Gas A (MW =16) is flowing at 230°F and 24.5 psia with a volume of 400...

Helium is steadily flowing through a duct. At the entrance of the duct the gas is...

Helium is steadily flowing through a duct. At the entrance of the duct the gas is at 40 psia and 120 oF, flowing at a rate of 20 ft/s as a result of a fan in the duct. At the duct exit, the helium is at 190 oF and 30 psia. The duct has a constant cross-sectional area of 0.5ft2. Calculate the following: a. Volumetric flow rate at the inlet [ft3/min] b. Mass flow rate [lbm/s] c. Velocity at the...

An 850-MW Rankine cycle operates with turbine inlet steam at 1200 psia and 1000°F and condenser...

An 850-MW Rankine cycle operates with turbine inlet steam at 1200 psia and 1000°F and condenser pressure at 1 psia. There are three feedwater heaters placed optimally as follows: (a) the high-pressure heater is of the closed type with drains cascaded backward; (b) the intermediate-pressure heater is of the open type; (c) the low- pressure heater is of the closed type with drains pumped forward. Each of the turbine sections has the same polytropic efficiency of 90 percent. The pumps...

An unknown ideal gas enters a 25 cm-diameter pipe steadily at 250 kPa and 47C with...

An unknown ideal gas enters a 25 cm-diameter pipe steadily at 250 kPa and 47C with a velocity of 5 m/s. The ideal gas gains heat as it flows and leaves the pipe at 77C and 225 kPa. The gas constant of the ideal gas is R=0.285 kJ/kg.K. Determine: a) the volume flow rate at the inlet b) the mass flow rate c) the velocity at the exit

Steam leaves the boiler of a 100 MW Rankine cycle power plant at 400°C and 3.5MPa....

Steam leaves the boiler of a 100 MW Rankine cycle power plant at 400°C and 3.5MPa. The Turbine has an isentropic efficiency of 85% and exhausts at 15 kPa. In the condenser, the water is subcooled to 38°C by lake water at 13°C. The pump isentropic efficiency is 75%. a) Draw and label the T-s diagram for this cycle b) Determine the cycle’s thermal efficiency c) Determine the mass flow rate of the steam in the boiler (kg/h) d) Determine...

1. Ideal gas law and molar mixing ratios a. CO2 molar mixing ratios are 400 ppmv....

1. Ideal gas law and molar mixing ratios a. CO2 molar mixing ratios are 400 ppmv. What is this as a percent abundance? b. CFC-11 molar mixing ratios are 250 pptv. What is this as a percent abundance? c. Calculate the ozone concentration in µg/m3 for a polluted day in Mexico City (200 ppbv ozone, temperature = 30 °C, pressure = 0.77 atmospheres pressure). d. Helium gas contains trace amounts of methane (helium is obtained from some oil and gas...

A gas has a volume of 5 liters at 25 degrees C (25⁰ C). Find the...

A gas has a volume of 5 liters at 25 degrees C (25⁰ C). Find the final temperature of the gas if the volume doubles to 10 liters. Show both the equation you used to get your answer as well as your work. Also, why or why not your answer makes physical sense based on what you have learned in class. A weather balloon has a volume of 1800 liters at 103 kPa (kilo Pascals). The balloon is released into...

A small lake, which is initially clean and has an initial volume of 40,000 cubic meters,...

A small lake, which is initially clean and has an initial volume of 40,000 cubic meters, has two creeks flowing into it (creek A and creek B) and one creek flowing out (creek C). Each day, 800 cubic meters of water flow into the lake from creek A, 200 cubic meters per day flow into the lake from creek B, and 1000 cubic meters flow out of the lake via creek C. At time t = 0, the water flowing...

1) A nozzle is a device for increasing the velocity of a steadily flowing stream of...

1) A nozzle is a device for increasing the velocity of a steadily flowing stream of fluid. At the inlet to a certain nozzle the enthalpy of the fluid is 3025 kJ/kg and the velocity is 60 m/s. At the exit from the nozzle the enthalpy is 2790 kJ/kg. The nozzle is horizontal and there is negligible heat loss from it. (i) Find the velocity at the nozzle exit. (ii) If the inlet area is 0.1 m2 and specific volume...

(a) Explain the concept of fractional yield and why it is important in reaction engineering. [5...

(a) Explain the concept of fractional yield and why it is important in reaction engineering. [5 MARKS] (b) A reactant A undergoes a reaction in the gas phase as per equation (1): A ® B+C (1) (i) Thereactionissecondorderandthevaluesoftherateconstantparameterare k10=3x103 m3 mol-1 s-1 and Ea1= 50000 J mol-1 . If the reaction takes place at 300 °C, given that the feed is pure A at 1 atmosphere and that the molar flow rate is 1000 molA h-1, find the volume of...

If the number of moles of an ideal gas in a firm container doubles while volume...

If the number of moles of an ideal gas in a firm container doubles while volume and temperature remain constant … a. pressure doubles b. pressure quadruple c. pressure remains constant d. pressure is reduced to half e. pressure is reduced to a quarter    a     b     c     d     e incorrect IncorrectQuestion 2 0 / 1 pts There are 3 balloons sitting next to each other, each of a different size. What is in the biggest...