[13.5] polymerisation in alkenes

Question 1

what is the definition of a monomer?

Answer 1

a small molecule that combines with many other monomers to form a polymer

Question 2

what is the definition of a repeating unit?

Answer 2

the arrangement of atoms that occurs in a polymer structure over and over again

Question 3

which molecules undergo addition polymerisation?

Answer 3

unsaturated alkene molecules undergo addition polymerisation

Question 4

how is industrial polymerisation carried out?

Answer 4

at high temperatures and pressures using catalysts

Question 5

draw the general equation for an addition polymerisation equation

Answer 5

• monomer unit goes to a repeating unit of a polymer
• n (signifies many units)
• double bond broken, outside bonds crossing the square brackets etc.

Question 6

environmental concerns: disposing of waste polymers

Answer 6

• polymers are readily available, cheap to purchase and it is more convenient for our throwaway society
• many alkene-based polymers are non-biodegradable
• the amount of growing polymer waste has serious environmental impacts eg. killing marine life

Question 7

environmental concerns: recycling

Answer 7

• recycling polymers reduces their environmental impact by conserving finite fossil fuels and decreasing the amount of waste going to landfill
• discarded polymers have to be sorted by type. if the polymers are mixed the recycling process does not work
• once sorted, polymers are chopped into flakes, washed, dried, and melted
• the recycled polymer is cut into pellets and used by manufacturers to make new products

Question 8

environmental concerns: PVC recyling

Answer 8

• disposal and recycling of PVC is hazardous due to the high chlorine content and range of additive present in the polymer
• dumping in landfill is not sustainable
• when burnt, PVC released hydrogen chloride, a corrosive gas, and other pollutants like toxic dioxins
• new technology uses solvents to dissolve the polymer. high-grade PVC is recovered by precipitation from the solvent, and the solvent can be used again

Question 9

environmental concerns: using waste polymers as fuel

Answer 9

• some polymers are difficult to recycle
• as they are derived from petroleum or natural gas, they have a high stored energy value
• waste polymers can be incinerated to produce heat, generating steam to drive a turbine producing electricity

Question 10

environmental concerns: feedstock recycling

Answer 10

• describes the chemical or thermal processes that can reclaim monomers, gases or oil from waste polymers
• products from feedstock recycling resemble those produced from crude oil refineries
• theses materials can be used as raw materials for the production of new polymers
• advantage is that it is able to handle unsorted and unwashed polymers

Question 11

environmental concerns: bioplastics

Answer 11

• produced from plant starch, cellulose, plant oils and proteins
• offer a renewable and sustainable alternative to oil-based products
• products our environment and also conserved valuable oil reserves

Question 12

environmental concerns: biodegradable polymers

Answer 12

• broken down by microorganisms into water, carbon dioxide and biological compounds
• usually made from starch or cellulose, or contain additives that alter the structure of traditional polymers so microorganisms can break them down

Question 13

environmental concerns: compostable polymers

Answer 13

• degrade and leave no visible toxic residues
• based on poly(lactic acid)
• becoming more common as an alternative to alkene-based polymers
• supermarket bags made from plant starch can be used as bin liners for food waste so that the waste and the bag can be composted together

Question 14

environmental concerns: photodegradable polymers

Answer 14

• where the use of plant-based polymers is not possible, photodegradable oil-based polymers are being developed
• these polymers contain bonds that are weakened by absorbing light to start the degradation
• light-absorbing additive can also be added