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A solution of NaOH in water flows in a stream, and the mass flow rate of...
A hot-water stream at 80°C enters a mixing chamber with a mass flow rate of 0.56...
A hot-water stream at 80°C enters a mixing chamber with a mass flow rate of 0.56 kg/s where it is mixed with a stream of cold water at 20°C. If it is desired that the mixture leave the chamber at 42°C, determine the mass flow rate of the cold-water stream. Assume all the streams are at a pressure of 250 kPa. The enthalpies are 335.02 kJ/kg, 83.915 kJ/kg, and 175.90 kJ/kg. The saturation temperature at a pressure of 250 kPa...
A process stream is 35.0 wt% acetone and 65.0 wt% water, and flows at a rate...
A process stream is 35.0 wt% acetone and 65.0 wt% water, and flows at a rate of 425 kg/s. Calculate the flow rate of acetone in the process stream.
how would is find the molar flow rate or mass flow rate of water when only...
how would is find the molar flow rate or mass flow rate of water when only pressure of inlet stream and outlet stream is given.
What is the mass flow rate of water (in lbw/hr) for a 100 lbda/hr air stream...
What is the mass flow rate of water (in lbw/hr) for a 100 lbda/hr air stream at TDB=90°F and TwB=70°F? (round to one decimal place)
3. Some algorithms for the numerical solution of two-dimensional flows use variables know as the stream...
3. Some algorithms for the numerical solution of two-dimensional flows use variables know as the stream function and the vorticity. These algorithms eliminate the need to solve for the pressure as one of the variables. In this problem we will consider two dimensional flows with constant properties. (a) Show that the continuity and momentum equations for two-dimensional, constant property flows with no body forces are given by the equations below, where v = μ/ρ is the kinematic viscosity. ou a...
QUESTION 4 (25 marks) Water (Cr 4.208 kJ/kg.K) at flow rate of 5.11 kg/s s heated from 78°C to 98°C in an economize...
QUESTION 4 (25 marks) Water (Cr 4.208 kJ/kg.K) at flow rate of 5.11 kg/s s heated from 78°C to 98°C in an economizer inside a boiler. The boiler is a cross flow heat exchanger with single pass, shell fluid mixed and other fluid unmixed. The average water velocity in the 1.5 cm diameter (D) tube is 1.27 m/s. On the shell side, hot air (C,-1.0341 kJ/kgK) was used as the heating fluid with 7.3 kg/s of it entering the exchanger...
Mass Flow Rate Problem
Water exiting the condenser of a power plant at 38ºC enters a cooling tower with a massflow rate of 4.5 x 107 kg/h. A stream of cooled water is returned to the condenser from acooling tower with a temperature of 30ºC and the same flow rate. Makeup water is addedin a separate stream at 20ºC. Atmospheric air enters the cooling tower at 25ºC and 35%relative humidity. Moist air exits the tower at 30ºC and 95% relative humidity.Determine the mass flow...
Hot water flows thorough a parallel flow heat exchanger at a rate of 10 kg/min and...
Hot water flows thorough a parallel flow heat exchanger at a rate of 10 kg/min and is cooled by a cold water stream of flow rate 25 kg/min. The inlet temperatures of hot and cold water streams are 70 oC and 25 oC, respectively. The outlet temperature of the hot water is expected to be 50 oC. The individual convective heat transfer coefficient on both sides of the heat transfer area is 600 W/m2 .K. Take the specific heat for...
Liquid water flows in an ASTM B75 copper tube at a mass flow rate of 3.6...
Liquid water flows in an ASTM B75 copper tube at a mass flow rate of 3.6 g/s. The water enters the tube at 40°C, and the tube surface is subjected to a constant heat flux at a rate of 1.8 kW. The tube is circular with an inner diameter of 25 mm and a length of 3 m. The maximum use temperature for ASTM B75 copper tube is 204°C. Would the surface temperature of the tube exceed the maximum use...
tracs.txstat.uUALUUL Questions 11-16 Consider the system for producing chilled water at the Texas State University central...
tracs.txstat.uUALUUL Questions 11-16 Consider the system for producing chilled water at the Texas State University central plant The chilled water in the cyan/blue pipes comes into contact with the chiller and delivers heat to the cold coils of the chiller. The chiller operates by receiving electrical work from the power grid. The chiller delivers heat from its hot colls to the condenser side water in the green plpes. Assume all rates are constant. Neglect any loss of mass of the...
3. Some algorithms for the numerical solution of two-dimensional flows use variables know as the stream function and the vorticity. These algorithms eliminate the need to solve for the pressure as one of the variables. In this problem we will consider two dimensional flows with constant properties. (a) Show that the continuity and momentum equations for two-dimensional, constant property flows with no body forces are given by the equations below, where v = μ/ρ is the kinematic viscosity. ou a...
QUESTION 4 (25 marks) Water (Cr 4.208 kJ/kg.K) at flow rate of 5.11 kg/s s heated from 78°C to 98°C in an economizer inside a boiler. The boiler is a cross flow heat exchanger with single pass, shell fluid mixed and other fluid unmixed. The average water velocity in the 1.5 cm diameter (D) tube is 1.27 m/s. On the shell side, hot air (C,-1.0341 kJ/kgK) was used as the heating fluid with 7.3 kg/s of it entering the exchanger...
Liquid water flows in an ASTM B75 copper tube at a mass flow rate of 3.6 g/s. The water enters the tube at 40°C, and the tube surface is subjected to a constant heat flux at a rate of 1.8 kW. The tube is circular with an inner diameter of 25 mm and a length of 3 m. The maximum use temperature for ASTM B75 copper tube is 204°C. Would the surface temperature of the tube exceed the maximum use...
tracs.txstat.uUALUUL Questions 11-16 Consider the system for producing chilled water at the Texas State University central plant The chilled water in the cyan/blue pipes comes into contact with the chiller and delivers heat to the cold coils of the chiller. The chiller operates by receiving electrical work from the power grid. The chiller delivers heat from its hot colls to the condenser side water in the green plpes. Assume all rates are constant. Neglect any loss of mass of the...
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