Ph.D. (1963) - Imperial College, University of London, England
Reactor Physics specialty in the Department of Mechanical Engineering
DIC (1960) - Imperial College, University of London, England
Nuclear Engineering diploma
B.E. (1958) - University of Saskatchewan, Saskatoon, Canada
Civil Engineering (with Great Distinction)
International Nuclear Energy Academy (Chairman 1998-2000) - 1996 to present
Canadian Nuclear Society- 1978 to Present, President 2006-07
Association of Professional Engineers of Ontario- 1973 to Present
Sigma Xi, The Scientific Research Society- 1967 to Present
American Nuclear Society- 1965 to Present
Currently Adjunct Professor, University of Ontario Institute of Technology
Acting Dean, Faculty of Energy Systems & Nuclear Science
CANDU Owners’ Group
Director, CANTEACH program - January 2002 to January 2007
Atomic Energy of Canada Limited
Chief Engineer - February 1995 to October 1999
Representative, Shanghai Office- September 1997 to October 1999
Senior Advisor, Marketing and Sales - October 1999 to October 2001
Engineer Emeritus - October 2001 to Present
A third explosion hit Japan's quake-ravaged Fukushima Daiichi nuclear plant. Is the plant at risk of a meltdown?
Dan talks about Fukushima on Canadian TV. 13:34
17th Pacific Basin Nuclear Conference
The past fifty years have witnessed the advent of a new energy source and the beginning of yet another in the series of energy-use transitions that have marked our history since the start of our technological development. Each of these transitions has been accompanied by adaptive challenges. Each unique set of challenges has been met. Today the world faces the need for another transition. This paper outlines some of the associated challenges that lie ahead of us all, as we adapt to this new and exciting environment. The first step in defining the challenges ahead is to make some form of prediction of the future energy supply and demand during the period. Herein, the future up to 2010 is presumed to include two major events -- first, a decline in the availability and a rise in price of petroleum, and second a need to reduce greenhouse gases in our atmosphere. Both of these events are taken to be imminent. Added to these expected events is the assumption that the total of wind, solar, and other such energy sources will be able to contribute, but only in a relatively small way, to the provision of needed energy to our ever-expanding human population.
Annual conference, May 24, 2010.
This presentation reviews the past half-century of nuclear energy from one person’s point of view, fully recognizing likely errors in fact and perception. It also takes a look at the coming 50 years of our enterprise. The future will demand a lot from nuclear technology, given the decline in the availability of cheap fossil fuels and the expected rising need for energy. We can supply safe and reliable energy for thousands of years, if such is necessary. Uncertainty remains in the short term regarding the support of the people and of the governments who serve them.
The ocean is the ULTIMATE closing argument against the naysayers who claim that we'll soon run out of uranium. The fact that with the IFR we can live essentially forever (God Willing) without this source is really unimportant.
If the Japanese are concerned about pumping power to move seawater past their adsorbers, a fast reactor does that free gratis -- at least twice as much dissolved uranium passes through the CCW in a year as is required to keep the plant running. Screens can be placed downstream, and that is the end of the problem of energy supply to the world -- forever, Amen.
Even if the recovered uranium were priced at half the price of gold, this would not change the price of electricity even by one cent per kwh if fast reactors are used. As a wrap-up, the earth's rivers continuously replenish the ocean's uranium - and the ocean bottom does the same by leaching from the rock.
D.A. Meneley, Engineer Emeritus
Atomic Energy of Canada Limited
We can expect to see the peak of world oil production very soon. Some say that we can see that peak now in our rear-view mirrors as we drive into an oil-poor future. Natural gas already is in short supply in North America. Nuclear energy must make up the lion’s share of the world’s energy deficit.