Removal power

ATWS -Revise training on bound control rnip, (hi -Install automatic ADS inhibit (b1 -Install alternate boron injection system i nj -(i apabllllv To remove power lo hiis m li p breaker failure (p) -Install Westinghouse ATWS mitigainni ipi... 

The heat removal power dQx/dt describes the total heat removed from the system in a given unit of time. This can be made up of the cooling capacity, the evaporation rate, and other energy removing terms. 

The compressor efficiency is 80%. The refrigerant is cooled in the condenser to 26°C. Determine the rate of heat added, rate of heat removed, power input, cooling load, and COP of the actual refrigerator. 

The depurative powers of bone char do not remain constant in service. Color and ash-removal power, on an equal weight basis, deteriorate from cycle to cycle of use and reactivation. An example of this deterioration is shown in Table I, which gives results of laboratory tests on... 

Deterioration in Color and Ash Removal Power of Two Adsorbents in Service ... 

Similarly, the hood status was monitored by a discrete contact closure that was connected to the power circuits of the hood. Thus, a failure of the hood exhaust effectively caused a system interlock by removing power to the AIMS. The NI controller was not connected to one of the affected circuits, so it remained operational. Nonetheless, without power in the AIMS, it could not take further action with the system. 

The phenol test also gives a good index of the relative odor-removal power of carbons, but the test is less convenient to conduct. 

The internal temperature will rise in this case due to the self accelerating exothermic reaction. This rise will prevail until the heat removal power exceeds the thermal power of the reaction. In this case, too, the maximum driving temperature difference occurs within the first half of the feed time. The isoperibolic mode shall be treated first. 

Even in the case of a semi-continuous operation this loss in cooling capacity cannot be compensated by the increase of the wetted heat transfer area. Under these operating conditions a decrease of the heat removal power to 1/3 of its original value, again, is not uncommon. 

As previously shown, the gel effect is a result of increasing viscosity, too, leading to higher heat production rates. In consequence it must be understood, that both effects amplify each other. The heat production rate may rise easily by a factor between two and three due to the gel effect, while at the same time the accompanying removal power is diminished to 1/3 down to 1/5 of its original value. Therefore the cooling must be designed in such a way that it can remove 6 to 10 times the power initially necessary to ensure isothermal operation. 

Sequence C Operator attaches processing tree to target properly (or detects and corrects an improper attachment) The target is installed intact in the heater the target overheats due to malfunction of the heater the operator detects the condition and removes power and the target and septum remain intact. There is no release to SCB except in event where subsequent... 

Sequence B Operator does not detect the short/overheat in time to remove power and prevent a combustible material fire that is assumed to breach process containers and release radiological material (Hazard Event CP-6). 

Electrical wiring short/overheat in the target hot air heat gun, target rotator, or waste container tumbler Operator promptly detects short/overheat and removes power Sequence... 

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