A liquid mixture containing 28 mol% ethanol and 72 mol% 1-propanol is placed in an open...

A liquid mixture containing 28 mol% ethanol and 72 mol% 1-propanol is placed in an open...

A liquid mixture containing 28 mol% ethanol and 72 mol% 1-propanol is placed in an open vessel and heated slowly. If heat is supplied continuously after the mixture begins to boil, how will the liquid temperature change with time? a Txy diagram was not provided. The answer choices were: Not change, increase, or decrease.

1000 kg/h of a 50 wt% liquid mixture of ethanol and water at 20 C is...

1000 kg/h of a 50 wt% liquid mixture of ethanol and water at 20 C is fed continuously to a vessel in which the mixture is heated to 85 C. The liquid product is 30 wt% ethanol and the vapor product is 80 wt% ethanol. a) Complete the material balance for this process. b) Simplify the general energy balance for this process. c) Calculate the amount of heat that is required. In your calculations, you may truncate the heat capacities...

Flash distilling liquid mixture containing 40 mol % A(LK) and 60 mol % B(HK) The flow...

Flash distilling liquid mixture containing 40 mol % A(LK) and 60 mol % B(HK) The flow rate (F) of the mixture supplied to the drum is 100 mol/h. a fraction (yA; unit) of A present in a (a) vapor phase obtained under the following design conditions. mol % and (b) the recovery rate of B at this time (the amount of B obtained by liquid relative to the amount B present in the raw material); but Calculate the % above....

1. Consider the system of 46g (1 mole) sample of liquid ethanol at 1bar of pressure...

1. Consider the system of 46g (1 mole) sample of liquid ethanol at 1bar of pressure in aan open beaker on a cold hot plate in a lab that is 20C . Given the data below explain the conditions that must occur for the sample to convert from the liquid to the gas. C2H5OH (lq) C2H5OH (vap) The enthalpy (∆H) for this conversion is a measure of how much energy it takes to break the bonds between the ethanol molecules...

Imagine that you have two cups, one containing 1540 g of water and the other one...

Imagine that you have two cups, one containing 1540 g of water and the other one containing some amount of an unknown liquid. The specific heat of water is 4.19 J/g·°C, and the specific heat of the unknown liquid is 7.03 J/g·°C. You use two identical immersion heaters to heat the water and the unknown liquid simultaneously. Assume that all the heat from the heater is used to heat the content of the cups. (a) You started heating the water...

1. An unknown volume of gas has a pressure of 365 mm Hg and a temperature...

1. An unknown volume of gas has a pressure of 365 mm Hg and a temperature of 52oC. If the pressure is raised to 1.2 atm, the temperature decreased to 47oC, and the final volume measured to be 4.8×103 mL, what was the initial volume of the gas in liters? a. A gas that has a volume of 28 liters, a temperature of 45°C, and an unknown pressure has its volume increased to 34 liters and its temperature decreased to...

A tank of 0.1 m3 volume initially containing nitrogen at 25 C and 1 bar will...

A tank of 0.1 m3 volume initially containing nitrogen at 25 C and 1 bar will be filled with compressed nitrogen at a rate of 20 mol/s. The nitrogen coming from the compressor and into the tank is at an absolute pressure of 110 bar and a temperature of 80 C. The filling process occurs sufficiently rapidly that there is negligible heat transfer between the gas and the tank walls, and a valve is closed to stop the filling process...

Procedure 1. A 25 mL round bottom flask equipped with a stir bar is loaded with...

Procedure 1. A 25 mL round bottom flask equipped with a stir bar is loaded with 13 mg of CdO powder, 0.6 mL of oleic acid, and 10 mL of 1-octadecene. The reaction flask is placed into a heating mantle and surrounded with aluminum foil so that the temperature can reach 225 °C, which will take approximately 1 hr. Some hot plates may heat up faster and the experiment can be performed sooner. 2. As the CdO solution is heating,...

Procedure Reaction 1: Dissolving the Copper 1. Obtain a clean, dry, glass centrifuge tube. 2. Place...

Procedure Reaction 1: Dissolving the Copper 1. Obtain a clean, dry, glass centrifuge tube. 2. Place a piece of copper wire in a weighing paper, determine the mass of the wire and place it in the centrifuge tube. The copper wire should weigh less than 0.0200 grams. 3. In a fume hood, add seven drops of concentrated nitric acid to the reaction tube so that the copper metal dissolves completely. Describe your observations in the lab report. (Caution, Concentrated nitric...

1. Answer EITHER part (a) OR part (b). (a) A gas scrubber on an oilrig discharged...

1. Answer EITHER part (a) OR part (b). (a) A gas scrubber on an oilrig discharged gas periodically such that an accumulation of hydrocarbon gas nearby had occurred. A contractor welder was dispatched to a job immediately adjacent to the area and it being a shift change and personnel unavailable temporarily, the welder decided to commence welding. As a consequence, an incident occurred. Describe briefly: (i) what you imagine was the incident including any hazards existing prior to or during...