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to 60 ° C(passive) was setInlet temperature
at 310 ° F. and the outlet temperature(passive) was setInlet temperature
at 315 � F. and outlet temperature(passive) was setInlet temperature
to 120(passive) was setInlet air temperature
to −21(passive) was setInlet temperature
at 177 °(passive) was setInlet temperature
at 230 ° C(passive) was setInlet temperature
at 29.4 and 35 0C(passive) were setAir inlet temperatures
at 45 ° C(passive) was setinlet temperature
to 30oc and vent flow(passive) was setInlet temperature
at 280(passive) was setInlet temperature
at 240 ° C(passive) was setInlet temperature
constant(passive) was setInlet temperature
to 310 - 330 ° C(passive) was setInlet temperature
at ( 200 ° C – 220 ° C(passive) was setAir inlet temperature
high enough to vaporize injected samples(passive) should be setInlet temperature
to 65 ° C , fluidizing air flow approx(passive) is setInlet air temperature
to 80 ° C(passive) is setInlet air temperature
rental compressors(passive) caused byinlet temperature
to 750C(passive) is setInlet air temperature
to 870(passive) is setAir inlet temperature
to K. Structure of the Riemann problem(passive) was setInlet temperature
Fluid - bed drying parameterswere setas Inlet air temperature
that channel ( and only that channelis setto ' Inlet Air Temperature
a cooler and more dense air charge , increasing horsepower and torque IN THE BOXcreatinga cooler and more dense air charge , increasing horsepower and torque IN THE BOX
in more power outputresultsin more power output
to substantially correspond to a first predetermined value ... and 11is causedto substantially correspond to a first predetermined value ... and 11
in more performance levelresultsin more performance level
in more performance capabilityresultsin more performance capability
in more performance potentialresultsin more performance potential
in more engine performanceresultsin more engine performance
in better powerresultingin better power
in more power capabilityresultsin more power capability
to 280 ° Csetto 280 ° C
at 170 ° C. Outlet Temperature=75 ° C. Atomization=600 l / hr of dry nitrogen Nozzle chillersetat 170 ° C. Outlet Temperature=75 ° C. Atomization=600 l / hr of dry nitrogen Nozzle chiller
to substantially correspond to a first predetermined value and generates a voltage control signal to controlis causedto substantially correspond to a first predetermined value and generates a voltage control signal to control
at 170 ° C. [ 0110setat 170 ° C. [ 0110
to substantially correspond to a predetermined value and generates a voltage control signal to controlis causedto substantially correspond to a predetermined value and generates a voltage control signal to control
at 149 ° C. [ 0117setat 149 ° C. [ 0117
a cooler and more dense air charge ES # : 3551458 Mfg # : 808 - 118 - 101 Weapon - R Secret Weapon Cold Air Intake ES # : 3551459 Mfg # : 308 - 118 - 101creatinga cooler and more dense air charge ES # : 3551458 Mfg # : 808 - 118 - 101 Weapon - R Secret Weapon Cold Air Intake ES # : 3551459 Mfg # : 308 - 118 - 101
at 149 � C. Nozzle chiller return watersetat 149 � C. Nozzle chiller return water
� C. 78Outlet air setting kg / cm-2 1.1Atomisation air pressuresetting� C. 78Outlet air setting kg / cm-2 1.1Atomisation air pressure
for high - output engines with internal engine modifications like cams and porting Intended for off - road use onlyDesignedfor high - output engines with internal engine modifications like cams and porting Intended for off - road use only
Outlet air setting kg / cm.sup.-2settingOutlet air setting kg / cm.sup.-2
to −21 ° Cwas setto −21 ° C
to −21ocwas setto −21oc
to 300 & # 176;Csetto 300 & # 176;C
for Ambient temperature 35oCDesignedfor Ambient temperature 35oC
in more HPresultsin more HP
to 50 degrees Celsiussetto 50 degrees Celsius
to 138.degree . C. and outlet air temperature of 95.degreesetto 138.degree . C. and outlet air temperature of 95.degree
in less compressor workwill resultin less compressor work
points to be between the typical nameplate temperature ( 75 degrees F / 24 degrees C ) and the ASHRAE - recommended limit ( 80 degrees F / 27 degrees C ) for class A1-A4 data centres – assuming all legacy IT hardware is compliantsetpoints to be between the typical nameplate temperature ( 75 degrees F / 24 degrees C ) and the ASHRAE - recommended limit ( 80 degrees F / 27 degrees C ) for class A1-A4 data centres – assuming all legacy IT hardware is compliant
at 45 degrees C ... split vent flow rate was 20 mL / min , evaporation time was 1 min and evaporation temperature was set at 60 degrees C.was setat 45 degrees C ... split vent flow rate was 20 mL / min , evaporation time was 1 min and evaporation temperature was set at 60 degrees C.
in the controller for N 100can be setin the controller for N 100
The dryer(passive) must be setThe dryer
at 35is setat 35
in improved volumetric efficiencyresultingin improved volumetric efficiency
for reciprocating compressors with high discharge temperaturesDesignedfor reciprocating compressors with high discharge temperatures
in more horsesresultsin more horses
in free‐flowing powder and encapsulation yieldresultedin free‐flowing powder and encapsulation yield
in more ponyresultsin more pony
to 2l5 ° C and a throughput set to 500 ml per hoursetto 2l5 ° C and a throughput set to 500 ml per hour
into the baghouseleadinginto the baghouse