Introduction to Waste and Waste Managment

Question 1

What is the definition of waste?

Answer 1

‘Any substance or object which the producer or the holder discards or intends or is required to discard with the exception of: radioactive waste, prospecting, extraction and treatment of minerals, animal carcasses and agricultural waste, wastewaters, gaseous effluents’

Question 2

How much MSW do we produce globally each year?

Answer 2

2.12 billion tons

Question 3

How much of what we buy is thrown away within 6 months?

Answer 3

99%

Question 4

What is waste generation driven by?

Answer 4

Economic developments and urbanisation

Question 5

Which two countries produce the most waste?

Answer 5

USA and Canada

Question 6

What are the five types of waste disposal?

Answer 6

Open dumping, landfill, recycle, incineration, open burning

Question 7

What type of disposal does North America utilise the most and why?

Answer 7

Sanitary landfill because they have so much uninhabited land

Question 8

What does MSW mean?

Answer 8

Municipal solid waste

Question 9

What does OECD mean?

Answer 9

Organisation for Economic Co-operation and Development

Question 10

Where is 50% of the waste in the UK generated?

Answer 10

Construction

Question 11

How much available MSW does the UK produce each year?

Answer 11

30 million tonnes

Question 12

What potential does the waste the UK produces annually have in both electric power and heat power?

Answer 12

2,000 MW electricity, 6,000 MW heat energy

Question 13

How much of the UK’s power does MSW have the potential to replace and what is this in MTCE (million tonnes of coal equivalent)?

Answer 13

The same as a large power station - around 5%, 10 MTCE/year.

Question 14

How much of the energy that could be provided by MSW is currently recovered?

Answer 14

Around 5%

Question 15

What does the Waste Strategy 200 hope to achieve?

Answer 15

Reduce waste sent to landfills (by 65% by 2015 from 1995), recover 67% of waste by 2015 and recycle or compost 33% of household waste

Question 16

What are the four types of waste?

Answer 16

Municipal solid waste, industrial waste, sewage sludges and special waste (eg. clinical waste)

Question 17

Define MSW

Answer 17

MSW includes non-hazardous waste generated in households, commercial and business establishments, institutions, and non-hazardous industrial process wastes, agricultural wastes and sewage sludge

Question 18

What is the typical composition of MSW

Answer 18

paper and card, plastics, textiles, glass, ferrous metals

Question 19

What is the typical calorific value of MSW?

Answer 19

7-11 MJ/kg

Question 20

What is the typical moisture content of MSW?

Answer 20

30-35%

Question 21

What is the typical calorific value of industrial waste and what does it depend on?

Answer 21

Up to 30 MJ/kg

Question 22

Why do feed rates of industrial waste have to be limited?

Answer 22

To avoid excessive temperatures

Question 23

What is the average calorific and moisture content of sewage sludge?

Answer 23

3-4 MJ/kg and over 90% water

Question 24

How must sewage sludge be pre-treated before incineration?

Answer 24

It must be dried to a moisture level below 65% before incineration can be self-sustaining

Question 25

Name 3 devices used for de-watering sludge

Answer 25

Vacuum filters, belt filter presses, centrifuges

Question 26

What are sludges moved through processes using?

Answer 26

Belt conveyors, screw conveyors, plunger pumps or progressive-cavity pumps

Question 27

Why is no extensive storage required for sludge incineration?

Answer 27

It is usually generated close to the incinerator location

Question 28

Define special waste

Answer 28

Waste containing hazardous materials such as flammables, explosives, toxic, radioactive, pathogenic or clinical waste

Question 29

What is a typical calorific value of special waste and say why this is the case?

Answer 29

Hospital waste approx. 17 MJ/kg due to a higher plastic content than MSW.

Question 30

Why does special waste require special incinerator design?

Answer 30

Due to it’s toxic nature

Question 31

What is the waste hierarchy, what is its aim and what is it based upon?

Answer 31

It is an evaluation of processes that protect the environment alongside resources and energy consumption, its aim is to extract the maximum practical benefits and to generate minimum waste and is based on sustainability (a socio-ecological process characterised by the pursuit of a common ideal).

Question 32

In what year did the EU parliament introduce the waste hierarchy into its waste legislation?

Answer 32

2008

Question 33

What are the 6 steps of the waste hierarchy?

Answer 33

Prevention, minimisation, reuse, recycling, energy recovery, (safe) disposal

Question 34

Give examples for implementing the ‘prevention’ step of the waste hierarchy.

Answer 34

Use less material in design and manufacture, keeping products for longer, using less hazardous material

Question 35

Give examples for implementing the ‘preparing for re-use’ step of the waste hierarchy.

Answer 35

Checking, cleaning, repairing, refurbishing whole items of spare parts

Question 36

Give examples for implementing the recycling step of the waste hierarchy.

Answer 36

Turning waste into a new substance or product - includes composting if it meets quality protocols

Question 37

Give examples for implementing the ‘other recovery’ step of the waste hierarchy.

Answer 37

Anaerobic digestion, incineration with energy recovery, gasification and pyrolysis which produce energy (fuels, heat and power) and materials from waste, some backfilling operation

Question 38

Give examples for implementing the ‘disposal’ step of the waste hierarchy.

Answer 38

Landfill and incineration without energy recovery

Question 39

What is considered to be the ‘greenest’ way of dealing with waste, and why are they not often used?

Answer 39

Biological treatment (often generate heat), not used as they are very slow

Question 40

What does the decision between biological treatment and thermo-chemical treatment depend on?

Answer 40

What waste there is available in the surrounding area and the local demand for the products

Question 41

What is the advantage and disadvantage of thermo-chemical treatments?

Answer 41

They produce more valuable products but require an energy input.

Question 42

Name the 3 types of thermo-chemical treatment

Answer 42

Gasification, incineration and pyrolysis

Question 43

Name the 2 types of biological treatment

Answer 43

Composting and anaerobic digestion

Question 44

What is the product of composting?

Answer 44

Compost

Question 45

What is the product of anaerobic digestion?

Answer 45

Methane

Question 46

What are the products of gasification?

Answer 46

Fuel, gas and ash

Question 47

What are the products of incineration?

Answer 47

Energy, flue gas and ash

Question 48

What are the products of pyrolysis?

Answer 48

Char, oil and gas

Question 49

Where does the ash from both biological and thermo-chemical treatments end up?

Answer 49

In landfill

Question 50

What are the two avenues to segregate waste?

Answer 50

Segregation an source and segregation at materials recovery facility

Question 51

Name two waste pre-processing technologies

Answer 51

Size reduction and separation

Question 52

Give an example of a local MRF

Answer 52

SITA Kirklees

Question 53

What are the two products from waste pre-treatment?

Answer 53

RDF (refuse-derived fuel) and SRF (solid recovered fuel)

Question 54

What does MRF stand for?

Answer 54

Materials recovery facility

Question 55

Give two options for disposal of waste

Answer 55

Landfill and open dumping

Question 56

What are the three types of thermo-chemical treatment of waste?

Answer 56

Incineration, pyrolysis and gasification

Question 57

What are the two types of biological treatment of waste?

Answer 57

Composting and anaerobic digestion

Question 58

Describe the different types of waste segregation at source.

Answer 58

House containers or kerbside collection (inc. dry recyclables which can be sorted or co-mingled), drop-off centres, buy-back centres and refund deposit schemes.

Question 59

What are the two types of MRF?

Answer 59

Dirty MRF and clean MRF

Question 60

What separation occurs at a dirty MRF?

Answer 60

Mixed MSW is dumped and recyclable bits picked, of in a high tech facility it is separated and recovered

Question 61

What separation occurs at a clean MRF?

Answer 61

Screening and separating different grades of papers, metal separation, glass sorting and processing and shredding plastics.

Question 62

Name two waste size reduction equipments

Answer 62

Hammer-mill (grind raw materials in smaller particles, 5-100 tons/hr depending on the input), industrial waste shredder

Question 63

Name and describe two waste separation technologies

Answer 63

Magnetic separation (strong permanent magnets based on rare earths catch metal within a stream of bulk materials) and Air Classificiation (separates materials based on a combination of size, shape and density using air and a cyclone)

Question 64

Draw a magnetic separator

Answer 64

Drawing 2

Question 65

Draw an air classifier

Answer 65

Drawing 3

Question 66

What is tommel screening?

Answer 66

A rotating perforated drum is elevated at one and and particles of different sizes pass through the holes as the waste travels down the drum.

Question 67

List the stages in a typical solid waste sorting process

Answer 67

Bag ripping, magnetic separation, shredding, air classifying, tommel screening

Question 68

What are the advantages of pre-treating and sorting waste?

Answer 68

Increased material recovery for recycling, removal of non-combustible materials and better control of final disposal and energy recovery (increasing the heating value, increasing plant throughput, lower carbon-in-ash), less waste to landfill, and producation of refuse-derives fuel (RDF)

Question 69

What is the capacity of the Kirklees MRF?

Answer 69

25,000 ton/year

Question 70

How much paper and plastic is recovered at Kirklees?

Answer 70

19,500 ton/year

Question 71

How much ferrous cans are recovered at Kirklees?

Answer 71

750 ton/year

Question 72

How much non-ferrous cans are recovered at Kirklees?

Answer 72

750 ton/year

Question 73

What are the typical heating calues of MSW and RDF?

Answer 73

MSW 10 MJ/kg and RDF 15-20 MJ/kg

Question 74

What is cRDF and how is it produced?

Answer 74

Coarse refuse-derived fuel, separating from MSW its bulky and non-combustible fractions (glass, rubble etc.) and chopping the rest to a consistent size. It cannot be stored as it starts rotting immediately.

Question 75

What is dRDF and how is it produced?

Answer 75

Densified refuse-derived fuel, the separation of bulky and non-combustible fractions, followed by substantial reduction in moisture content and then pelletized.

Question 76

Is cRDF or dRDf better for thermal processing?

Answer 76

dRDF due to it’s higher energy content, however it is more expensive to produce

Question 77

What is SRF and how is it different from RDF?

Answer 77

Solid recovered fuel that is produces to EU standards, it has large proportions (up to 68%) of organic material found in MSW and is used for the production of power and heat. It contains a smaller amount of ash and has a CV of 11-14 MJ/kg

Question 78

What are the differences between sanitary landfill and open dump?

Answer 78

Sanitary landfill is legal, controlled by the government, is carefully monitored so pests are avoided and are less hazardous to the environment than open dumping. They have leachate collection systems and are often smaller.

Question 79

What is leachate?

Answer 79

The liquid that drains from a landfill site. It varies widely in composition depending on the age of the landfill and the type of waste, and usually contains both dissolved and suspended solids.

Question 80

Draw a typical landfill site

Answer 80

Drawing 4

Question 81

What are the two main advantages of controlled land fill?

Answer 81

It is low cost compared to other disposal options and is suitable for a wide variety of wastes.

Question 82

What is the main disadvantage of landfill sites?

Answer 82

They are sources of pollution since uncontrolled gas leakages containing methane can be hazardous.

Question 83

What is the key difference between the three thermo-chemical treatments?

Answer 83

The amount of oxygen supplied to the reactor

Question 84

What three characteristics of waste are important for its assessment?

Answer 84

Moisture content (ignition will not occur if it is too wet, and it diminishes the CV), volatile matter (the combustible fraction containing carbon monoxide, hydrogen and methane), ash content (high ash = lower CV and must be removed and disposed of after combustion)

Question 85

Define incineration

Answer 85

The oxidation of the combustible material in the waste to produce heat, water vapour, nitrogen and carbon dioxide

Question 86

Which amount of oxygen matches to which thermo-chemical treatment?

Answer 86

Excess O2 - combustion
Limited O2 - gasification
No O2 - pyrolysis

Question 87

Draw and describe a typical waste incineration plant

Answer 87

Drawing 5

Question 88

What smaller emissions may you obtain from waste incineration depending on the type of waste?

Answer 88

Carbon monoxide, hydrogen chloride, hydrogen fluroide, sulphur dioxide

Question 89

Which country incinerates the most amount of MSW?

Answer 89

France

Question 90

Which country incinerates the most amount of industrial waste?

Answer 90

Finland

Question 91

Where do the residues from flue gas treatment in an incineration plant go?

Answer 91

Hazardous landfill

Question 92

Where does heavy bottom ash from incineration go to?

Answer 92

Landfill

Question 93

Where do metal extracted from the heavy bottom ash go from an incineration plant?

Answer 93

Recycling

Question 94

What are the advantages of incineration over landfill?

Answer 94

Reduces MSW by 90% in volume and 67% by weight as only ash remains, provides low cost energy, bottom ash can be used as a construction material, reduces greenhouse gas emissions

Question 95

What are the disadvantages of incineration over landfill?

Answer 95

High capital costs, ash requires additional management, public perception

Question 96

Define pyrolysis

Answer 96

The thermal degradation of organic waste (such as plastics and polymers) in the absence of oxygen to produce a carbonaceous char, oil and combustible gases.

Question 97

What temperature is pyrolysis usually carried out at?

Answer 97

Low temperatures - between 400 and 800 degrees C

Question 98

How is heat supplied for pyrolysis?

Answer 98

Indirect heating (combustion gases or oil) or directly by hot gas transfer

Question 99

What is conventional/slow pyrolysis?

Answer 99

Pyrolysis with moderate heating rates (20-100 degrees C/min) and a max T of 600 degrees C to give an approximately equal distribution of oils, char and gases.

Question 100

What is very slow pyrolysis?

Answer 100

Less than 20 degrees C/min heating rate and a low final maximum temperature maximises the yield of char

Question 101

What is very fast pyrolysis?

Answer 101

High heating rates (100-1000 degrees C/min) at T below 650 degrees C with rapid quenching leads to the formation of mainly liquid products (oils)

Question 102

How do the relatively high CVs of pyrolysis chars produced from MSW, tyre and wood compare to the CV of bituminous coal?

Answer 102

MSW - 19 MJ/kg
Tyre - 29 MJ/kg
Wood - 33 MJ/kg
Coal - 30 MJ/kg

Question 103

How do the high CVs of pyrolysis oils produced from MSW, and tyres compare to the CV of petroleum-derived fuel?

Answer 103

MSW - 25 MJ/kg
Tyre - 42 MJ/kg
Petrol - 46 MJ/kg

Question 104

Where can oil from pyrolysis be used?

Answer 104

Conventional electricity generation systems such as diesel engines

Question 105

What are the advantages of the production of oil through pyrolysis?

Answer 105

It can be transported away from the plant easily

Question 106

What are the main gases produced from MSW pyrolysis?

Answer 106

CO2, CO, H2, CH4

Question 107

What does the composition of oil produced pyrolysis depend on?

Answer 107

The feedstock and processing conditions

Question 108

What two main routes are being researched to overcome high oxygen content, high viscosity and acidity of oils produced by pyrolysis?

Answer 108

High pressure catalytic hydro-treatment and low pressure catalysis

Question 109

Which oils tend to have a high oxygen content?

Answer 109

Those derived from some biomass sources (up to 35% oxygen by weight) due to the content of cellulose, hemicellulose and lignin

Question 110

Define waste gasification

Answer 110

Oxygen in the form of air, steam or pure oxygen is reacted at a high temperature with available carbon in the waste to produce a gas product (syngas), ash and tar

Question 111

What operating temperatures are typical for air and oxygen gasification?

Answer 111

Air - 800-1100 degrees C

Oxygen - 1000-1400 degrees C

Question 112

How do the CVs of air gasification and oxygen gasification compare to natural gas?

Answer 112

Air - 4-6 MJ/kg
Oxygen - 10-15 MJ/kg
Natural gas - 37 MJ/kg

Question 113

What is the premise of the reaction that occurs in gasification?

Answer 113

Partial combustion occurs to produce heat, and the reaction proceeds exothermically to produce a low to medium calorific value fuel gas

Question 114

How are gasification products utilised?

Answer 114

Direct combustion in a boiler or furnace to provide heat or power generation.

Question 115

What is the advantage of direct combustion of gasification products?

Answer 115

No syngas cleaning is required

Question 116

For what utilisation of gasification products should they be cleaned to a higher specification than for direct combustion?

Answer 116

For use in gas turbines or internal combustion engines to generate electricity

Question 117

List the gasification and steam gasification chemical equations

Answer 117

Drawing 6

Question 118

Which thermo-chemical treatment of waste is most mature?

Answer 118

Incineration, therefore benefits from large scale

Question 119

Give 2 examples of early stage commercial gasification plants

Answer 119

Compact Power (UK) uses pyrolysis + gasification (air/steam) then combustion, cost £22m (capex) for 60 kton/year and £76/ton (opex) 
Thermoselect (Japan) uses pyrolysis + gasification (oxygen) then combustion then ash melting, cost £69m (capex) for 200 kton/year and £345/kton (opex)

Question 120

What are the electricity efficiencies for incineration and gasification?

Answer 120

Incineration - 20-25%

Gasification 30-45%

Question 121

What efficiency is achieved in CHP and why?

Answer 121

Around 85% as it utilises low grade heat

Question 122

Which fraction of waste can be used in composting?

Answer 122

The biodegradable fraction, therefore reducing the amount that goes to landfill

Question 123

Define biodegradable waste

Answer 123

Food and garden waste

Question 124

What proportion of MSW is biodegradable?

Answer 124

66-90%

Question 125

How long does composting take?

Answer 125

Relatively fast biodegradation process taking 4-6 weeks to reach a stable product

Question 126

Does composting use oxygen?

Answer 126

Yes, it is aerobic

Question 127

What are the 3 stages of composting?

Answer 127

1 - Increasing temperature because of a high rate of micro-biological activity
2 - stabilisation - biodegradation of the waste by thermophilic micro-organisms and is exothermic (up to 70 degrees C)
3 - maturation - further dergradation of intermediate compounds and may take several weeks - low temperature

Question 128

Why is composting better than landfill?

Answer 128

Less greenhouse gases (carbon dioxide and methane) are produced

Question 129

What is the product of composting?

Answer 129

Organic matter that has been decomposed and is recycled as a natural fertiliser and soil amendment

Question 130

What is the best option for true green waste?

Answer 130

Composting

Question 131

What kind of reactor does anaerobic digestion take place in?

Answer 131

An enclosed, controlled reactor without oxygen.

Question 132

What is the product of anaerobic digestion?

Answer 132

Gas rich in methane to use as either fuel or chemical feedstock.

Question 133

What is AD used to treat?

Answer 133

Sewage sludge and agricultural wastes, and more recently MSW and industrial wastes

Question 134

How is AD optimised to ensure all the gas is collected?

Answer 134

Through process control

Question 135

Describe the AD process.

Answer 135

Easily degradable organic matter > soluble monomers > organic acids > methane/CO2
Difficult to degrade organic matter > residual organic matter

Question 136

What can the solid residue from AD be used for?

Answer 136

As fertiliser

Question 137

How long does AD take?

Answer 137

40 days/6 weeks

Question 138

What is water used for in AD?

Answer 138

To so dissolve the monomers so they can turn into organic acids.

Question 139

Draw a BFD for a typical AD plant

Answer 139

Drawing 7

Question 140

What does pre-treatment involve in AD?

Answer 140

Chopping, sorting, mixing and the removal of contaminants

Question 141

What does the main stage of AD involve?

Answer 141

Heating and mixing to produce methane and carbon dioxide.

Question 142

In what environment does biodegradation take place?

Answer 142

In a slurry of waste and micro-organisms.

Question 143

What does the rate of biodegradation depend on?

Answer 143

The micro-organism population and the temperature (from 30-65 degrees C)

Question 144

What does AD post-treatment involve?

Answer 144

The removal of further contaminants (glass and plastics) and further stabilisation through composting of the residue.