pheric) When the level of the ethanol in the tank is 150 cm below the top (h= 150 cm), the manometer fluid level in the open arm is at the height of the point where the manometer connects to the tank. What manometer reading, R (cm), would be observed if the manometer fluid is (i) mercury or (ii) water? Which manometer fluid would you use and why? uld work if the manometer were filled with ethanol.

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3. At a biorefinery which is producing ethanol, an open storage tank is being used to store the ethanol. The level of the fluid in the tank fluctuates between 10 cm and 400 cm from the top of the tank. Since you cannot see inside the tank, an open-ended manometer with water or mercury (Hg) as the manometer fluid is used to determine the height of the fluid. One end of the manometer is attached to the tank 500 cm from the top. A nitrogen (N2 gas) blanket at atmospheric pressure is maintained over the tank contents. Specific gravities of ethanol and mercury are 0.789 and 13.6, respectively. 000 40/3 m3 Ka 1-13600 m3 N₂ out TE J4 N₂ in 10 <m <h < 400cm cm ✓ ethanol 500cm m 0.789 13.6 aspheric) = 150 cm), the (a) When the level of the ethanol in the tank is 150 cm below the top (h manometer fluid level in the open arm is at the height of the point where the manometer connects to the tank. What manometer reading, R (cm), would be observed if the manometer fluid is (i) mercury or (ii) water? Which manometer fluid would you use and why? (b) Briefly describe how the system would work if the manometer were filled with ethanol I min steady state, No frictional effects manometer "fluid (H₂0 Or Hg)