a) What is meant by oscillatory flow equipment? b) How is the volumetric flow rate calculated...

The first-order reaction A--->B is carried out in a tubular reactor in which the volumetric flow...

The first-order reaction A--->B is carried out in a tubular reactor in which the volumetric flow rate is constant. deduce an equation that relates the volume of the reactor with the input and output concentrations of A, the velocity constant k and the volumetric flow rate. determine the volume of the reactor necessary to reduce the output concentration to 1% of the input concentration, when the volumetric flow rate is 10 dm ^ 3 / min and the specific reaction...

How do I convert volume % to volumetric flow rate? This is occurring in a disitillation...

How do I convert volume % to volumetric flow rate? This is occurring in a disitillation column. I have the volume amount poured into the tank, 10L that is 7% methanol. I have a power input of 1.5 kW. I understand the mass balance of a distillation column. What I am confused about is after I found in the distillate, the 1 microliter sample is 5% methanol and 95% water at 5 minutes, how do I conver this to volumetric...

How do I convert volume % to volumetric flow rate? I have the volume amount of...

How do I convert volume % to volumetric flow rate? I have the volume amount of the sample. This is for a disitllate of a disitllation column. I also have the density of each compound at the given temperature ( water and methanol).

1.What is the volumetric flow rate of a solution with density 1.5 kg/m3 flowing at a...

1.What is the volumetric flow rate of a solution with density 1.5 kg/m3 flowing at a velocity of 5 m/s and a mass flow rate of 500 g/min? What is the area of the pipe? If it is circular, what is the radius? 2.Suppose that a river with a molar flow rate of 10000 mol/s meets another, larger river flowing at 500000 m3/s at room temperature. What is the mass flow rate of the river downstream of the intersection if...

The measured volumetric flow rate of ethane at 10.0 atm absolute and 35 ̊C is 1.00×103...

The measured volumetric flow rate of ethane at 10.0 atm absolute and 35 ̊C is 1.00×103 L/h. Using an estimated value of the second virial coefficient in the truncated virial equation of state, (a) calculate molar volume, ?̂ (L/mol) (b) estimate the compressibility factor, z; (c) determine the mass flow rate of ethane in kg/h.

Methane enters a heat e xchanger at a volumetric flow rate of 145.0 m 3 /min,...

Methane enters a heat e xchanger at a volumetric flow rate of 145.0 m 3 /min, at an absolute pressure of 1.013 bar and temperature of 15.0°C. At these conditions, the specific enthalpy of methane is - 23.181 kJ/kg. The methane leaves the heat exchanger at an absolute pressure of 1.0 13 bar and temperature of 60.0°C. The corresponding specific enthalpy at these conditions is 78.656 kJ/kg. The methane is heated by a stream of saturated steam entering the heat...

what is meant by the term incremental cash flow in cash flow estimation

what is meant by the term incremental cash flow in cash flow estimation

discuss what the term "free cash flow" means? How is it calculated? Why is it an...

discuss what the term "free cash flow" means? How is it calculated? Why is it an important metric?

(a) What is meant by “the equivalence point” in a titration? (b) What is meant by...

(a) What is meant by “the equivalence point” in a titration? (b) What is meant by “titration error?” (c) How is titration error minimized in a determination?

Air enters the compressor of an air-standard Brayton cycle with a volumetric flow rate of 60...

Air enters the compressor of an air-standard Brayton cycle with a volumetric flow rate of 60 m3/s at 0.8 bar, 280 K. The compressor pressure ratio is 17.5, and the maximum cycle temperature is 1950 K. For the compressor, the isentropic efficiency is 92% and for the turbine the isentropic efficiency is 95%. Determine: (a) the net power developed, in kW. (b) the rate of heat addition in the combustor, in kW. (c) the percent thermal efficiency of the cycle.