Cp = 1.0034´103 m2/s2-K for the dry air and Cp = 1.856´103 m2/s2-K for the moist...

How much moisture per pound of dry air is removed by air entering moist grain at...

How much moisture per pound of dry air is removed by air entering moist grain at 110 degrees F dry bulb temperature and exiting the grain at 90% RH and 68 degrees F wet bulb?

At 270 C temperature and 760 mmHG Pressure density of dry air is 1.184 kgm-3. At...

At 270 C temperature and 760 mmHG Pressure density of dry air is 1.184 kgm-3. At the same temperature and pressure the density of moist air is 0.624 kgm-3. When pressure is at 760 mmHG and at dew point 11.250 C calculate the mass of 1 L of moist air. (at 11.250C the saturated vapour pressure of water is 10 mmHG)

air pressure of 103 kPa., entering the compressor at a temperature of 15 degrees Celsius and...

air pressure of 103 kPa., entering the compressor at a temperature of 15 degrees Celsius and a low speed. 1 mPa pressure, 336 degrees Celsius temperature and 106 m / s speed is coming out of the compressor. The compressor is cooled by air at a temperature of 15 degrees Celsius and 26 kW. The power input to the compressor is 298 kW. (cp= 1.005kj/kgK , R=0.287 kj/kgK) a) Find the mass flow of air b) calculate the irreversibility in...

Dry air at a temperature of 300 K, total pressure of 1 atm, and velocity of...

Dry air at a temperature of 300 K, total pressure of 1 atm, and velocity of 0.5 m/s blows parallel to the length of a pool of liquid water maintained at 278 K. The length of the pool is 10 m and the width is 4 m. At 278 K, the vapor pressure of water is 1620 Pa. What is the evaporation rate of water from the pool?

A sugar solution (? = 1080 kg/m3, cp = 3601 J/kg ? K, kf = 0.5764...

A sugar solution (? = 1080 kg/m3, cp = 3601 J/kg ? K, kf = 0.5764 W/m ? K, ? = 1.3 × 10–3 N ? s/m2) flows at rate of 60,000 kg/hr and is to be heated from 25°C to 50°C. Water at 95°C is available at a flow rate of 75,000 kg/hr (cp = 4004 J/kg ? K). It is proposed to use a one shell pass and two tubes pass shell-and-tube heat exchanger containing 3/4 in. OD,...

Consider a turbine; working substance is air. Cp = 1.0 kJ/kgK , k=1.4 ,V1=0.03 m3/kg ,...

Consider a turbine; working substance is air. Cp = 1.0 kJ/kgK , k=1.4 ,V1=0.03 m3/kg , V2=0.08 , P1 = 2.5 bar ; state 1 is enterance, state 2 is the exit of the turbine. The turbine is not ideal (isentropic); the air goes through a state change according to PV^n = constant , n =1.6 Compute the ideal and actual specific works and turbine efficiency.

Methane gas (CH4) at 25 °C is burned steadily with dry air, which enters a combustion...

Methane gas (CH4) at 25 °C is burned steadily with dry air, which enters a combustion chamber of a natural gas boiler in a small power plant at 17 °C. The volumetric analysis of the flue gas on a dry basis is 5.2% carbon dioxide, 0.33% carbon monoxide, 11.24% diatomic oxygen, and 83.23% diatomic nitrogen. The flue gas leaves at 700 K. a) Sketch a fully labelled schematic diagram of the system. b) Write a balanced chemical equation for the...

Air is cooled from 300 K to 273 K as it flows steadily through a duct....

Air is cooled from 300 K to 273 K as it flows steadily through a duct. Frictional dissipation may be neglected. Cooling is achieved by removing heat via a heat pump. The work requirement is 1.15 times that of a reversible heat pump operating between 263 and 310 K. For each mole of air flowing through the duct, calculate: Air can be assumed an ideal gas with a constant heat capacity cP of 3.50R. The temperature of the surroundings is...

One mole of NH3(g) is reversibly heated from 300 K to 1300 K at 1.00 bar...

One mole of NH3(g) is reversibly heated from 300 K to 1300 K at 1.00 bar pressure. Calculate q, w, ∆U, ∆H and ∆S. Data The molar heat capacity of NH3(g) is given by the equation Cpm(T) = a0 + a1T + a2T^2 with constants a0 = 24.295, a1 = 0.03990, −7.814 × 10−6 . Cpm is in units of J K−1 mol−1 and T is in units of K. Hints: dq = dH = CpdT and dS = dq/T...

Carbon monoxide reacts with air at 1 atm and 1000 K in an exhaust gas reactor....

Carbon monoxide reacts with air at 1 atm and 1000 K in an exhaust gas reactor. The mole fractions of the exhaust gas-air mixture flowing into the reactor are CO, 3%; O2, 7%; N2, 74%; CO2, 6%; H2O, 10%. (a) Calculate the concentration of CO and O2 in gram moles per cm3 in the entering mixture. (b) The rate of reaction is given by d[CO]/dt = -4.3x1011 x [CO][O2]0.25 exp[-E/(RT)] [ ] denotes concentration in gram moles per cm3, E/R...