Biology and waste management

Question 1

What is environmental engineering concerned with?

Answer 1

• procision of safe, palatable and ample public water supplies
• proper disposal of or recycling of wastewater and solid wastes
• control of water, soil and atmospheric pollution
• sustainable sources of renewable energy
• resource management and circular economy for materials
• sustainable food production

Question 2

Why do we need environmental engineering?

Answer 2

Population growth places heavy demand on natrual resources, such as water and soil

Population also results in higher consumption of energy, food and commodities
Also increase waste generation

Question 3

What is the hydrological cycle

Answer 3

1. Land and ocean precipitation
2. percolation
3. surface and ground water flow
4. flow goes to ocean
5. ocean and land evaporation (and transpiration)

Question 4

What percentage of the worlds water is fresh?

Answer 4

0.8

Question 5

How much fresh water does irrigation use?

Answer 5

70%

Question 6

How much fresh water does industry use?

Answer 6

19%

Question 7

How much fresh water is used domestically?

Answer 7

11%

Question 8

What are the effects of increasing population/ urbaisation on water resources?

Answer 8

• Pollution and reiver desiccation
• Overcommitted water resources
• Groundwater levels declining rapidly in densely populated areas
• degredation of land and water resources through erosion, pollution, salinization nutrient depletion, and seawater intrusion
• irrigation in developing countries has improved economic growth, damages environment
• climate change affects temperature and precipitation, equatorial countries effected most
• Urbanization increases the demand for water and generates mrore wastewater, required more food etc.

Question 9

How many people (in 2015) did not have access to improved sanitary facilities?

Answer 9

2.3 billion

Question 10

How many people (in 2015) did not have access to a safe water supply?

Answer 10

2.1 billion

Question 11

What bacteria’ cause intestinal disease?

Answer 11

• Salmonela
• Shigella
• Yersinia
• Vibrio Cholerae
• Campylobacter jejuni
• Escherichia coli
• Listeria

Question 12

What Protozoa cause intestinal disease?

Answer 12

• Cryptosporidium
• Entamoeba histolytica
• giardia lamblia
• balantidium coli
• toxoplasma gondii

Question 13

What enteric vriruses cause intestinal disease?

Answer 13

• Hepatitis A and E
• Adenovirus
• Norovirus
• Enteroviruses
• Polio virsues
• Coxsackie viruses
• Echoviruses
• Enteroviruses
• Reoviruses
• Astroviruses

Question 14

What halminth worms cause intestinal disease?

Answer 14

• Ascaris umbricoides
• ascaris suum
• trichuris trichirua
• toxocara canis
• taenia saginata
• taennia solium
• necator americanus
• hymnolepis nana

Question 15

What diseases can poor water supply and sanitation cause?

Answer 15

• Diarrhoea
• Intestical worms
• Trachoma
• Schistosomiasis

Question 16

How many people get and die from diarrhoea a year?

Answer 16

4 billion get it

1.5 million die

Question 17

How many people have intestinal worms?

Answer 17

1.5 billion

Question 18

How many people have trachoma?

Answer 18

1.9 million

Question 19

How many people have schistosomiasis?

Answer 19

230 million

Question 20

What is the lifecycle of schistomasis?

Answer 20

1. found in feces and uring
2. Eggs hatch releasing mracidia
3. Miracidia penetrate snail tissue
4. Spyrocysts in snails
5. Cercairae released by snail into water
6. penetrates skin
7. cnecariae lose tails and become schistosomulae
8. circulation
9. migrate to portal blood in liver and mature into aduls
10. Paired adult worms migrate to bowel/ rectum and lay eggs

Question 21

What will the effects of climate change be in the UK?

Answer 21

• cooler, drier sumers
• warmer, wetter winters
• more extreme weather events
• increased flooding risk

Question 22

What are he main sources of GHGs?

Answer 22

Transport, agriculture, industy and power generation

Question 23

What is the main emitter of CH4?

Answer 23

Waste disposal

Question 24

What are the effects of poor waste management?

Answer 24

• Potentially hazardous

- strong link to GHG emissions and climate change

Question 25

What can we gain from waste management?

Answer 25

• Control over environmental emissions
• energy recover
• recover value from dispose resources
• recover value from biodegradeable waste

Question 26

How much waste is generated in europe?

Answer 26

2.5 billion tonnes

Question 27

How much waste is disposed to landfill in europe?

Answer 27

1.2 billion tonnes

Question 28

What are the 2 main priorities in waste management?

Answer 28

first priority - protect human health/ environment

second priority - resource recovery to promote circular economy

Question 29

What is the triangle involved in the EU waste framework directive?

Answer 29

biggest to smallest:
product:
- prevention
All waste:
- preparing for re-use (use materials repeatedly)
-recycling (use materials to make new products)
- recovery (incinerate waste to recover energy)
- disposal (safely dispose of waste to landfill or incineration without energy recovery)

Question 30

What are some key takeaways from the waste management of landfills?

Answer 30

• resource recovery curbs GHG emissions but disposal increases them (CH4 from landfill and BC from uncontrolled burning)
• regulatory policy aims to reduce waste and disposal and increase recycling
• Landfil Directive to reduce disposal of biodegradable municipal solid waste
• Improved waste management could reduce global GHGs up to 20%

Question 31

What are some positive takeaways from effective waste management?

Answer 31

• Landfill disposal has declined and recycling has increased in the UK and Eu
• UK has met EU targets for biodegradable waste disposal in landfill
• UK GHG emissions from MSW have decreased significantly

Question 32

What characteristics distinguish living organisms?

Answer 32

• Responsiveness
• Growth
• Reproduction
• Metabolism
• Movement
• Excretion
• Cell

Question 33

How do prokaryotes differ from eukaryotes?

Answer 33

They lack a nuclear membrane and a cell nucleus. Prokaryotes also lack most of the intracellular organelles and structures that occur in eukaryotic cells

Question 34

How large are prokaryotic cells?

Answer 34

0.5 -5 um

Question 35

What is catobolism?

Answer 35

Energy production in cells

Releases ATP by breaking complex molecules into simple molecules

Question 36

What is anabolism?

Answer 36

The assimilation, growth and repair of cells

External C substrate – Energy utilised + assimilation –> new cellular material

Question 37

What is metabolism?

Answer 37

The sum of anabolism and catobolism

Question 38

What does ATP stand for?

Answer 38

Adenosine triphosphate

Question 39

How do Anabolic pathways ATP?

Answer 39

utlize ATP to provide energy for the synthesis of monomeric compounds that are required for the manufacture of small molecules needed in cells - carbohydrates, lipids , amino acids, nucleotides, vitamins etc.

Question 40

What are the types of metabolism?

Answer 40

Autotrophic, heterotrophs

Question 41

What are the different kinds of autotrophs?

Answer 41

Photoautotrophs - energy from light
photosynthetic bateria
Chemoautotrophs - energy from chemicals
- Iron, sulphur, hydrogen… bacteria

Question 42

What are different kinds of heterotrophs?

Answer 42

Photoheterotrophs - bacteria
Chemotheterotrophs
- most bacteria 
- protozoans
- fungi
- animals

Question 43

What are the three different steps in energy production?

Answer 43

1. Glycolysis - First step in the respiration of sugar
2. Kreb’s - series of reactions releasing ATP
3. Electron transport chain - couples a series of chemical reactions

Question 44

What are the two different types of respiration?

Answer 44

• Aerobic

- Anerobic

Question 45

How does cell division work in prokaryotes?

Answer 45

Binary Fission

Question 46

How long does it take a bacteria cell to divide?

Answer 46

20-30 minutes

Question 47

How do Eukaryotes reproduce?

Answer 47

By both sexual and asexual reproduction

Question 48

What is Asexual reproduction in cells called?

Answer 48

Mitosis

Parent cell - DNA replicates - 2 daughter cells

Question 49

What is sexual reproduction in cells called?

Answer 49

Meiosis

(parent cell- DNA replicates - 2 daughter cells - 4 daughter cells

Question 50

What is the defining feature of a faculative anerobe?

Answer 50

Do not require 02 to grow

Swithc to alternative electron acceptors when 02 is defficient

Question 51

What is the defining feature for obligate aerobes?

Answer 51

Can only grow in the presence of O2

Question 52

What are the defining features of obligate anaerobes?

Answer 52

Cannot tolerate the presence of O2 and die when exposed to it
Only use alternative electron acceptors to O2

Question 53

What is the effect of water on the rate of growth of cells?

Answer 53

• Highly sensitive to changes in the osmotic potential of the surrounding environment
• solutes in cytoplasm maintain a OP below their surroundings
• Water availability reduced by interaction with solute molecules (salt/sugar molecules)
• Salinity or drying prevent microbial growth

Question 54

What is the process for urban water treatment?

Answer 54

1. Bar screen removes large debris
2. grit tank removes small debris
3. setting tank allows suspended particles to settle out of water or watewater
   [water goes to 4, solid to ]
4. clarifier
5. UV and chemical treatment [ clean goes to recieving water or 6]
6. Digester - produces energy or is incinerated or used in agriculture

Question 55

What determines the effectiveness of wastewater treatment?

Answer 55

amount of contaminants

• preliminary screening remoes solid matter
• primary settlement removes suspended soils
• secondary biological treatment and settlement reduces the organic matter content
• tertiary treatemtn - effluent polishing step: reduce the load of micro-organisms and or nutrients in the effluent

Question 56

How much BOD, suspended solids, nitrogen and phosporous does primary settlement remove?

Answer 56

40% of BOD
60% of suspended solids
17% of nitrogen
20% of solids

Question 57

How much BOD, suspended solids, nitrogen and phosphorous does secondary treatment remove?

Answer 57

95% of BOD
95% of suspended solids
29% of nitrogen
35% of phosphorous

Question 58

What does BOD stand for?

Answer 58

Biological oxygen demand

Question 59

How much BOD, suspended solids, nitrgoen and phosphorous does the tertiary phase of waste water treatment remove?

Answer 59

100% of BOD
100% of suspended solids
33% of nitrogen
38% of phosphorous

Question 60

What is the main attatched growth waste water treatment mechanism?

Answer 60

Trickling/ percolating filter

Question 61

What are the main suspended growth processes?

Answer 61

• activated sludge processes

Question 62

What is the main mechanism for wastewater treatment?

Answer 62

main process employed at major wastewater treatment plant

Question 63

What are trickling/ precolating filters?

Answer 63

• very succesful wastewater treatment system
• microbial biofilm develops on carrier media (<0.1 - 0.3mm thickness)
• an aerobic microbial process

Question 64

What is the degredation process in trickling/ percolating filters?

Answer 64

• extracellular enzymes (saprophytic)
• direct ingestion by metazoa and protozoa
• soluble inorganics and O2 difuse into biofilm

Question 65

What does a trickling/ percolating filter consist of?

Answer 65

• circular or rectangular aggregate bed
• 5 - 10cm aggregate size
• 1.5- 2 m deep
• underdrain below aggregate
• settled sewage supplied through disruptor
• typical circular arrangement of 4 radial pipes
• moved by hyrdraulic flow or powered

Question 66

What are the advantages of a trickling/ percolating filter?

Answer 66

• Simple operation
• low maintenance
• low energy use
• reliable
• sloughed biomass easily removed by sedimentation
• treat industrial wastewater
• buffered to withstand shock loadings (contaminants, excessive nutrients)
• biomass retained therefore not susceptible to wash-out

Question 67

What are the disadvantages of trickling/ percolating filters?

Answer 67

• filter clogging due to microbial growth
• potential odours
• fly nuissance
• difficult to control
• poorer operations in cold conditions
• requires pretreatment and primary sedimentation

Question 68

What is an activated sludge process?

Answer 68

• mixed culture of aerobic organisms to oxidise organic materials
• dynamic engineering system
• basic unit of activity is the FLOC

Question 69

What is a floc?

Answer 69

a mass of essential bacteria associated with fungal filaments - forms a mesh structure

Question 70

What is the process of activated sludge process?

Answer 70

• a mixed liquor of biomass and wastewater
• flocs consolidated by secondary sedimentation
• supernatant - discharge effluent
• recycel consolidation cells to aeration tank
• cell retention time > hydraulic retention time
• high microbial population achieves the max. rate of decomposition
• mixed suspension maintained by turbulence

Question 71

What is the rapid stage of the activated sludge process?

Answer 71

• protperties of floc
• facilitate rapid absorption of soluble and colloidal molecules
• capture or particulate solide matter
• massively reduces the biological oxygen demand

Question 72

What is the oxidation stage of the activated sludge process?

Answer 72

• Respiration at the intlet is increased as organic matter is oxideised
• rapid oxidation of readily degradable organics
• slower oxidation of recacritrant components
• respiration <0.01 intital rate at end of tank

Question 73

What are the advantages of suspended growth systems?

Answer 73

• increased process control
• flexible as different redoc environments created by digester design
• reduced odour and fly problems
• smaller footprint then attatched growth systems

Question 74

What are the disadvanages of suspended growth systems?

Answer 74

• susceptible to shock loads and contaminants
• susceptible to biomass washout
• more complex than trickling/ perolation methods
• susceptible to poor sedimentation
• high energy demand

Question 75

What gas does anerobic digestion generate?

Answer 75

CH4 - methane

Question 76

How much of the sewage sluge produces in the UK is treated by anerobic digestion?

Answer 76

70%

Question 77

How much of the sewage sludge produce in the UK is applied as a fertiliser etc.

Answer 77

> 80%

Question 78

What are the advantages of sewage sludge treatment?

Answer 78

• increases stability of biodgradable matter
• reduces odour and offensiveness
• reduces vector attraction (flies, rodents)
• reduces pathogen content
• improves physical properties for land application

Question 79

What is the primary stage of sewage sludge treatment?

Answer 79

• pasteurization at 57 C for 5 hrs or 70C for 50 min

Question 80

What is the secondary stage of sewage sludge treatment?

Answer 80

• sludge is dewatered and some liquid digestion may take place
• there is not heating or mixing
• residual gas is captured
• pathogen removal
• increase the sludge consolidation
• mechanically dewatered

Question 81

What are the main biochemical processes that occur in anerobic decomposition?

Answer 81

• hydrolysis
• fermentation
• acetogeneisis
• methanogenesis

Question 82

What is composting?

Answer 82

• an autothermophillic aerobic decomposition
• produces stackable solid substrates
• consists of sewage sludge, MSW, green waste
• degredation occurs over several weeks by microbial succession
• heat is generated by mesophillic activity conserved in heaps and increases temperatrure
• produces stabilised, dark brown residue

Question 83

How long does the 4 stages of mivrobial succession take in composting?

Answer 83

• Mesophilic, thermophilic, cooling, maturation/ curing - 14-21 days
• maturation/ cooling >2-3 months

Question 84

What happens during composting?

Answer 84

• mesophiles mutliply
• as the process nears 40 C the mesophilic activity declines and thermophillic funge take over
• the control strategy maintains a temperature between 40 and 60 C
• as >60C beneficial microbes are killed

Question 85

What is the process of cooling/ maturation?

Answer 85

• Reacion rate slows as easily degradable substrates run out
• heat loss > heat generation
• bacterial and fungal biomas support succseion of higher organisms
• slow hydrolysis and assilimilation of complex polymeric substances by extracellular enzymes
• complex secondary reactions produce stable humified end-product