Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order Calculator

✖Initial Concentration in Macro and Micro Fluid refers to the Concentration of that Reactant at the Beginning of a Chemical Reaction, precisely when the Reaction is initiated.ⓘ Initial Concentration in Macro and Micro Fluid [C_A0]			+10% -10%
✖Second Order Rate Constant is the Constant for Reaction Rate at 2nd Order, the units of a second-order rate constant must be the inverse (M−1·s−1).ⓘ Second Order Rate Constant [k₂]			+10% -10%
✖Mean Pulse Curve is the ratio between Volume of Reactor and Volumetric Flow Rate.ⓘ Mean Pulse Curve [T]			+10% -10%

✖Concentration of Soln for Macro and Micro Fluid is a measure of the amount of Solute dissolved in a Solvent. It Quantifies the ratio of the amount of Solute to the amount of Solvent.ⓘ Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order [C_soln]

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Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order Solution

STEP 0: Pre-Calculation Summary

Formula Used

Concentration of Soln for Macro and Micro Fluid = Initial Concentration in Macro and Micro Fluid/(1+(Initial Concentration in Macro and Micro Fluid*Second Order Rate Constant*Mean Pulse Curve))
C_soln = C_A0/(1+(C_A0*k₂*T))
This formula uses 4 Variables

Variables Used

Concentration of Soln for Macro and Micro Fluid - (Measured in Mole per Cubic Meter) - Concentration of Soln for Macro and Micro Fluid is a measure of the amount of Solute dissolved in a Solvent. It Quantifies the ratio of the amount of Solute to the amount of Solvent.
Initial Concentration in Macro and Micro Fluid - (Measured in Mole per Cubic Meter) - Initial Concentration in Macro and Micro Fluid refers to the Concentration of that Reactant at the Beginning of a Chemical Reaction, precisely when the Reaction is initiated.
Second Order Rate Constant - (Measured in Cubic Meter per Mole Second) - Second Order Rate Constant is the Constant for Reaction Rate at 2nd Order, the units of a second-order rate constant must be the inverse (M−1·s−1).
Mean Pulse Curve - (Measured in Second) - Mean Pulse Curve is the ratio between Volume of Reactor and Volumetric Flow Rate.

STEP 1: Convert Input(s) to Base Unit

Initial Concentration in Macro and Micro Fluid: 80 Mole per Cubic Meter --> 80 Mole per Cubic Meter No Conversion Required
Second Order Rate Constant: 0.0019 Cubic Meter per Mole Second --> 0.0019 Cubic Meter per Mole Second No Conversion Required
Mean Pulse Curve: 3 Second --> 3 Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_soln = C_A0/(1+(C_A0*k₂*T)) --> 80/(1+(80*0.0019*3))

Evaluating ... ...

C_soln = 54.9450549450549

STEP 3: Convert Result to Output's Unit

54.9450549450549 Mole per Cubic Meter --> No Conversion Required

FINAL ANSWER

54.9450549450549 ≈ 54.94505 Mole per Cubic Meter <-- Concentration of Soln for Macro and Micro Fluid

(Calculation completed in 00.004 seconds)

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Created by Pavan Kumar

Anurag Group of Institutions (AGI), Hyderabad

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DJ Sanghvi College of Engineering (DJSCE), Mumbai

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< Earliness of Mixing,Segregation,RTD Calculators

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Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order Formula

LaTeX Go

What is Microfluid and Macrofluid ?

In a Microfluid, the clumps are dispersed: all molecules move independently of one another, regardless of age, where in a Macrofluid, molecules move together in clumps; the clumps are distributed in residence times, but all molecules within a clump have the same age.

What is Earliness of Mixing ?

Earliness of mixing refers to the phenomenon in which mixing or blending of components in a system occurs earlier than anticipated or desired. This concept is often discussed in the context of chemical reactions, manufacturing processes, or any situation where a homogeneous mixture or blend is desired. The degree of earliness of mixing can depend on various factors, including the mixing equipment, the properties of the components being mixed, and the overall process conditions.

How to Calculate Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order?

Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order calculator uses Concentration of Soln for Macro and Micro Fluid = Initial Concentration in Macro and Micro Fluid/(1+(Initial Concentration in Macro and Micro Fluid*Second Order Rate Constant*Mean Pulse Curve)) to calculate the Concentration of Soln for Macro and Micro Fluid, The Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order formula is defined as Concentration of Reactant, present in Microfluid and Microfluid, flowing through Plug Flow Reactor .The Concentration profiles may vary significantly along the length of the Microfluidic channel, whereas at Macrofluidic Channel, involves larger volumes, the concentration profiles in a plug flow reactor would also vary along the reactor length. Concentration of Soln for Macro and Micro Fluid is denoted by C_soln symbol.

How to calculate Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order using this online calculator? To use this online calculator for Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order, enter Initial Concentration in Macro and Micro Fluid (C_A0), Second Order Rate Constant (k₂) & Mean Pulse Curve (T) and hit the calculate button. Here is how the Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order calculation can be explained with given input values -> 54.94505 = 80/(1+(80*0.0019*3)).

FAQ

What is Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order?

The Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order formula is defined as Concentration of Reactant, present in Microfluid and Microfluid, flowing through Plug Flow Reactor .The Concentration profiles may vary significantly along the length of the Microfluidic channel, whereas at Macrofluidic Channel, involves larger volumes, the concentration profiles in a plug flow reactor would also vary along the reactor length and is represented as C_soln = C_A0/(1+(C_A0*k₂*T)) or Concentration of Soln for Macro and Micro Fluid = Initial Concentration in Macro and Micro Fluid/(1+(Initial Concentration in Macro and Micro Fluid*Second Order Rate Constant*Mean Pulse Curve)). Initial Concentration in Macro and Micro Fluid refers to the Concentration of that Reactant at the Beginning of a Chemical Reaction, precisely when the Reaction is initiated, Second Order Rate Constant is the Constant for Reaction Rate at 2nd Order, the units of a second-order rate constant must be the inverse (M−1·s−1) & Mean Pulse Curve is the ratio between Volume of Reactor and Volumetric Flow Rate.

How to calculate Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order?

The Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order formula is defined as Concentration of Reactant, present in Microfluid and Microfluid, flowing through Plug Flow Reactor .The Concentration profiles may vary significantly along the length of the Microfluidic channel, whereas at Macrofluidic Channel, involves larger volumes, the concentration profiles in a plug flow reactor would also vary along the reactor length is calculated using Concentration of Soln for Macro and Micro Fluid = Initial Concentration in Macro and Micro Fluid/(1+(Initial Concentration in Macro and Micro Fluid*Second Order Rate Constant*Mean Pulse Curve)). To calculate Reactant Concentration of Microfluid and Macrofluid in Plug Flow Reactor at Second Order, you need Initial Concentration in Macro and Micro Fluid (C_A0), Second Order Rate Constant (k₂) & Mean Pulse Curve (T). With our tool, you need to enter the respective value for Initial Concentration in Macro and Micro Fluid, Second Order Rate Constant & Mean Pulse Curve and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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