|
|
|
|
|
| |
|
|
| |
|
|
| |
Flotilla Remarks: |
|
| |
|
|
| |
To A 1 a) This damage was probably caused
by broken seat rings, which in turn was caused by loose retaining brackets
of the seats of the inlet valve. |
|
| |
1 b) Cause of the water intake: rupture in the cooling
flange of the turbo-blower, between the turbine and blower (2nd case in
last half of year). The repair was done by welding, the flange must
be renewed. |
|
| |
1 c) The loss remains unexplained; while refueling
the internal fuel oil tank, its capacity was measured and it was stated,
that it was completely filled. |
|
| |
1 d) The shield of the neck journal bearing was not
sealed properly. |
|
| |
1 e) The cooling water safety valve which quite frequently
causes a water leak in the diesel room bilge must be tested at regular
intervals (about weekly). Only in that way, can one prevent surprises. |
|
| |
|
|
| |
To A 2 a) An inspection of the switch remains
indicates that sea water entered the limit switch, either through an improperly
installed cover, or through a defective stuffing box. |
|
| |
2 b) Defective radial shaft seal; isolated case. |
|
| |
|
|
| |
To A 3) In the case of mechanical damage to
the vapor pump, attempts at repair are hopeless; in such a case, there
is the possibility of running the distilling unit as an over-pressure
unit, which should be considered on all boats. |
|
| |
|
|
| |
To A 4) The driving motor was not aligned
with the pump, which led to the destruction of the flexible coupling.
The pump ran roughly and noisily. Alignment is difficult
to perform because there are no fitting bolts provided for the motor.
The breaking of the condenser coil was probably connected with the vibration
caused by rough running. When overhauling the pump in the yard, the ball
ring of the ball bearing was discovered damaged; it remains unexplained,
if it was damaged during assembly of the pump on board or earlier and
sped up the destruction of the worm gear. - New worm gear. |
|
| |
|
|
| |
To A 5) After repair of the check valve and
venting cock the pump operates without problems. |
|
| |
|
|
| |
To A 6) The corroding of the vent line of
the tanks, just under the vent valves reappeared again! It appears
more frequently than expected, there is a need to install line with thicker
walls. |
|
| |
|
|
| |
To A 7) To the longstanding request to make
conning tower hatch bearing stronger and more stable, it is noted, that
after installing double spring, hatch failures will be rare. - This boat
will be first one on which the double spring will be installed. |
|
| |
|
|
| |
To A 8) Isolated case. |
|
| |
|
|
| |
To A 9) The battery of the boat must be considered
exhausted. By forming up, especially in the forward battery, all
cells, even those which by means of previous output voltage measurement
were indicated as damaged, were charged to the same voltage. Capacity,
however, was low and its value (at 20 hour current) was: forward battery
64%, aft battery 61%. By performing multiple charging and discharging
cycles, it was determined, that an output voltage of 146 V could not be
exceeded. Up to that voltage, the temperatures were within moderate
limits (30-35C), with additional charging at a voltage of 146 volts, the
temperature rose in a short time until reaching a final value of 45C.
During the current war patrol – to avoid achieving this high temperature
and resulting high water consumption - generally, charging up to generating
oxygen and hydrogen was not performed. The battery then had to be
deeply discharged, to reform it again. After this patrol, replacement
of the battery (in connection with thorough overhaul) is scheduled. |
|
| |
|
|
| |
To A 10 c) An investigation to determine the cause is being
conducted. |
|
| |
|
|
| |
|
|
| |
|
|
|
|
|
