Infrared Quantitative Analysis Data. CS-31. Analysis of Phenol

Infrared Quantitative Analysis Data. CS-31. Analysis of Phenol, Cyclohexene, Cyclohexanone, Cyclohexanol Mixtures. R. T. Scheddel. Anal. Chem. , 1958,...
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Determination of 2-, 3-, and 4-Ethyltoluene in Ethyltoluene Mixtures CS-29

1. R. KILEY, The D a w Chemical Co., Midland, Mich. Slit Component Range % Name !Formula

No.

--

1

2-Ethyltoluene

2

3-Ethyltoluene

1

4-Ethyltoluene

Concn. mglml length

(mm)

AX ar Av

~

100 0.1

~

1

100 CQH12 0-100 lt1.0 12.83 0.610 CsH1o Cyclo0.108 0.1 - - - ~ - hexene C9H12 0-100 f1.0 12.29 0.530 100 0.096 0.1

I

I

I

TI

I

Insfrumenf: Perkin-Elmer Model 12, NaCl prism Sample Phase: Solution in carbon disulfide Cell Windows: NaCl Absorbance Measurement: Calculation:

Base line-

Inverted m a t r i r GraphicalX

Relafive Absorbances"-Analytical

P o i n t X

3 Maferial Purity:

12.29~ 0.033 0.040 1.109

Calculafion:

R. C. WILKERSON, M. C. HARVEY, and R. M. GUEDIN Celanese Carp. of America, Clarkwood, Tex.

Component Name Formula

T!Ethane

I I

2

3

Propane

~

,

~

I

-

C2He

csns

I

X or v

Range

yo

%

Pfs.

B.L.

Slit

Concn.

(mm) AX or

mm Hg

Lengfh cm

~ _ _ _ _ _ 0-50 +0.5 12.30 0.631 0.112 ~

0-50

~

10.5

I I

9.35

a,

,

j 0.074

j 0.342 ~

1

I

_ 600 10

1 2

3 4

~

ClHlo

1

0-50

~

10.5

~

8.45

~

Cell Windows: AgCl Absorbance Measuremenf: Calculation:

Base line-

Inverted matrix Graphical-

Relative Absorbances"-Analytical

12.30~ 1 0.664 2 0.033 3 0.090 4 0.082 Material Purity: 99 +%

ComponentlX

X

I

0.555 110 0.100 1.0

I

I

0-100

I

il 0

I

I

0.295 8*91 0.065 10 28 *

0 355 0:070

~

I

10 1.0

1

10 1.0

Base line-

P o i n t X Successive approx-

Mafrix:

13.91~ 0.059 0.509 0.008 0.019

8.911 0.083 0.039 0.507 0.146

10.28~ 0.048 0.031 0.023 0.653

Reference compounds 99 +Yo pure

Relative absorbances are given as the slope of the Beer's law concentration curves used expressed in terms of absorbance per 100% of constituent.

Determination of N-(P-Hydroxyethy1)phenylacetamide in Presence of Ethanolamine and Ethyl Phenylacetate CS-32

W. H. WASHBURN, Abbotf Laboratories, North Chicago, 111. Slit

700 10

Instrument: Perkin Elmer Model 12-C, NaCl prism Sample Phase: Gas

No./

Component Name Formula

1

Range

IConcn. mg/ml AX or ;length

Accuracy

(mmJ

%

Av

mm

____

*l ~

~

0.094 120.0 0.034 0.10

A:ibO,Znt shoulders

Instrument: Perkin-Elmer Model 21, NaCl prism Sample Phase: Solution in CHCls Cell Windows: NaCl Absorbance Measuremenf:

P o i n t X

Base line

X

Point-

Successive approx.Calculafion: Matrix:

9.35~ 0.002 0.353 0.012 0.037

8.45~ 0.003 0.078 0.728 0.012

10.30~ 0.002 0.031 0.013 0.711

Relative absorbances are given as the slope o f the Beer's law concentration curves used expressed in terms of absorbance per 1 OUyo of constituent. Any olefins present must be removed before the analysis is made. a

*l.O

% 0.281 200 0.067 10 1 N-(P-HyCioH13N02 90~-~~~~ 100 droxyethyl) n-Butane CaHlo 0-50 10.5 10.30 0.438 350 phenyl0.086 10 acetamide Isobutane

12.32

CS-30

I

I Accuracy

I I

I

12.32~ 0.639 0.049 0.016 0.024

Componentlh

Analysis of Ethane, Propane, Isobutane, and n-Butane

No.

0-100

Inverted matriGraphical-

Material Purity:

I

I

Relafive Absorbances"-Analytical

Relative absorbances are given as the slope o f the Beer's law concentration curves used expressed in terms o f absorbance per 100% o f constituent.

I 1

I

1.0

Cell Windows: NaCl Absorbance Measurement:

Matrix:

12.831 0.078 0.657 0.072 Reference compounds 99 +yo pure

1 2

0-100 111.0

Concn.

Insfrument: Perkin-Elmer Model 12, NaCl prism Sample Phase: Solution in carbon disulfide

Successive approx.-

13.26~ 1.044 0.147 0.043

ComponentlX

Slif

1

13.26 0.695 0.123

cs-3 1

I

Component mm % Pts. Name Formula - ~ -No./ -

11.0

Cyclohexanone,

R. T. SCHEDDEL, The D a w Chemical Co., Midland, Mich.

- ~ - - -I - - I

3

0-100

C9H12

X or v B.L.

Accuracy

Analysis of Phenol, Cyclohexene, Cyclohexanol Mixtures

Inverted matriGrophicalX

Successive approx.-

Relative Absorbonces@-Analyticul Mafrix: ComponentjX

1

6.05~ 0.454

Material Purity: Reference compounds 99 $70 pure Commenfs: Compensation required for CHCla band at

6.55~

Relative absorbances are given as the slope of the Beer's law concentration curves used expressed in terms of absorbance per 100% o f constituent. a

VOL. 30, NO. 2, FEBRUARY 1958

0

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