Manufactured under license of
Daewoo International Corporation
, Korea
www.daewoopowerproducts.com
USER’S MANUAL
DAGFS-SERIES Silent diesel generator & Digital panel /
Brushless synchronous A.C. Alternators
Blown Air Drying
Remove the covers from all apertures to allow the escape of the water-laden air. During drying,
air must be able to flow freely through the generator in order to carry off the moisture.
Direct hot air from two electrical fan heaters of around 1-3 KW into the generator air inlet aper-
tures. Ensure the heat source is at least 300mm away from the windings to avoid over heating
and damage to the insulation.
Apply the heat and plot the insulation value at half hourly intervals. The process is complete
when the parameters covered in the section entitled, 'Typical Drying Out Curve', are met.
Remove the heaters, replace all covers and re-commission as appropriate.
If the set is not to be run immediately ensure that the anticondensation heaters are energized,
and retest prior to running.
Shirt Circuit Method
NOTE: This process shou ld only be performed by a competent engineer familiar with safe
operating practices within and around generator sets of the type in question. Ensure the gene-
rator is safe to work on, initiate all mechanical and electrical safety procedures pertaining to the
genset and the site.
Bolt a short ci rcuit of adequate current carrying capacity, across the main terminals of the
generator. The shorting link should be capable of taking full load current.
Disconnect the cables from terminals "X" and "XX" of the AVR.
Connect a variable de supply to the "X" (positive) and "XX" (negative) field cables. The de
supply must be able to provide a current up to 2.0 Amp at 0-24Volts.
Position a suitable ac ammeter to measure the shorting link current.
Set the de supply voltage to zero and start the generating set. Slowly increase the de voltage to
pass current through the exciter field winding. As the excitation current increases, so the stator
current in the shorting link will increase. This stator output current level must be monitored, and
not allowed to exceed 80% of the generators rated output current.
After every 30 minutes of this exercise: Stop the generator and switch off the separate excita-
tion supply, and measure and record the stator winding IR values, and plot the results.
The resulting graph should be compared with the classic shaped graph. This drying out proce-
dure is complete when the parameters covered in the section entitled 'Typical Drying Out
Curve' are met.
Once the insulation Resistance is raised to an acceptable level minimum value 10MΩ - the de
supply may be removed and the exciter field leads "X" and "XX" re-connected to their terminals
on the AVR.
Rebuild the genset, replace all covers and re-commission as appropriate.
If the set is not to be run immediately ensure that the anticondensation heaters are energised,
and retest the generator prior to running.
Typical Drying Out Curve
Whichever method is used to dry out the generator the resistance should be measured every
half-hour and a curve plotted as shown.(Fig 9)
The illustration shows a typical curve for a machine that has absorbed a considerable amount
of moisture. The curve indicates a temporary increase in resistance, a fall and then a gradual
rise to a steady state. Point 'A', the steady state, must be greater than 1.0MΩ (If the windings
are only slightly damp the dotted portion of the curve may not appear).
For general guidance expect that the typical time to reach point 'A' will be approximately 3
hours for a LV 6 generator.
Drying should be continued after point "A" has been reached for at least one hour.
It should be noted that as winding temperature increases, values of insulation resistance may
significantly reduce. Therefore, the reference values for insulation resistance can only be esta-
blished with windings at a temperature of approximately 20°C.
After drying out, the insulation resistances should be rechecked to verify minimum resistances
quoted above are achieved. On re-testing it is recommended that the main stator insulation
resistance is checked as fol lows:
-Separate the neutral leads.
Ground V and W phase and megger U phase to ground
Ground U and W phase and megger V phase to ground
Ground U and V phase and megger W phase to ground.
If the minimum value of 1.0MΩ is not obtained, drying out must be continued and the test
repeated.
If the minimum value of 1.0MΩ for all components cannot be achieved rewinding or refurbish-
ment of the generator will be necessary.
The generator must not be put into service until the minimum value, Of 1.0MΩ for all compo-
nents, can be achieved.
8.2 BEARINGS
All bearings are supplied from the factory pre-packed with Kluber Asonic GHY 72 grease.
Do not mix kluber Asonic GHY 72 with any grease of different specifications. Mixing grease of
differing specifications will reduce bearing life. The specification for Kluber Asonic FHY 72 is
available on request from the factory.
Sealed for life bearings are fitted with integral seals and are not re-greasable.
BEARING LIFE
IMPORTANT!
The life of a bearing in service is subject to the working conditions and the
environment.
IMPORTANT!
High levels of vibration from the engine or misalignment of the set will
stress the bearing and reduce its service life. If the vibration limits set out
im BS 5000-3 and ISO 8528-9 are exceeded bearing life will be reduced.
Refer to 'vibration’ below.
IMPORTANT!
Long stationary periods in an environment where the generator is subject
to vibration can cause false brinneling, which puts flats on the ball and
grooves on the races, leading to premature failure.
IMPORTANT!
Very humid atmospheric or wet conditions can emulsify the grease causing
corrosion and deterioration of the grease, leading to premature failure of
the
bearings.
HEALTH MONLTORING OF THE BEARINGS
It recommends that the user check the bearing condition, using monitoring equipment, to
determine the state of the bearings. The 'best practice' is to take initial readings as a base line
and periodically monitor the bearings to detect a deteriorating trend. It will then be possible to
plan a bearing change at an appropriate generating set or engine service interval.
VLBRATION
The generators are designed ti withstand the vibration levels encountered on generating sets
built to meet the requirements of ISO 8528-9 and BS5000-3. (Where ISO 8528 is taken to be
broad band measurements and BS5000 refers to the predominant frequency of any vibrations
on the generating set.)
Definition of BSS000-3
Generators shall be capable of continuously withstanding linear vibration levels with amplitudes
of 0.25 mm between 5 Hz and velocities of 9.0 mm/s. Between 8 Hz and 200 Hz when measu-
red at any point directly on the carcass or main frame of the machine. These limits refer Only to
the predominant frequency of v ibration of any complex waveform.
Definition of ISO 8528-9
ISO 8528-9 refers to a broad band of frequencies, the broad band is taken to be between 2
Hertz and 300 Hertz. The table below is an example from ISO 8528-9 (value 1 ). This simplified
table lists the vibration limits by kVA range and speed for acceptable genset operation.
IMPORTANT!
Exceeding either o f the above specifications will have a detrimental effect
on the life of the bearing. This will invalidate the generator warranty. If you
are in any doubt, contact Newage International limited.
If the vibration levels of the generating set are not within the parameters quoted above.
1. consult the genset builder. The genset builder should address the genset design to reduce
the vibration levels as much ad possible.
2. Discuss the impact of not meeting the above levels on both bearing and generator life
expectancy.
Where requested, or deemed necessary, Newage will work with the genset builder in an
attempt to find a satisfactory solution.
BEARING 'SERVICELIFE' EXPECTANCY
Bearing manufacturers recognize that the "service life" of their bearings is dependent upon
many factors that are not in their control, they cannot therefore quote a "service life".
Although "service life" cannot be guaranteed, it can be maximized by attention to the genera-
ting set design. An understanding of the genset application will also help the user to maximize
the service life expectancy of the bearings. Particular attention should be paid to the alignment,
reduction of vibration levels, environmental protection, maintenance and monitoring procedu-
res. We does not quote life expectancy figures for bearings, but suggests practicable replace-
ment intervals based on the L 10 life of the bearing, the grease and the recommendations of
the bearing and grease manufacturers. For general-purpose applications, provid ing the vibra-
tion levels do not exceed the levels stated in ISO8528-9* and BS5000-3* and the ambient
temperature does not exceed 50°C the following approximations can be applied when *
(See section on vibration)
Sealed for life Bearings. - Approximately 30,000hours.
Re-greaseable bearings.- Approximately 40,000hours.
This is provided the correct maintenance is carried out, and only Kluber Asonic GHY 72 grease
(or equivalent) is used in all bearings. It is important to note that bearings in service. Under
good operating conditions, can continue to run beyond the remembered re placement period.
It should also be remembered that the r isk of bearing failure increases with time.
8.3 ALR FILTERS
Air filters for the removal of airborne particulate matter (dus) are offered as an addition to the
standard build option. Filters on it's need to be ordered with the generator. Air filters need to
be charged with oil before the genset is put to work (see 8.3.2) The frequency of fi lter mainte-
nance will depend upon the severity of the site conditions. Regular inspection of the elements
will be required to establish when cleaning is necessary.
Danger!
Removal of filter elements enables access to LIVE parts. Only remove elements
with the generator out of service.
8.3.1 CLEANING PROCEDURE
Remove the filter elements from the filter frames. Immerse of flush the element with a suitable
degreasing agent until the element is cleas.
As an alternative procedure a high-pressure water hose with a flat nozzle can be used. Sweep
the water spray back and forth across the element from the clean side (fine mesh side of
element) holding the nozzle firm ly against the element surface. Cold water may be adequate
depending upon type of contamination although hot water is preferable.
The element can be inspected for cleanliness by looking through the filter towards the light.
When the roughly clean, no cloudy areas will be seen. Dry elements thoroughly before attemp-
ting to carry out the recharging procedure.
8.3.2 RECHARGING (GHARGING) AIR FILTERS
Charging is best done by totally immersing the dry element into a dip tank containing "Filterko-
te Type k" or commercial lubricating oil SAE 20/50. oils of higher or lower viscosity are not
recommended.
Allow elements to completely drain before refitting the elements into the frames and putting
into service.
8.4 FAULT FINDING
IMPORTANT!
Before commencing any faultfinding procedures, examine all wiring for
broken or loose connections.
Two types of AVR can be fitted to the WH generator. The Refer to the generator nameplate for
type of AVR fitted.
8.4.1 MX341 AVR, FAULT FINDING
8.5 SEPARATE EXCITATION TEST PROCEDURE
The generator windings, diode assembly and AVR can be checked using the appropriate
following sections.
8.5.1 GENERATOR WINDINGS, ROTATING DIODES and PERMANENT MAGNET GENERA-
TOR (PMG)
IMPORTANT!
The resistances quoted apply to a standard winding. For generators
having windings or voltages other than those specified refer to fac-
tory for details. Ensure all disconnected leads are isolated and free
from
earth.
IMPORTANT!
Incorrect speed setting will give proportional error in voltage out put.
Checking Generator Windings and Rotating Diodes
This procedure is carried out w ith lead X and XX disconnected at the AVR or transformer
control rectifier bridge and using a 12 volt d. c. Supply to leads X and XX.
Start the set and run at rated speed.
Measure the voltages at the main output terminals U, V and W. if voltages are balanced and
/-10% of the generator nomial voltage, refer to 7 .5.1.1.
Check voltages at AVR terminals 6, 7 and 8. These should be balanced and between 170-250
volts.
If voltages at main terminals are balanced but voltage at 6, 7
and 8 are unbalanced, check continuity of leads 6,7 and 8.
If voltages are unbalanced , refer to 7 .5.1.2.
8.5.1.1 BALANCED MAIN TERMINAL VOLTAGES
If all voltages are balanced within 1 % at the main terminals, it can be assumed that all exciter
windings, main windings and main rotating diodes are in good order ,and the fault is in the
AVR or transformer control. Refer to subsection 7 .3.2 for test procedure.
If voltages are balanced but low, there is a fault in the main excitation windings or rotating
diode assembly. proceed as follows to identity:-
Rectifier Diodes
The diodes on the main rectifier assembly can be checked with a multimeter. The flexible leads
connected to each diode should be disconnected at the terminal end, and the forward and
reverse resistance checked. A healthy diode will indicate a very high resistance ( infinity) in the
reverse direction, and a low resistance in the forward direction. A faulty diode will give a full
deflection reading in both directions with the test meter on the 10,000 ohms scale, or an
infinity reading in both directions. On an electronic digital meter a healthy diode will give a low
res. We does not quote life expectancy figures for bearings, but suggests practicable replace-
ment intervals based on the L 10 life of the bearing, the grease and the recommendations of
the bearing and grease manufacturers. For general-purpose applications, provid ing the vibra-
tion levels do not exceed the levels stated in ISO8528-9* and BS5000-3* and the ambient
temperature does not exceed 50°C the following approximations can be applied when *
(See section on vibration)
Sealed for life Bearings. - Approximately 30,000hours.
Re-greaseable bearings.- Approximately 40,000hours.
This is provided the correct maintenance is carried out, and only Kluber Asonic GHY 72 grease
(or equivalent) is used in all bearings. It is important to note that bearings in service. Under
good operating conditions, can continue to run beyond the remembered re placement period.
It should also be remembered that the r isk of bearing failure increases with time.
8.3 ALR FILTERS
Air filters for the removal of airborne particulate matter (dus) are offered as an addition to the
standard build option. Filters on it's need to be ordered with the generator. Air filters need to
be charged with oil before the genset is put to work (see 8.3.2) The frequency of fi lter mainte-
nance will depend upon the severity of the site conditions. Regular inspection of the elements
will be required to establish when cleaning is necessary.
Danger!
Removal of filter elements enables access to LIVE parts. Only remove elements
with the generator out of service.
8.3.1 CLEANING PROCEDURE
Remove the filter elements from the filter frames. Immerse of flush the element with a suitable
degreasing agent until the element is cleas.
As an alternative procedure a high-pressure water hose with a flat nozzle can be used. Sweep
the water spray back and forth across the element from the clean side (fine mesh side of
element) holding the nozzle firm ly against the element surface. Cold water may be adequate
depending upon type of contamination although hot water is preferable.
The element can be inspected for cleanliness by looking through the filter towards the light.
When the roughly clean, no cloudy areas will be seen. Dry elements thoroughly before attemp-
ting to carry out the recharging procedure.
Summary of Contents for DAGFS Series
Page 10: ...9 2 Connect the battery red wire for anode black wire for cathode ...
Page 11: ...10 3 Press diesel pump to exhaust air until feel pressure 4 Turn on the emergency stop button ...
Page 14: ...13 Final step Finish set up the generator and then turn on breaker for auto protection ...
Page 26: ...25 ...
Page 27: ...26 ...
Page 28: ...27 ...
Page 29: ...28 TYPICAL APPLICATIONS ...
Page 30: ...29 ...
Page 31: ...30 7 EXPLODING VIEW AND PARTS LIST applies to all models CYLINDER BLOCK ASSEMBLY ...
Page 34: ...33 CYLINDER HEAD ASSEMBLY ...
Page 36: ...35 2 4 4 NUMBER PART NAME QUANTITY 34 35 36 Host ring Bolt M10X20 Spring washerφ10 ...
Page 37: ...36 CRANK AND CONNECTING ROD MECHANISM ...
Page 39: ...38 VALVE ACTUATING MECHANISM ...
Page 41: ...40 FUEL SUPPLY SYSTEM ...
Page 43: ...42 LUBRICATING SYSTEM ...
Page 46: ...45 COOLING SYSTEM ...
Page 49: ...48 ELECTRIC SYSTEM ...