Design procedure for designing a steam reformer using rate equations and conversion of methane?

Synthesis gas may be produce by the catalyst reforming of methane with steam. The reactions are:...

Synthesis gas may be produce by the catalyst reforming of methane with steam. The reactions are: CH4 + H2O → CO + 3H2 CO + H2O → CO2 + H2 A small plant is being to produce 1000 mol/s of hydrogen (H2) by the reactions. 280 mol/s of Methane with 100 % of excess steam (excess % relative to the reaction one) are fed to the heat exchanger at 150 °C and heated with superheated vapor. The superheated vapor inlet...

Hi Could anyone please post the procedure for designing primers for PCR using NCBI.

Hi Could anyone please post the procedure for designing primers for PCR using NCBI.

Grignard reaction questions? a. Give equations for a detailed procedure showing the conversion of 1-bromoheptane to...

Grignard reaction questions? a. Give equations for a detailed procedure showing the conversion of 1-bromoheptane to 3-decanol using a Grignard reaction. b. Why is it necessary to clean and cut the magnesium ribbon into small pieces in the preparation of Grignard reagent? c. Why care must be taken to have the reagents and apparatus completely dry when a Grignard reaction is performed. What could be a major side reaction if water were present? d. Ethanol is often present in solvent-grade...

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...

During maintenance of packed bed reactor in steam methane reforming plant, it was observed that there...

During maintenance of packed bed reactor in steam methane reforming plant, it was observed that there is presence of coke (complex carbon compound) on the surface of catalyst. The coke formation would reduce the reactor efficiency, therefore requires close attention. By using general mole balance equation, predict the coke formation inside the reactor.

1. You are to do a preliminary design study for a small demonstration steam turbine power...

1. You are to do a preliminary design study for a small demonstration steam turbine power plant. - Steam will be provided by a small steam generator fired by natural gas.   - Your system will take in steam at 30 bar and 400 oC. - The steam passes through a two stage turbine. At a pressure of 10 bars, the steam leaves the first stage of the turbine and will pass through a reheat loop in the steam generator which...

using reference design values for No. 1 DF-L (Douglass Fir Larch) 10x10 use the format conversion...

using reference design values for No. 1 DF-L (Douglass Fir Larch) 10x10 use the format conversion factor to determine the nominal values for LRFD. Fb=1200 Ft=825 Fv=170 Fc_perpendicular=625 Fc=1000 E=1600000 Emin=580,000

Design a 2-bit binary counter using one JK and one T flip flop. Derive the equations...

Design a 2-bit binary counter using one JK and one T flip flop. Derive the equations for JA, KA and TB. Do not draw the circuit.

What is the importance of using datasheets when designing pads and footprints? How many pads we...

What is the importance of using datasheets when designing pads and footprints? How many pads we need to design for thru-hole polar capacitor? And Why? Which software is used to design thru-hole pads? In PCB Editor, Which one of the following should be used to design thru-hole footprint? Thru-Discrete SMD Discrete DIP

An adiabatic steam turbine produces 3000 hp with a mass flow rate of 20,000 pounds per...

An adiabatic steam turbine produces 3000 hp with a mass flow rate of 20,000 pounds per hour. The steam enters at 1000 °F and 800 psi and exits at 2 psi. Calculate the: a. Phase of fluid exiting the turbine. If it is saturated, determine the quality b. Phase of fluid exiting the turbine if it operated isentropically. If it is saturated, determine the quality. Show all work, equations, and units clearly.