CENV 1119 Renewable Energy PDF

Summary

This document is a lecture on renewable energy sources, including hydropower, wind, solar, geothermal, and bioenergy. It details the various types of renewable energy, their efficiency, environmental impact, and costs.

Full Transcript

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Environmental Science
CENV 1119
Instructor: Dr. Ali Al Jibouri, P.Eng.
Office: SW01-1580
Email: [email protected]
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Energy Efficiency
Energy Efficiency = Useful energy
produced by a device compared to total
energy output (including heat)

To improve net energy efficiency
Minimise the number of conversion
steps
Maximise the efficiency of each step
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Net Energy Efficiency
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Improving Energy Efficiency
Industry Building Design
Cogeneration Insulation
Replace inefficient electric Energy-efficiency standards for
motors fixtures
Higher efficiency lighting
Transportation
Increased fuel economy
Hybrid-electric vehicles
Fuel-cell vehicles
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Fuel Cells

Source: Concept information from DaimlerChrysler, Ford, Ballard, Toyota, and Honda.
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Electricity by Fuel Type 2019
Canada’s Energy

Hydro is the most
important electrical energy
source in Canada
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Sustainable Energy – The Key to Everything
 Hydropower
 Wind
 Solar
 Geothermal
 Bioenergy

Are all natural
sources sustainable?
Sustainable: Rate of generation is equal to
or greater than the rate of consumption
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Sustainable Energy – The Key to Everything

https://www.nrcan.gc.ca/energy/facts/renewable-energy/20069
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Sustainable Energy – Hydropower

Most important renewable
energy source in Canada

 60 % of Canada’s
electrical generation
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Sustainable Energy – Hydropower
Large-scale hydropower
High dam across a large river to
create a reservoir
Issues with flooding, ecological impact
on fish
Small-scale (run-of-river) hydropower
Low or no dam used in a small stream
Lower impact, but less reliable flow/output
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Sustainable Energy – Hydropower
Water flowing from higher
elevations to lower elevations
(kinetic energy)
Dams across rivers  reservoir
Some of the water stored in the
reservoir is allowed to flow
through pipes at controlled
rates, spinning turbines
(mechanical energy) to produce
electricity (electric energy)
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Sustainable Energy – Hydropower
 High efficiency (80 %)  High construction costs
 Low cost (3rd cheapest)  Water loss through evaporation
 Long life span  High environmental impact from
 No CO2 emissions during flooding land
operation  High CO2 emissions from rapid
 Provides flood control, irrigation decay in shallow tropical
and recreation reservoirs
 Displaces people (40 – 80
million worldwide)
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Sustainable Energy – Hydropower

https://www.youtube.com/watch?v=rnPEtwQtmGQ
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Sustainable Energy – Wind
1998: 60 wind turbines, 8 wind farms and 27 MW
2020: 6,590+ wind turbines; 297 wind farms; total installed
capacity of 13,588 MW

Canada – 8th in the world
5 % of electricity in 2019
67 % decline in costs
since 2009
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Sustainable Energy – Wind
Wind doesn’t push
blades, but passes over
them. The ΔP between
upper and lower surfaces
creates lift  rotor turns
Kinetic energy of wind
 mechanical energy
 transmitted via drive
shaft to an electrical
generator
https://canwea.ca/wind-facts/why-wind-works/
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Sustainable Energy – Wind
Operate at wind speeds between 12 – 88 km/h
Produce electricity between 70 – 90 % of the time
Lifespan – 25+ years
 High net energy yield &  Require back up systems
efficiency  High land use
 Low cost  Visual and noise pollution
 Low environmental impact  Interference with bird
 No CO2 emissions migration
 Quick construction  Bird deaths
 Low maintenance
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Sustainable Energy – Solar
Energy of sun in form of radiated heat
& light
Two major types:
Thermal
Photovoltaic
Ease of scalability (large or small)

 2019: 3,273 MW
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Sustainable Energy – Solar

138 Solar PV farms
in Canada with
capacity > 1 MW
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Sustainable Energy – Solar

G. Miller and S. Spoolman, Living in the environment: principles, connections, and solutions, 17th edition. Nelson Education, 2011.
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Sustainable Energy – Solar
 Energy is free  Release of toxic chemicals
 Net energy is moderate (active) during production of photocells
to high (passive)  Short life span
 Quick installation  Need backup systems
 Very low air and water pollution  Need heat storage system
 Very low land disturbance (built  Need access to sun 60 % of the
into roof or windows) time
 Moderate costs (passive)  Sun can be blocked by trees
and other structures
 High cost (active)
 Active systems need
maintenance and repair
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Sustainable Energy – Solar

https://www.renewableenergyworld.com/solar-energy/tech/solarpv.html
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https://phys.org/news/2018-09-photoelectrode-harvest-percent-visible.html
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 Stores solar energy long term
 Releases energy “on demand”

https://pubs.rsc.org/en/content/articlepdf/2018/ee/c8ee01011k
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Sustainable Energy – Geothermal
Geothermal energy can be captured from heat stored beneath the
earth’s surface or from absorbed heat in the atmosphere and
oceans
Geothermal energy can be captured from naturally occurring
underground steam and used to produce electricity
Heating and cooling can be achieved by taking advantage of the
temperature differential between outside air and the ground or
groundwater
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Sustainable Energy – Geothermal

https://energync.org/geothermal-heat-pumps/
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Sustainable Energy – Geothermal

https://www.youtube.com/watch?v=mCRDf7QxjDk
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Sustainable Energy – Bioenergy
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Sustainable Energy – Bioenergy
Biomass: biological material in solid, liquid or gaseous form that
has stored sunlight in the form of chemical energy (does not
include fossil fuels)

Biofuels: solid, liquid, or gaseous fuels which consist of and are
derived from biomass, recently living organisms, or their
metabolic by-products such as manure from livestock
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S. Manahan, Environmental Chemistry, 10th Edition. Boca Raton: CRC Press, 2017.
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Sustainable Energy – Bioenergy
Biofuels:
Biodiesel - vegetable oils or animal fats: used in compression
engines (Diesel)
Bioethanol - fermentable sugars (i.e. sucrose/glucose) converted
to ethanol (alcohol) by fermentation: used in spark ignition
engines (Gasoline)

Huge variety of source material
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Sustainable Energy – Bioenergy
Bioenergy BC
Industrial wood waste (wood waste from pulp and paper industry)
 Most important type of biomass in Canada
 Used to produce electricity and steam
Pulp and paper industry is the largest consumer of bioenergy
(>50 %)
Most active provinces are the ones with significant forestry
activities (BC, Ontario, Quebec and New Brunswick)
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Sustainable Energy – Bioenergy
Biofuels – Canada:
Corn, wheat and barley  ethanol
Vegetable oils and non-edible waste greases and animal fats 
biodiesel
Canada produced 1.6 billion litres of ethanol and 418 million litres
of biodiesel in 2020 (NRCan)
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Sustainable Energy – Bioenergy
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Sustainable Energy – Bioenergy

https://www.researchgate.net/publication/269038981_Sugarcane_based_bioethanol_energy_for_sustainable_development/figures?lo=1
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Sustainable Energy – Biomass
 Energy security  Decreasing biodiversity
 Reduced GHG emissions  Decrease water availability
 Improved air quality and quality
 Growth in rural areas /  Soil degradation
developing countries  Conflict with food production
 Indirectly increase GHG
emissions due to land use
changes
 Increased pesticide/fertiliser
use
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Sustainable Energy – Bioenergy

Is the journey to 100 % renewables feasible?

Refer to handout
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Credentials
Slide Design and Creation: Dr. Deirdre Lynch
Special thanks for her effort and creativity in
designing these slides.