The absorption rate of ethylene gas produced by ripening durian using special activated carbon can be calculated by the following formula: C = 2.315 x 10-14(x5 – (7.2 x 105)x³ + (1.29 x 1011)x) UTM UTM UTM where x = the weight in gram of the activated carbon. ITM UT (a) Use graphical methods to identify the absorption rate has maximum or minimum value in range x UTM - 0 gram and x = 500 gram by fill in Table 2.1 (use 2 decimals points) and sketch the function curve in Figure 2.1. UTM UIM Table 2.1 TM F UTM 0.6 х. gram (cm/g.min) 0.5 100 0.4 200 300 400 UTM 500 0.2 0.1 UTM TM FUI 100 LTM UTM TUTM 200 300 Weight of the activated carbon, x (gram) 400 500 600 TM UIM Figure 2.1 TMUTM ETM UTM Absorption rate, C (cm³/g.min)

The absorption rate of ethylene gas produced by ripening durian using special activated carbon can be calculated by the following formula: C = 2.315 x 10-14(x5 – (7.2 x 105)x³ + (1.29 x 1011)x) UTM UTM UTM where x = the weight in gram of the activated carbon. ITM UT (a) Use graphical methods to identify the absorption rate has maximum or minimum value in range x UTM - 0 gram and x = 500 gram by fill in Table 2.1 (use 2 decimals points) and sketch the function curve in Figure 2.1. UTM UIM Table 2.1 TM F UTM 0.6 х. gram (cm/g.min) 0.5 100 0.4 200 300 400 UTM 500 0.2 0.1 UTM TM FUI 100 LTM UTM TUTM 200 300 Weight of the activated carbon, x (gram) 400 500 600 TM UIM Figure 2.1 TMUTM ETM UTM Absorption rate, C (cm³/g.min)

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Question

The absorption rate of ethylene gas produced by ripening durian using special activated carbon can be
calculated by the following formula:
* UTM
C = 2.315 x 10-14(x5 – (7.2 x 105)x³ + (1.29 x 1011)x)
UTM
where x = the weight in gram of the activated carbon.
UTM UT
(a) Use graphical methods to identify the absorption rate has maximum or minimum value in range x
UTM
0 gram and x = 500 gram by fill in Table 2.1 (use 2 decimals points) and sketch the function
curve in Figure 2.1.
TM E LTM
Table 2.1
0.6
х.
gram
(cm³/g.min)
0.5
100
0.4
200
300
UTM
400
500
0.2
0.1
100
200
300
LTM E UTM TUTM
400
Weight of the activated carbon, x (gram)
500
600
-TM EUTM
Figure 2.1
-TM UTM
-ITMUTM
Absorption rate, C (cm/g.min)

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