250kg/hr of saturated stream at 17 bar absolute is combined with superheated stream at 330C and...

300 kg/hr of superheated steam is used to drive a turbine at a velocity of 50...

300 kg/hr of superheated steam is used to drive a turbine at a velocity of 50 m/s. the superheated steam enters the turbine at 60 bar and 400°C . The stream leaves the turbine as a saturated steam with a velocity of 100 m/s at 1.5 bar. The turbine delivers work and the heat loss from the turbine is 10 KW. a) Calculate the net kinetic energy of the system (delta kE) and determine the work done by the turbine...

A 1000lb-mol/hr stream of gaseous sulfur dioxide is combined with a stoichiometric amount of oxygen at...

A 1000lb-mol/hr stream of gaseous sulfur dioxide is combined with a stoichiometric amount of oxygen at 1000 K and 1 bar. a) How much heat (in BTU/hr) must be added or removed to keep the mixture isothermal if 40% of the sulfur dioxide reacts to form sulfur trioxide. b) calculate the final temperature if the reaction is done in an adiabatic reactor and only 10% of the sulfur dioxide reacts.

Consider a mixing chamber where two separate streams of fluid mix and then exit as a...

Consider a mixing chamber where two separate streams of fluid mix and then exit as a single stream. One of the stream that enters the mixing chamber is superheated steam at 5 bar and 2000C. The other stream that enters the mixing chamber is a liquid water at 5 bars and 400C. The two streams mix in the mixing chamber and exit as a single stream. The single stream that exits is saturated liquid at 5 bar. Determine the ratio...

Air at T1 = 32°C, p1 = 1 bar, 50% relative humidity enters an insulated chamber...

Air at T1 = 32°C, p1 = 1 bar, 50% relative humidity enters an insulated chamber operating at steady state with a mass flow rate of 3 kg/min and mixes with a saturated moist air stream entering at T2 = 7°C, p2 = 1 bar. A single mixed stream exits at T3 = 17°C, p3 = 1 bar. Neglect kinetic and potential energy effects A) Determine mass flow rate of the moist air entering at state 2, in kg/min. (Answer...

Saturated steam at 350 C is used to heat a countercurrent stream of methanol vapor from...

Saturated steam at 350 C is used to heat a countercurrent stream of methanol vapor from 70C to 300C in an adiabatic heat exchanger. The flow rate of methanol is 6000 L (STP) / min, and the steam condenses and leaves the exchanger as liquid water at 80C. a) Calculate the necessary flow of the incoming steam in m 3 / min. b) Calculate the heat flux transferred from water to methanol (kW).

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...

Two products enter an indirect contact heat exchanger that uses steam for heating. The first product...

Two products enter an indirect contact heat exchanger that uses steam for heating. The first product which contains 15% solids enters at the rate of 3 kg/hr and at 10 °C. The second stream which contains 20% solids enters at the rate of 4 kg/hr and at 20 °C. Saturated steam at 140 °C enters the heat exchanger at 0.5 kg/hr with a quality of 95% and exits at 10% quality at 140 °C. The resulting mixture enters an indirect...

In order to heat up a distillation column for separating a mixture of reaction products, a...

In order to heat up a distillation column for separating a mixture of reaction products, a superheated steam, P3 having a flowrate of 1500kg/hr, at 1 bar and superheated condition is used. This steam is provided by a heat exchanger, after blending two steam streams, F1(kg/hr), saturated steam at 0.5 bar discharged from a turbine and F2(kg/hr), superheated steam at 5 bar and 600oC discharged from an exothermic reactor. The mixing unit operates adiabatically. i. Draw the flow diagram for...

Calculate the mass flow rate of dry saturated thermal fluid condensing at 3 bar absolute required...

Calculate the mass flow rate of dry saturated thermal fluid condensing at 3 bar absolute required to heat 0.55 kg/s of a liquid, having a mean specific heat capacity of 2.34J/kg/K from 200 to 300 degree celcius A) 0.47 kg/s B) 0.45 kg/s C) 0.75 kg/s D) 0.5 kg/s dry saturated thermal fluid-steam

Superheated steam at 82 bar, 400 0C, is throttled (∆H = 0) by a valve to...

Superheated steam at 82 bar, 400 0C, is throttled (∆H = 0) by a valve to 41 bar before entering a turbine and exiting as a saturated vapor. If the turbine is isentropic (∆S = 0), report results for T, P, H, S for the 3 states b.) (5 pts) Compute the output work of the turbine, ∆H23, in J/mol. c.) (10 pts) What is the change in Gibbs free energy for the overall 2-step process, in kJ/kg? d.) (15...