Determine the lower and higher heating values in kJ/kg of stoichiometric combustion of liquid ethanol at...

The following information is given for ethanol at 1 atm: Boiling Temp = 78.40°C Delta H...

The following information is given for ethanol at 1 atm: Boiling Temp = 78.40°C Delta H vaporization(78.40°C) = 837.0 J/g Melting Temp = –114.50°C Delta H fusion(–114.50°C) = 109.0 J/g Specific heat gas = 1.430 J/g °C Specific heat liquid = 2.460 J/g °C A 45.30 g sample of liquid ethanol is initially at 19.90°C. If the sample is heated at constant pressure (P = 1 atm), ________ kJ of energy are needed to raise the temperature of the sample...

Methanol vapor is burned with excess air in a catalytic combustion chamber. Liquid methanol initially at...

Methanol vapor is burned with excess air in a catalytic combustion chamber. Liquid methanol initially at 25 ◦C is vaporized at 1.1 atm and heated to 100 ◦C; the vapor is mixed with air that has been preheated to 1100 ◦C, and the combined stream is fed to the reactor at 100 ◦C and 1 atm. The reactor effluent emerges at 300 ◦Cand 1atm. Analysis of the product gas yields a dry-basis composition of 4.8% CO2, 14.3% O2, and 80.9%...

Combustion of 1 g of propane and 15 g of air at 1 atm and 25°C...

Combustion of 1 g of propane and 15 g of air at 1 atm and 25°C yields hot combustion gas. The heat released by combustion (ΔH) of one kg propane is 45 MJ/kg. The energy required to heat one kg of combustion gas one degree C at constant pressure (cp) is 1 kJ/kg/°C. Without heat loss, what is the temperature of the hot combustion gas?

If 42.0 kJ of heat is added to a 32.0-g sample of liquid methane under 1...

If 42.0 kJ of heat is added to a 32.0-g sample of liquid methane under 1 atm of pressure at a temperature of -170 ∘C, what is the final state of the methane once the system equilibrates? Assume no heat is lost to the surroundings. The normal boiling point of methane is -161.5 ∘C. The specific heats of liquid and gaseous methane are 3.48 and 2.22 J/g⋅K, respectively. Why is it be gas veres liqiud? also What is the final...

Two kg water at 120°C with a quality of 25% has its temperature raised 20°C in...

Two kg water at 120°C with a quality of 25% has its temperature raised 20°C in a constant volume process. According to the thermodynamic tables in your textbook, what is the new specific entropy (in kJ/(kg?K))? -another qustion-: Consider the same ammonia heat engine as problems 6-5 and 6-6, which has the following reversible steps: 1 ? 2 Isothermal heating of saturated liquid @ 60°C to superheated vapor 2 ? 3 Adiabatic expansion to saturated vapor at -20°C 3 ?...

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of...

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of water at 100 kPa and half of the mass is in the liquid phase. An electric resistance heater placed in the tank is now turned on and kept on until all the liquid in the tank is vaporized (state 2). Determine (a) the initial specific volume in m3/kg, (b) the final specific entropy in kJ/kg.K and (c) change of entropy in kJ/K.

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of...

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of water at 100 kPa and half of the mass is in the liquid phase. An electric resistance heater placed in the tank is now turned on and kept on until all the liquid in the tank is vaporized (state 2). Determine (a) the initial specific volume in m3/kg, (b) the final specific entropy in kJ/kg.K and (c) change of entropy in kJ/K.

Determine the chemical exergy of diesel fuel at 25 ◦C, 1 atm, in kJ/kg . Model...

Determine the chemical exergy of diesel fuel at 25 ◦C, 1 atm, in kJ/kg . Model diesel fuel as dodecane.

Determine the heat required to accomplish the following processes: (a) heat 1 mole of liquid water...

Determine the heat required to accomplish the following processes: (a) heat 1 mole of liquid water from room temperature (25 °C) to its boiling temperature (100 °C at 1 atm presssure). (b) vaporize the water at 100 °C (c) heat the steam to 150 °C (d) now condense the 150 °C steam and cool it to the initial temperature, 25 °C. (e) Notice which of the steps in the heating process above involves the most heat. Provide an explanation.

Problem 2. A novel gaseous hydrocarbon fuel CxHy is proposed for use in spark-ignition engines. A...

Problem 2. A novel gaseous hydrocarbon fuel CxHy is proposed for use in spark-ignition engines. A sample analysis of this fuel revealed that its molecular weight is 140 kg/kmol and its molar H/C ratio is 2. In order to evaluate some of its properties, the fuel was burned with stoichiometric atmospheric air in a constant pressure, steady-flow reactor. The fuel and air entered the reactor at 25 C, and the products of complete combustion were cooled to 25 C. At...