Consider the reactor shown in the figure. The concentration (in mg/l) of a compound in the influent and effluent are C0 and C, flow rate through the reactor is Q m3/h respectively. The compound is degraded in the reactor following the first order reactions. The mixing condition of the reactor Complete Mix Flow Reactor (CMFR) or a plug-flow reactor (PFR). The length of the reactor can be adjusted in these two mixing conditions to LCMFR and LPER while keeping the cross-section of the reactor constant. Assuming steady state and for C/C0 = 0.8, the value of LCMFR/LPER (round off to 2 decimal places) is _______Correct answer is '1.12'. Can you explain this answer?

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Consider the reactor shown in the figure. The concentration (in mg/l) of a compound in the influent and effluent are C₀ and C, flow rate through the reactor is Q m³/h respectively. The compound is degraded in the reactor following the first order reactions. The mixing condition of the reactor Complete Mix Flow Reactor (CMFR) or a plug-flow reactor (PFR). The length of the reactor can be adjusted in these two mixing conditions to L_CMFR and L_PER while keeping the cross-section of the reactor constant. Assuming steady state and for C/C₀ = 0.8, the value of L_CMFR/L_PER (round off to 2 decimal places) is _______

Correct answer is '1.12'. Can you explain this answer?

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Consider the reactor shown in the figure. The concentration (in mg/l) ...

A = constant
Q = AL
For plug flow

detention time for plug flow reaction]
For completely mix =

detention time for completely mix reaction]

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Consider the reactor shown in the figure. The concentration (in mg/l) of a compound in the influent and effluent are C0 and C, flow rate through the reactor is Q m3/h respectively. The compound is degraded in the reactor following the first order reactions. The mixing condition of the reactor Complete Mix Flow Reactor (CMFR) or a plug-flow reactor (PFR). The length of the reactor can be adjusted in these two mixing conditions to LCMFR and LPER while keeping the cross-section of the reactor constant. Assuming steady state and for C/C0 = 0.8, the value of LCMFR/LPER (round off to 2 decimal places) is _______Correct answer is '1.12'. Can you explain this answer?

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Consider the reactor shown in the figure. The concentration (in mg/l) of a compound in the influent and effluent are C0 and C, flow rate through the reactor is Q m3/h respectively. The compound is degraded in the reactor following the first order reactions. The mixing condition of the reactor Complete Mix Flow Reactor (CMFR) or a plug-flow reactor (PFR). The length of the reactor can be adjusted in these two mixing conditions to LCMFR and LPER while keeping the cross-section of the reactor constant. Assuming steady state and for C/C0 = 0.8, the value of LCMFR/LPER (round off to 2 decimal places) is _______Correct answer is '1.12'. Can you explain this answer? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared according to the Civil Engineering (CE) exam syllabus. Information about Consider the reactor shown in the figure. The concentration (in mg/l) of a compound in the influent and effluent are C0 and C, flow rate through the reactor is Q m3/h respectively. The compound is degraded in the reactor following the first order reactions. The mixing condition of the reactor Complete Mix Flow Reactor (CMFR) or a plug-flow reactor (PFR). The length of the reactor can be adjusted in these two mixing conditions to LCMFR and LPER while keeping the cross-section of the reactor constant. Assuming steady state and for C/C0 = 0.8, the value of LCMFR/LPER (round off to 2 decimal places) is _______Correct answer is '1.12'. Can you explain this answer? covers all topics & solutions for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Consider the reactor shown in the figure. The concentration (in mg/l) of a compound in the influent and effluent are C0 and C, flow rate through the reactor is Q m3/h respectively. The compound is degraded in the reactor following the first order reactions. The mixing condition of the reactor Complete Mix Flow Reactor (CMFR) or a plug-flow reactor (PFR). The length of the reactor can be adjusted in these two mixing conditions to LCMFR and LPER while keeping the cross-section of the reactor constant. Assuming steady state and for C/C0 = 0.8, the value of LCMFR/LPER (round off to 2 decimal places) is _______Correct answer is '1.12'. Can you explain this answer?.

Solutions for Consider the reactor shown in the figure. The concentration (in mg/l) of a compound in the influent and effluent are C0 and C, flow rate through the reactor is Q m3/h respectively. The compound is degraded in the reactor following the first order reactions. The mixing condition of the reactor Complete Mix Flow Reactor (CMFR) or a plug-flow reactor (PFR). The length of the reactor can be adjusted in these two mixing conditions to LCMFR and LPER while keeping the cross-section of the reactor constant. Assuming steady state and for C/C0 = 0.8, the value of LCMFR/LPER (round off to 2 decimal places) is _______Correct answer is '1.12'. Can you explain this answer? in English & in Hindi are available as part of our courses for Civil Engineering (CE). Download more important topics, notes, lectures and mock test series for Civil Engineering (CE) Exam by signing up for free.

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