Compare, under steady-state conditions, the volumes required for (a) a plug flow reactor and (b) a...

A reactive contaminant decays according to first order kinetics with a rate constant of k. A...

A reactive contaminant decays according to first order kinetics with a rate constant of k. A waste stream containing this contaminant at a concentration of 100 mg/L is treated using an ideal completely mixed flow reactor having a volume 100 L. At steady state conditions, the effluent concentration of the contaminant from the reactor is 20 mg/L. The flow rate of the influent stream is 50 L/hr. The rate constant at which the contaminant decays (k) is

What is the effluent concentration of a reactive contaminant exiting a completely mixed flow reactor after...

What is the effluent concentration of a reactive contaminant exiting a completely mixed flow reactor after 8 hours of operation? Assume that after this length of time, the reactor is at steady state. The volume of the reactor is 100 L and the volumetric flow rate is 50 L/hr. The influent concentration of the contaminant is 80 mg/L and the rate constant for the decay of the contaminant is 0.5 hr-1.

Consider a plug flow reactor with a reversible isothermal gas-phase reaction: A + B <--> C...

Consider a plug flow reactor with a reversible isothermal gas-phase reaction: A + B <--> C The reactor feed consists of a mixture of 50% A and 50% B. The reaction rate is: (-rA) = k1*CA*CB - k2*CC2 The inlet temperature is 500 K and the total pressure is 200 kPa. The volumetric feed flow rate is 10 m3/s. The rate constants have a values of: k1 = 0.1 m3/(mol*s) and k2 = 0,05 m3/(mol*s). a) Calculate the conversion of...

The following parallel liquid-phase reactions are known to occur in a 0.3 m3 plug flow reactor:...

The following parallel liquid-phase reactions are known to occur in a 0.3 m3 plug flow reactor: Reaction 1: M + K --> P + 0.5 T with rT = 0.50 CM Reaction 2: M + K --> 0.7 S + U with rU = 0.21 CM2 M and K are fed into the reactor in a single stream, and the initial concentrations of M and K (CM0 and CK0) are each 12 mol L-1.  What is the overall yield of the...

The following gas-phase reaction takes place in a plug flow reactor (a tubular reactor) that has...

The following gas-phase reaction takes place in a plug flow reactor (a tubular reactor) that has a diameter of 6 inches and cross-sectional area of 0.0388 ft2: A --> B + C. The reaction rate depends only on the concentration of A, CA, and has the following form: rate of destruction of A = k * CA , where k= 0.12 s-1. The feed consists of pure A, and enters the reactor at a volumetric flowrate of 0.193 ft3/s. Determine...

the dynamic response of the reacting concentration in a CSTR reactor CA to a change in...

the dynamic response of the reacting concentration in a CSTR reactor CA to a change in inlet concentration CA0 has to be evaluated. the reactor is operated with constant volume V and isothermal conditions the density is constant the reaction rate is rA=k1CA^2 the mass flow rate is F (a) derive a mathematical model to describe cA(t) and complete steady state conditions for concentration (b) compute a transfer function £cA /£cA0 where (£) indicates deviation variables when the system is...

A perfectly mixed flow reactor is to be used to carry out the exothermic isomerisation reaction...

A perfectly mixed flow reactor is to be used to carry out the exothermic isomerisation reaction A -> R. The rate is given by: (-rA) = kCA (1st order) where k = 4 × 106e-8000/T s-1, where T is in K. The enthalpy of reaction ?HR = -167,480 kJ kmol-1 The molecular mass MA (=MR) = 100 kg kmol-1 CA0 initial concentration of A = 1 kmol m-3 For a temperature of 100°C and a production rate of R of...

An activated sludge system has three square reactor tanks in series (CFSTRs) that are each 60...

An activated sludge system has three square reactor tanks in series (CFSTRs) that are each 60 ft wide, 60 ft long, and 18 ft deep. The engineers have decided to add a new reactor in parallel. It will be a plug flow reactor (PFR) with a depth of 18 feet and a width of 18 feet. The length is to be calculated. The flowrate of wastewater is 2 MGD and the BOD is 165 mg/L. This will be split in...

Two streams of air are mixed in a steady-state process. Assume air is an ideal gas...

Two streams of air are mixed in a steady-state process. Assume air is an ideal gas with a constant heat capacity Cp=7R/2. Stream A: 0.167 mol/s, 250K, 1 bar Stream B: 0.833 mol/s, 310K, 1 bar Stream C: 1 bar (A and B going to the right into tank, and C going to the right out of the tank) a) What is the temperature of the stream leaving the tank if the process is adiabatic? b) What is the rate...

n ideal air-standard Brayton cycle operates at steady state with compressor inlet conditions of 290 K...

n ideal air-standard Brayton cycle operates at steady state with compressor inlet conditions of 290 K and 95 kPa and a fixed turbine inlet temperature of 1650 K. For a compressor pressure ratio of 10, determine: (a) the exhaust temperature of the cycle, in K. (b) the back work ratio. (c) the net work developed per unit mass flowing, in kJ/kg. (d) the heat addition per unit mass flowing, in kJ/kg. (e) the thermal efficiency for the cycle.