Efficiency and Process Design - 'Metrics'

Question 1

What are ‘Metrics’ in a chemsitry sense?

Answer 1

Metrics are a process of how we judge a chemical reaction to determine how sustainable it is

Question 2

When questioning the sustainability of competing chemical reactions we tend to compare the nature of 5 indiviual components
What are they

Answer 2

• Raw materials
• Reaction types (e.g. addition, eliminations etc)
• Reagents (catalysts)
• Reaction conditions (including solvents)
• Toxicity of products (including waste by-products)

Question 3

Why would we not use a life cycle analysis to evaluate an entire production process

Answer 3

The complete answer of greeness comes from a life cycle analysis which is expensive and requires data from an already operating process
And often there is insufficient data for this
(Hence we might use the principles of Green Chemistry to improve this)

Question 3

What is the idea around the 3 spheres of sustainability

Answer 3

The three spheres are Environmental, Social and Economic
Where these factors conicide, you should get maxmium sustainability
There are drivers between two factors (e.g. subsidies for environmental/econmic)

Question 4

What does Roger A Sheldon describe green and sustainable manufacture of chemicals as?

Answer 4

“An essential component of the transition from a linear economy that is devouring the planet’s natural resources and degrading the ecosphere to a circular economy”

Question 5

What is the difference between traditional synthesis of dimethylcarbonate and modern synthesis

Answer 5

The modern way is far more preferred as it avoids the use of phospgene (which has been used as a chemical wepon) and it gives less harmful side-products
Also produces a purer product, so less energy intensive purification set
(Choice on which process to use is pretty straightforward)

Question 6

There are two ways we can synthese lactic acid: chemically using hydrocyanation of acetaldehyde or biologically using fermentation of sugars/starch
What are the advantages of the chemical synthesis?

Answer 6

• Faster, and higher yielding reaction (allowing more product to be produced or smaller chemical plant = reducing costs)
• MeOH generated in the final step is recycled
• Produces high purity lactic acid (>99%)

Question 7

There are two ways we can synthese lactic acic: chemically usin hydrocynation of acetaldehyde or biologically using fermentation of sugar/starch
What are the disadvantages of the chemical synthesis

Answer 7

• HCN is highly toxic; CH₃CHO and MeOH are also toxic
• Waste stream of (NH₄)₂SO₄ can also be used as a fertiliser (but not on acidic soils as NH₄⁺ will be produced)
• Several energy intensive distillations required

Question 8

The method shown below is the biosynthesis of lactic acid
What are the advantages of this

Answer 8

• It has a renewable feedstock
• Uses non-hazardous material
• Many bacteria can be employed to produce a spectrospecific product (less cost of seperation)

Question 9

The method shown below is the biosynthesis of lactic acid
What are the disadvantages of this?

Answer 9

• Slow (every cycle takes 4-6 days) = larger chemical plant
• Quantity of product per reactor volume is low
• Evaporation required = energy intensive
• Technical grade lactical acid is produced and if a higher purity is needed further reactions required
• Waste stream of CaSO₄ produced and very large quantities of waste water (with a lot of impurities)
  Even though there are more disadvantages to the biological process it is the one used as the saftey precautions make it too expensive to operate the chemical process

Question 10

Two of the most common metrics are Atom Economy and E-factor
Both methods focus on what?

Answer 10

Both methods concentrate on reducing waste
(other factors like toxity, risks, energy consumption are ignored)

Question 11

What is the equation for Percentage yield

Answer 11

actual yield/theoretical yield x 100

Question 12

What is a key issue with percentage yield?

Answer 12

You may have a high yielding reaction however produce a lot of waste
An example of this is the Wittig reaction with an average 86% yield but produces 2446g of waste per 1000g of starting material

Question 13

What is Atom Efficiency in terms of a chemical reaction

Answer 13

Synthetic methods should be designed to maximise the incorporation of all materials used in the process into the final product

Question 14

What is the equation for atom economy?

Answer 14

Question 15

Work out the atom economy of the reaction show

Answer 15

There was a 86% percentage yield for this reaction, however only a 25.7% atom economy

Question 16

Over 190 million tones of urea is produced each year
Why is so much produced

Answer 16

Over 80% of produced urea is used to fertilise crops
(however <15% of fixed N ends up in consumable food)

Question 17

What types of reactions have a 100% atom economy

Answer 17

• Rearrangements (e.g. Claisen rearrangement)
• Hydrogenations
• Carbonylations
• Cycloadditions

Question 18

The Diel-Alder reaction makes the pesticide ‘Aldrin’ with high efficiency
With around a overall Atom Economy of 82.2%
What is the issue however?

Answer 18

Aldrin is whats called a persisten pollutant as it stays in the soil for years and is now band worldwide
Exposure linked to health problems such as Parkinson’s, breast cancer and immune, reproductive and nervous system damage (it accumulated in fatty tissue)

Question 19

What types of reaction classes have a low Atom Efficiency?

Answer 19

• Substitutions
• Eliminations

Question 20

The traditional way of synthesis of Phenol was through the sulfonation of Benzene with around a 20.4% atom economy, and industrially was used for years
The modern process uses the oxidation of Cumene and has a 62% atom economy
How can the atom economy of the modern process go up to 100%?

Answer 20

Because as well as phenol being produced, so is acetone, which can be sold on not making it a waste product
Hence the atom economy goes up to 100%

Question 21

What is the formula for E-factors

Answer 21

Question 22

Which industry has an unexpectedly low value for their E-factor

Answer 22

Oil-refinery’s E-factor is really low as all parts of the crude oil are used hence is pretty efficient

Question 23

What is the advantage of using E-factors over other metrics

Answer 23

It takes into account solvent use

Question 24

What are the disadvantages of using E-factors over other metrics

Answer 24

• What if large volumes of solvent are water, or if the waste consists of dilute aqueous solutions of benign inorganics (doesn’t include process water e.g for cooling/steaming)
• Still concentrates of waste rather than other factors which could also contribute to Greeness (for example if a small amount of highly toxic byproduct was formed)
• Green Chemistry Principle 9: “Catalytic reagents are superior to stoichiometric ones” (E-factor only focuses on stoichiometric)

Question 25

What is the equation for Effective Mass Yield

Answer 25

Question 26

Work out the effective mass yield for this reaction

Answer 26

Acetic acids is in dilute concentrations (vinegar) so should be considered benign
But Butanol is not
(have to work out what is and isn’t benign and value is >100% so not the greatest metric)

Question 27

Ibuprofen is a common anti-inflammatory that is taken worldwide under a range of different trade names: advil, nurofen etc
It was formely produced in Beeston in Nottingham producing around 50% of market share (1980s)
Why was this process unsustainable?

Answer 27

They used CCl₄, which eventually the stock of CCl₄ ran out and became unobtainable, production in Beeston had to stop (ca. 2000)
The newer process uses hydrofluoric acid (dangerous+corrosive)
But have only 2 steps to get product rather than 5 with a higher atom efficiency than original process