chemical product design how is it done?...2000-11-15-01 how is it done? molecular knowledge systems,...
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![Page 1: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/1.jpg)
Dr. Kevin G. Joback Molecular Knowledge Systems, Inc. [email protected]
Chemical Product Design How is it done?
![Page 2: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/2.jpg)
2000-11-15-01
Page 2 Molecular Knowledge Systems, Inc.
Molecular Knowledge Systems
Located in Bedford, New Hampshire Company Started in 1989 Computer Software Consulting
Emulsifier Phase
Oxygen Carrier
Continuous Phase
Substructure Search
{1} CO CH2O
C OO
CH2 {1}
{1} C OCH2O
C OO
CH2 {1}
Group Contributions
# Carbons
Boi
ling
Poin
t, K
Slope = 22.9-CH2-
SYNAPSE http://www.molecularknowledge.com
Design Chemical Products
SP, P
olar
SP, Hydrogen Bonding
-COO-
-CH3-CH2-
-CH2-
Select Solvents
A + B
A + S
B
A
S
Group Contributions
# Carbons
Boi
ling
Poin
t, K
Slope = 22.9-CH2-
Phase Equilibrium
Tem
pera
ture
, °C
wt% Depressant
Liquid&
Solid
Equations of State
)()( bVbbVVa
bVRTP
−++−
−=
2Va
bVRTP −−
=
+++= 21VC
VBZ
Estimate Properties
CH3
OH
CH2
CH
CH3
23.6
92.9
22.9
21.7
23.6
Tb = Σ ni ∆i
Substructure Search
{1} CO CH2O
C OO
CH2 {1}
{1} C OCH2O
C OO
CH2 {1}
Formulate Mixtures
Density
Viscosity
Solubility
Melt Point
Flash Point
20%
34%31%
15%
Group ContributionsGroup
-CH3-CH2--OH
>C=O-COO-
Intercept
∆SP,p
-0.591-0.3775.5484.6704.7295.067
∆SP,h
-0.848-0.59510.6304.8464.0127.229
Group ContributionsGroup
-CH3-CH2--OH
>C=O-COO-
Intercept
∆SP,p
-0.591-0.3775.5484.6704.7295.067
∆SP,h
-0.848-0.59510.6304.8464.0127.229
Phase Equilibrium
Tem
pera
ture
, °C
wt% Depressant
Liquid&
Solid
Substructure Search
{1} CO CH2O
C OO
CH2 {1}
{1} C OCH2O
C OO
CH2 {1}
Group Contributions
# Carbons
Boi
ling
Poin
t, K
Slope = 22.9-CH2-
CRANIUM http://www.molecularknowledge.com
Design Chemical Products
SP, P
olar
SP, Hydrogen Bonding
-COO-
-CH3-CH2-
-CH2-
Select Solvents
A + B
A + S
B
A
S
Group Contributions
# Carbons
Boi
ling
Poin
t, K
Slope = 22.9-CH2-
Phase Equilibrium
Tem
pera
ture
, °C
wt% Depressant
Liquid&
Solid
Equations of State
)()( bVbbVVa
bVRTP
−++−
−=
2Va
bVRTP −−
=
+++= 21VC
VBZ
Estimate Properties
CH3
OH
CH2
CH
CH3
23.6
92.9
22.9
21.7
23.6
Tb = Σ ni ∆i
Substructure Search
{1} CO CH2O
C OO
CH2 {1}
{1} C OCH2O
C OO
CH2 {1}
Formulate Mixtures
Density
Viscosity
Solubility
Melt Point
Flash Point
20%
34%31%
15%
Group ContributionsGroup
-CH3-CH2--OH
>C=O-COO-
Intercept
∆SP,p
-0.591-0.3775.5484.6704.7295.067
∆SP,h
-0.848-0.59510.6304.8464.0127.229
Group ContributionsGroup
-CH3-CH2--OH
>C=O-COO-
Intercept
∆SP,p
-0.591-0.3775.5484.6704.7295.067
∆SP,h
-0.848-0.59510.6304.8464.0127.229
Phase Equilibrium
Tem
pera
ture
, °C
wt% Depressant
Liquid&
Solid
![Page 3: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/3.jpg)
2000-11-15-01
How is it Done?
Page 3 Molecular Knowledge Systems, Inc.
Sodium lauryl sulfate Propylene glycol Diazolidinyl urea Triethanolamine Methylparaben Propylparaben
Stearic acid Laureth-23 Fragrance Isobutane Propane
Water Aloe
Shaving Cream
How did they choose these chemicals?
![Page 4: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/4.jpg)
2000-11-15-01
How is it Done?
Page 4 Molecular Knowledge Systems, Inc.
Sodium lauryl sulfate Laureth-23
Propylene glycol Diazolidinyl urea Methylparaben Propylparaben
Triethanolamine Stearic acid Fragrance
Aloe Isobutane Propane
Water
Shaving Cream
“The goal of chemical product design is to create chemical structures and mixtures that possess those chemical and physical properties desired by
customers.”
Goal
Environmental friendly Skin lubrication Water solubility Pleasant aroma Hair softening Moisturizing Foaminess
![Page 5: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/5.jpg)
2000-11-15-01
Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 5 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 6: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/6.jpg)
2000-11-15-01
Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 6 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 7: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/7.jpg)
2000-11-15-01
Designing New Refrigerants
Page 7 Molecular Knowledge Systems, Inc.
Heat
Heat
Condenser
Evaporator
Next Generation Refrigerants
Single Component
F
F
F
F
C C
H
H
Replace R134a
![Page 8: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/8.jpg)
2000-11-15-01
Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 8 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 9: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/9.jpg)
2000-11-15-01
Step 1: Property Constraints
Page 9 Molecular Knowledge Systems, Inc.
Heat
Heat
Condenser
Evaporator
Next Generation Refrigerants
R134a Replacement Vapor Pressures Match
Low Global Warming
Not Ozone Depleting
P-H Diagrams Match
High Oil Solubility
Low Flammability
Low Toxicity
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2000-11-15-01
Step 1: Property Constraints
Page 10 Molecular Knowledge Systems, Inc.
Temperature [K]175.0 200.0 225.0 250.0 275.0 300.0 325.0 350.0
Vapo
r Pre
ssur
e [k
Pa]
1.00E+0
3.13E+2
6.26E+2
9.38E+2
1.25E+3
1.56E+3
1.88E+3
2.19E+3
2.50E+3
Pvp(280K) = 370.6 kPa Pvp(320K) = 1218.0 kPa
Which chemicals match R134a Vapor Pressures ?
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2000-11-15-01
Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 11 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 12: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/12.jpg)
2000-11-15-01
Step 2: Generate Candidates
( -CH3 -CH3 ) ( -CH3 -CH2- ) ( -CH3 >CH- ) ( -CH3 =CH2 ) . . .
Page 12 Molecular Knowledge Systems, Inc.
Combinations of 2
Combinations of 3 ( -CH3 -CH3 -CH3 ) ( -CH3 -CH3 -CH2- ) ( -CH3 -CH3 >CH- ) . . .
Group Basis
CH3 CH2
CH C
CH2 CH
O C
F
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2000-11-15-01
Step 2: Generate Candidates
Page 13 Molecular Knowledge Systems, Inc.
Structure Enumeration
( -CH3 -CH3 -CH2- >C< >CH- -F -F -F )
CH3 CH3
F
F
F
CH2 CH C CH3
CH3
F
F
F
CH2 CH C CH3
CH3
F
F
F
CH2 CH C
CH3 CH3
F
F
F
CH2 CH C
CH3
CH3
F
F
F CH2 CH C CH3
CH3
F
F
F CH2 CH C
CH3 CH3
F
F F
CH2 CH C CH3
CH3
F
F
F
CH2 CH C CH3
CH3
F F
F CH2 CH C
CH3
CH3
F
F
F CH2 CH C
CH3
CH3
F
F
F
CH2 CH C
CH3
CH3
F F
F CH2 CH C
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2000-11-15-01
Step 2: Generate Candidates
Page 14 Molecular Knowledge Systems, Inc.
Groups to Choose From
Groups in Molecule
Feasible Candidates
9 9 9 9 9
4 6 8 10 12
24 261
3,992 72,214 many
Possible Candidate Structures
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2000-11-15-01
Step 2: Generate Candidates
CH3-CH2-CH2-CH3 CH3-CH(CH3)-CH3 CH3-CH2-CH=CH2 CH3-CH=CH-CH3 CH2=CH-CH=CH2 CH2=C(CH3)-CH3 CH3-CH2-O-CH3
CH3-O-O-CH3 CH3-CH2-CH2-F CH3-CH(CH3)-F CH2=CH-CH2-F CH3-CH=CH-F
Page 15 Molecular Knowledge Systems, Inc.
24 Valid Structures of 4 Groups Group Basis
CH3 CH2
CH C
CH2 CH
O C
F
CH2=C(CH3)-F CH3-CH2-O-F CH3-O-CH2-F CH2=CH-O-F CH3-O-O-F
F-CH2-CH2-F CH3-CH(F)-F F-CH=CH-F CH2=C(F)-F F-CH2-O-F
F-O-O-F F-CH(F)-F
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2000-11-15-01
Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 16 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 17: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/17.jpg)
2000-11-15-01
Step 3: Evaluate Properties
Page 17 Molecular Knowledge Systems, Inc.
CH3-CH2-CH2-CH3 CH3-CH(CH3)-CH3 CH3-CH2-CH=CH2 CH3-CH=CH-CH3 CH2=CH-CH=CH2 CH2=C(CH3)-CH3 CH3-CH2-O-CH3
Ozone Depletion Potential
Global Warming Potential
Vapor Pressures – f(T)
Flammability Limits
Rat LC50 4 Hours
Enthalpy – f(T,P)
Oil Solubility
Need to Screen Thousands of Candidates
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Step 3: Evaluate Properties
Group Contribution Techniques Equation Oriented Techniques Force Field Techniques Connectivity Indices Parameter Fits
Page 18 Molecular Knowledge Systems, Inc.
Physical Property Estimation Techniques
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Group Contribution Techniques
Page 19 Molecular Knowledge Systems, Inc.
Group ∆Tb
-CH3 -CH3 -CH2- >CH- -OH
23.6 23.6 22.9 21.7 92.9
Tb (est) 382.8 K Tb (lit) 372.7 K
CH3
OH
CH2
CH
CH3
1
3 2
4 1) Select Technique 2) Dissect Structure 3) Get Contributions 4) Insert into Model Tb = 198.1 + Σ∆i
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2000-11-15-01
Boiling Point, Estimation Errors
Page 20 Molecular Knowledge Systems, Inc.
(Estimate – Data) [K]
Perc
enta
ge
0
10
20
30
40
50
60
70
-120 -80 -40 0 40 80 120 160 200
Observations Avg Error Avg Abs Err Avg % Error Max Error
559 0.97 K 15.1 K 4.8 %
197.4 K
N-Methylformamide Acetamide Fluorine Cyanogen
-128.5 K -122.6 K 113.1 K 197.4 K
Statistics
Outliers, Errors
Joback’s Method
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2000-11-15-01
Equation Oriented Techniques
Page 21 Molecular Knowledge Systems, Inc.
Vapo
r Pre
ssur
e [M
Pa]
Temperature [K]
Vapor Pressure - Heptane
−
−=
rbr
cbr
c
vp
TTPT
PP 11
1)ln(ln
Required Properties
Tc – Critical Temperature
Pc – Critical Pressure
Tb – Boiling point 0.00
0.50
1.00
1.50
2.00
2.50
200 250 300 350 400 450 500 550
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Step 3: Evaluate Properties
Page 22 Molecular Knowledge Systems, Inc.
Property Tb Tc Pc
Pvp (280 K) Pvp (320 K)
Estimate 238.4 K 366.7 K
3406 kPa 452 kPa
1291 kPa
CH2 C C
F F
F
F
Temperature [K]225.0 238.6 252.1 265.7 279.3 292.9 306.4 320.0
Vapo
r Pre
ssur
e [k
Pa]
1.00E+0
1.88E+2
3.76E+2
5.63E+2
7.51E+2
9.38E+2
1.13E+3
1.31E+3
1.50E+3
Candidate R 134a
R134a Pvp(280K) = 370.6 kPa R134a Pvp(320K) = 1218.0 kPa
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Step 3: Evaluate Properties
Page 23 Molecular Knowledge Systems, Inc.
Candidate Refrigerants
Candidate Pvp (280K) Pvp (320K)
R 134a F-CHF-CHF-CH2-F F-CHF-O-CHF-F F-CF=CF-F F-CH2-CH2-F F-CHF-CH2-CHF-F CH3-CF2-CH3 CH2=CF-CF3
370.6 418.8 414.8 415.9 409.2 418.8 385.3 452.5
1218 1275 1299 1223 1233 1275 1114 1291
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2000-11-15-01
Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 24 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 25: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/25.jpg)
2000-11-15-01
Solvents in Chemical Products
Evaporation rate Solute solubility Vapor pressure Freezing point Boiling point Flammability Recyclability
Viscosity Irritancy Toxicity Listed
Page 25 Molecular Knowledge Systems, Inc.
Solvents Applications Personal Care Products Cosmetics / Fragrances Pesticides / Herbicides Cleaning / Degreasing Adhesives / Sealants
Process Solvents Paints / Coatings Pharmaceuticals
Printing Inks Detergents
Property Constraints
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2000-11-15-01
Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 26 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 27: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/27.jpg)
2000-11-15-01
Step 1: Property Constraints
Page 27 Molecular Knowledge Systems, Inc.
A. Beerbower, P. L. Wu and A. Martin. "Expanded Solubility Parameter Approach I: Naphthalene and Benzoic Acid in Individual Solvents." Journal of Pharmaceutical Sciences. Volume 73, number 2, page 179-188, 1984.
Solute = Benzoic Acid
Solubility at 25°C
Solvent Pyridine Dimethyl sulfoxide N,N-Dimethylformamide N,N-Dimethylacetamide N-Methylformamide Methanol Ethanol 2-Propanol
wt % 64.0 61.9 61.7 60.7 51.9 42.6 36.6 32.8
Could solvent blends give higher solubility?
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Step 1: Property Constraints
Page 28 Molecular Knowledge Systems, Inc.
A. Beerbower, P. L. Wu and A. Martin. "Expanded Solubility Parameter Approach I: Naphthalene and Benzoic Acid in Individual Solvents." Journal of Pharmaceutical Sciences. Volume 73, number 2, page 179-188, 1984.
Solute = Benzoic Acid
Solubility at 25°C
Solvent Pyridine Dimethyl sulfoxide N,N-Dimethylformamide N,N-Dimethylacetamide N-Methylformamide
wt % 64.0 61.9 61.7 60.7 51.9
Could solvent blends give higher solubility?
Solubility > 50.0 wt%
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2000-11-15-01
Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 29 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 30: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/30.jpg)
2000-11-15-01
Step 2: Generate Candidates
Page 30 Molecular Knowledge Systems, Inc.
Solute + 1,1,1-Trichloroethane + 1,2-Dichloroethane Solute + 1,1,1-Trichloroethane + 1,2-Propylene glycol Solute + 1,1,1-Trichloroethane + 1,4-Dioxane Solute + 1,1,1-Trichloroethane + 1-Butanol ● ● ● ● Solute + Water + n-Octane Solute + Water + n-Pentane Solute + Water + o-Xylene Solute + Water + p-Xylene
62 Common Solvents Generate all Combinations
1,891 Binary Solvent Blends
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Step 2: Generate Candidates
Page 31 Molecular Knowledge Systems, Inc.
10.0 20.0 30.0 . . .
Solute 22.5 20.0 17.5 . . .
Solvent1 67.5 60.0 52.5 . . .
Solvent2
10.0 20.0 30.0 . . .
67.5 60.0 52.5 . . .
22.5 20.0 17.5 . . .
34,596 compositions
1 : 3 Solvent Ratio
3 : 1 Solvent Ratio
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Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 32 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
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Benzoic Acid, wt%0.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0
Tem
pera
ture
, °C
-5.0
4.4
13.8
23.1
32.5
41.9
51.3
60.6
70.0
Step 3: Evaluate Properties
Page 33 Molecular Knowledge Systems, Inc.
Data from: Thati, Nordström and Rasmuson. Journal of Chemical and Engineering Data. Volume 55, number 11, page 5124-5127, 2010.
−
∆−=+
m
fus
TTRH
x 11lnln γ
UNIFAC VLE Data Values
Benzoic acid + Chloroform
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Step 3: Evaluate Properties
Page 34 Molecular Knowledge Systems, Inc.
Candidate Binary Blends Solvent 1 Ethanol Ethylene glycol 2-Butanone Acetone
Solvent 2 Methanol Methyl acetate 2-Propanol Butyl acetate
wt % 15.0 54.4 54.7 54.7
wt % 45.0 18.1 18.3 18.3
BA wt % 40.0 27.5 27.0 27.0
Acetone (32.41 wt%) Butyl acetate (17.7 wt%) BA Solubility in Pure Solvents
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Designing an Anti-icing Fluid
Page 35 Molecular Knowledge Systems, Inc.
Aircraft Wing
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Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 36 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
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Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 37 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
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Anti-icing Fluid Design
Biological Oxygen Demand Freezing Point Depression Viscous Shear Thinning Aquatic Toxicity Flammability Corrosivity Wettability Color
Page 38 Molecular Knowledge Systems, Inc.
Anti-icing Fluid Aircraft Wing
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Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 39 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
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Step 2: Generate Candidates
Freezing Point Depressants: 419 Corrosion Inhibitors: 17 Surfactants: 19 Thickeners: 5 Antifoams: 2 Dyes: 1 Water
Page 40 Molecular Knowledge Systems, Inc.
Aircraft Anti-icing Fluid (after preliminary screening)
(generate independent sub-formulations)
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Design Steps
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 41 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
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Anti-icing Fluid Design
Biological Oxygen Demand Freezing Point Depression Viscous Shear Thinning Aquatic Toxicity Flammability Corrosivity Wettability Color
Page 42 Molecular Knowledge Systems, Inc.
Anti-icing Fluid Aircraft Wing
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Step 3: Evaluate Properties
Page 43 Molecular Knowledge Systems, Inc.
−
∆−=+
m
fus
TTRH
x 11lnln γ
Tem
p, °C
Weight %
Liquid
Solid
Assume a Simple Eutectic Property Model
Need γ, ∆Hfus, Tm
for each candidate
Estimate Freezing Point Depression
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Page 44 Molecular Knowledge Systems, Inc.
Le Chatelier’s Method
Step 3: Evaluate Properties
∑=
i
imix
LFLyLFL 1
∑= imix yLFL
)( fvp
iiii TPxy γ=
VLE Calculation
300
325
350
375
400
425
450
475
500
0.0 0.2 0.4 0.6 0.8 1.0
Data ValuesEstimates
Wt frac Squalane
Flas
h Po
int [
K]
Decane - Squalane Estimate Mixture Flash Points
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ACRP 02-01
Step 3: Evaluate Properties
DEG without Antifoam DEG with Antifoam
Formulation remained on surface for more than 30 minutes without draining
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Page 46 Molecular Knowledge Systems, Inc.
Step 3: Evaluate Properties
Niagara Falls, February 2006
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Anti-icing Fluid Design
Biological Oxygen Demand Freezing Point Depression Viscous Shear Thinning Aquatic Toxicity Flammability Corrosivity Wettability Color
Page 47 Molecular Knowledge Systems, Inc.
Anti-icing Fluid
Aircraft Wing
Final Formulation 1. Diethylene glycol 2. Tergitol® TMN-10 3. Triethanolamine 4. Carbopol® 1610 5. Shilling Green 6. Water
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How is it Done?
1. Compile Property Constraints: analysis
2. Generate Candidates: combination
3. Evaluate Properties: estimation
Page 48 Molecular Knowledge Systems, Inc.
Chemical Product Design (3 Steps)
(refrigerants, solvents, anti-icing fluids)
![Page 49: Chemical Product Design How is it done?...2000-11-15-01 How is it Done? Molecular Knowledge Systems, Inc. Page 4 Sodium lauryl sulfate Laureth-23 Propylene glycol Diazolidinyl urea](https://reader033.vdocuments.us/reader033/viewer/2022041514/5e2a657b00000f338f15e55d/html5/thumbnails/49.jpg)
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Questions?
Michael Hill [email protected]
www.cheme.columbia.edu/michael-i-hill
Kevin G. Joback [email protected] www.molecularknowledge.com
Page 49 Molecular Knowledge Systems, Inc.