This new course will focus on just future electricity production from non-renewable resources rather than the wider subject of energy production and use. It is based closely on a section of the current 5 hr Online course ‘Sustainable Energy: An Unbiased Review of Options’.
The purpose of the course is to equip high school science and geography teachers to tackle the issue of electricity generation from coal, gas and nuclear by providing a balanced overview of the various options required to provide electricity in the future while minimising environmental damage.
The focus of the course is on providing technical details on the various technologies to provide electricity in the future and on conducting a realistic evaluation of these technologies.
The course has close links with the Australian Curriculum, namely:
o Unit 3: “Living on Earth – extracting, using and managing Earth resources” of the Senior Secondary Science/Earth and Environmental Science syllabus
o Unit 1: “Thermal, nuclear and electrical physics” of the Senior Secondary Science/Physics syllabus
o Unit 4 “The changing Earth – the cause and impact of Earth hazards” (Earth and Environmental Science)
o Year 7 Science on renewables (ACSSU116)
o Year 8 Science on science and technology finding solutions to contemporary issues (ACSHE135)
o Year 8 Science/Gifted and Talented Students on “Meeting Future Energy Needs”
o Year 6 Science: Energy from a variety of sources can be used to generate electricity (ACSSU219)
o A number of general Geography units.
High school teachers of science and geography with an interest in energy generation in the 21st century.
A short online course is delivered over 1-3 weeks in duration and is worth 2-3 PD hrs depending on the course content and its objectives. Participants will not need to take time off, the course date is the START date only, end dates will be advertised with course hours. Learn more HERE.
Detailed look at Sections on Electricity from longer online course “Sustainable Energy: An Unbiased Review of Options”.Check out the detail below in the session outlines.
This course contributes to 2.0 professional development hours.
|05/06/2017||Online||Places available||$89 + GST||Enrol Now|
|20/11/2017||Online||Places available||$89 + GST||Enrol Now|
Discuss motivations for changing our energy production and use (resource depletion, energy security, global warming); define terms; put Australia’s energy consumption and greenhouse gas emissions in perspective; review coal, gas and uranium ore reserves; introduce a new methodology in which we use a single set of personal units everyone can relate to; view videos by Bill Gates on “Energy – Innovating to Zero” and David MacKay “How Many Light Bulbs”.
Coal is currently an important part of the Australian economy. Coal is our second largest export commodity and coal provides about 85% of Australia’s electricity production. In the present course we review current and future coal technologies. Gas is becoming increasingly important fuel and its future in electricity generation will be assessed
In this session we will attempt to determine whether coal or gas with carbon capture and storage is a viable option to meet our future energy demands.
Nuclear has the potential to solve our energy needs with low CO2 emissions. Current and future nuclear technologies will be discussed as well as waste disposal, weapons proliferation, safety and cost. However, after Chernobyl and Fukushima, nuclear has a serious problem with regaining public trust.
Briefly consider possible energy plans for the future (up to 2050). Provide copies of slides from the present course and review some resources (videos, online tools, relevant games, etc) that are available for use in the classroom. (20 min)
Note that at the end of some sessions above, a number of questions will be posed for forum discussion.
There are no reviews of this format at this time.
Brian Sowerby recently retired as Chief Research Scientist and Program Manager (Instrumentation and Control) with CSIRO Minerals. He obtained a BSc (Hons 1) from the University of NSW and a PhD in physics from the Australian National University. Following two years post-doctoral work in Canada, Brian has carried out research and development in Australia on the application of on-line analysis techniques in the mineral, energy and security industries. His work led to the commercialisation of a number of on-line analysis instruments and he has received many awards for this work including the prestigious Australia Prize in 1992.