The Curious Absence of New Nuclear Michael Hoeger Presented 02/06/2012.

Slides:

Advertisements

Similar presentations

Nuclear Power. Source: Uranium-235 Process: – An unstable uranium nucleus is bombarded with a neutron and splits into two smaller nuclei and some neutrons.

Advertisements

Chapter 16 Nuclear Energy.

To drill or not to drill? Nuclear Energy FIGURE 16: Structure of the atom.

The Cons of Nuclear Reactors By Michelle Trojanowsky.

14.4 Nuclear Energy FIGURE 16: Structure of the atom.

THE FUTURE OF FUKUSHIMA Can nuclear energy overcome its bad rap? CHAPTER 27 NUCLEAR FUTURE.

Are you prepared?... Amazon instant video - start16:18.

Section 2: Nuclear Energy

Nuclear Power Grace Liz Dione Blair. The Principle of Nuclear Power.

Chapter 12 Nuclear Energy. Overview of Chapter 12 o Introduction to Nuclear Power Atoms and radioactivity Atoms and radioactivity o Nuclear Fission o.

Nuclear Power What is nuclear energy? Power plants use heat to produce electricity. Nuclear energy produces electricity from heat through a process called.

THE FUTURE OF FUKUSHIMA CHAPTER 23 NUCLEAR POWER Can nuclear energy overcome its bad rep?

1 Nuclear Energy Chapter 16. Atoms and Radioactivity All common forms of matter are composed of atoms. All atoms are composed of: 1) Protons (found in.

Chapter 4 Nuclear Energy. Objectives Describe how nuclear fuel is produced. List the environmental concerns associated with nuclear power. Analyze the.

Nuclear Energy and Nuclear Waste The Good, The Bad, and the Ugly…

S A C C O N E A P E S Chapter 11: Nuclear Energy

Fission and Fusion Nuclear Fission

Nuclear Energy.

Nuclear Energy Chapter 12. Nuclear Fuel Cycle Uranium mines and mills U-235 enrichment Fabrication of fuel assemblies Nuclear power plant Uranium tailings.

Nuclear Energy. The Nearest Nuclear Power Plant DTE Fermi II is just about 40 miles from us.

Nuclear Power: Pros & Cons By: Shokoofeh Akhavan Professor: Emily Brett August 2012.

Nuclear Power Reactors SEMINAR ON NUCLEAR POWER REACTOR.

Nuclear Energy How will it affect you?. Nuclear Energy: What is it? n Fission –the splitting of an atom by a neutron, resulting in two or more neutrons.

Are you prepared?... start 2:27.

Section 2Nuclear Changes Classroom Catalyst. Section 2Nuclear Changes Objectives Describe nuclear fission. Describe how a nuclear power plant works. List.

Nuclear Power Physics /7/03. Outline  The Nucleus  Radioactivity  Fission  Fusion  Nuclear Weapons  Nuclear Power.

III. Nuclear Power. A. Reactions and Sources 1. Uses energy released by nuclear fission- the splitting of the nucleus of an atom 2. Nucleus is hit with.

Nuclear Power Indian Point Energy Center in Buchanan, NY.

Are you prepared?... start 2:27.

Chapter 12 Nuclear Energy.

Just Do It Now – E Problems 1.Given that the electricity for home use is five cents per kilowatt- hour, how much would it cost to operate five fluorescent.

Fukushima Power Plant – Japan Post March 11, 2011

Nuclear Energy Power Plants. Chernobyl Fuel  Uranium-235  an isotope of naturally occurring uranium- 238  Uranium is mined-common mineral is urananite.

Nonrenewable EnergySection 2 Section 2: Nuclear Energy Preview Bellringer Objectives Nuclear Energy Fission: Splitting Atoms How Nuclear Energy Works The.

In your notes… What are the four ways we harness solar energy? What are the limitations of solar energy (at least 2)? What approach should we take with.

Chapter 34. Basics The technology was first developed in 1930’s and 40’s during WWII Used for the “Atomic Bomb” Post-war, the idea of using nuclear energy.

Nuclear Power Plant How A Nuclear Reactor Works.

Uranium Ore - must be “enriched” most abundant = 238 U fissionable = 235 U (“fuel”) Reminder: Isotopes different # of neutrons Naturally occurring radioactive.

Nuclear Power Plants. If the neutrons can be controlled, then the energy can be released in a controlled way. Nuclear power plants produce heat through.

Conventional Nuclear Fission nuclear fuel cycle: producing uranium ore used in nuclear reactors & disposing of radioactive wastes.

Nuclear Power Plant How A Nuclear Reactor Works. Pressurized Water Reactor - Nuclear Power Plant.

1 Nuclear Science An Overview Of Atomic Energy and Nuclear Power Plants Mr. Schimanski Feb 17, 2015.

The world and how it reacts to nuclear energy LeAnna.

Nuclear Energy and the Environment. Current Role of Nuclear Power Plants Worldwide Worldwide 436 power plants 436 power plants 17% of electricity 17%

Short how nuclear plant works how nuclear power works.

MEASURING RADIATION Large doses of radiation are harmful to living tissue. Radiation can be measured with a Geiger counter – a device that measures radioactivity.

Nuclear Energy A presentation by Kyle Piper, Alex Guthrie, Kaj Harvey, Henry Lembeck.

 In the 1950s and 1960s, nuclear power plants were seen as the power source of the future because the fuel they use is clean and plentiful.  In the.

 Uranium: a metal with heavy, unstable atoms; an element  Fission: to split the nucleus of an atom.  Fission Products: created through fission; highly.

Nuclear Energy and Nuclear Waste

Section 2: Nuclear Energy

Section 2: Nuclear Energy

Objectives Describe nuclear fission.

Nuclear Power Public safety concerns and the costs of addressing them have constrained the development and spread of nuclear power in the United States,

9.5 Nuclear Power Although nuclear power does not come from a fossil fuel, it is fueled by uranium, which is obtained from mining and is non-renewable.

Chapter 5 Energy Resources

MEASURING RADIATION Large doses of radiation are harmful to living tissue. Radiation can be measured with a Geiger counter – a device that measures radioactivity.

Nuclear Energy and Nuclear Waste

Nuclear Reactions 1-3,6-7,17-23 E = mc2.

Nuclear Energy and Nuclear Waste

Nuclear Energy and Nuclear Waste

Section 2: Nuclear Energy

Chapter 8: Nuclear Energy

Objectives Describe nuclear fission.

Section 2: Nuclear Energy

Presentation transcript:

The Curious Absence of New Nuclear Michael Hoeger Presented 02/06/2012

Outline Brief Review of Nuclear Energy Current Public Opinions Past Nuclear Accidents Comparison to Coal Media and Popular Culture Economics Question and Answer Session

Fission Overview Neutron is Absorbed by 235 U The 235 U atom briefly becomes 236 U The 236 U Atom Decays into lighter Atoms, Releases Energy, and 3 Neutrons [1]

Sustaining the Reaction Uranium 235 Atom Absorbs Neutron Neutrons Collide with 235 U, 238 U, or Nothing Neutron Collision with 235 U Produces more Neutrons Continuing the Chain [2]

How do Most Commercial Nuclear Reactors Work? [3] Simplified View of a Boiling Water Reactor (BWR)

Public Opinion November 11, 2011 [7]

Renewing Licenses and Allowing New Construction [7]

Most Support Investment in Low-Carbon Technologies [7]

Why did the Last Groundbreaking for a Nuclear Plant Occur in 1974 ?

Two Classical Arguments Safety Core Damage Frequency Radiation under Normal Operation Storage of Spent Fuel Economics Cost per Kwh Financing of New Plants Decommissioning

Core Damage Frequency Likelihood of an accident that causes damage to a reactor core Estimated that a core will be damaged in the United States once every 50,000 reactor years Globally there are 582 reactors totaling 14,400 reactor years, with a core damage frequency of 1,400 years

Core Damage Frequency Clearly reactors are damaged at a rate much higher than anticipated However, how many of these incidences were severe and what was the damage

Three Mile Island [9] No immediate deaths Average exposure of 8 mrems No person exposed to greater than 100 mrems A chest X-ray is equivalent to 8 mrems Each person is exposed to 310 mrems annually from natural background radiation For Comparison

Chernobyl [10] Around 31 immediate deaths TORCH Report concluded 30,000 to 60,000 premature cancer deaths Worst nuclear disaster of all time Highest dose rates around 3000 mrems per hour near the core

Fukushima [11] No immediate deaths Projected increase in cancer mortality rate to increase.001% total of 100 to 1000 Deaths The tsunami caused up to 16,000 to 20,000 Deaths 92.5% Drowned (12,143) 1.1% Burned (148) 4.4% Crushed or Fatal Injuries (578) Relative to Tsunami [12]

Normal Operating Radiation Levels The average person is exposed to 13 mrems living within a 50 mile radius of a nuclear plant The average person is exposed to 23 to 1.2 mrems living within the same radius equivalent size coal fired plant [13]

Spent Fuel Pools Spent fuel rods are kept on site pools until permanent geological disposal site is created The pools help cool the rods from decay heat and prevent criticality [14] Fuel may be stored in pool for 1-10 years before dry storage 1% of the original mass is converted to Plutonium [12]

Media and Popular Culture [4] [5] [6]

Media and Popular Culture Do those who disfavor nuclear energy have risk-averse behavior Does the media increase our perception of risk Are news stories sensationalized to gain the attention of viewers Nuclear Energy is an order of magnitude safer than coal

Capacity by Energy Source [18]

Generation by Source [18] Production Costs Coal3.06 Natural Gas4.82 Nuclear2.14 Cents per Kwh in 2010 [19]

U.S. Electricity Production Cost , In Cents per Kwh [20]

Financing New Plants Upfront costs are high and investors do not want to wait years for returns Florida Power & Light expects a cost of $5400 per Kwh installed Once new construction begins it is expected that cost will drop per Kwh installed [22]

Decommissioning Costs Total Cost per Plant $ million – Radiological$300 million – Used Fuel$ million – Restoration$50 million Total Cost of Fleet Decommissioning $31.9 billion – 2/3 of the decommissioning cost is already funded – The remaining cost will be funded over the next 20 years if the average plant is licensed for 40 years [21]

Permanente Storage For every 1000kg fuel used at a nuclear power plant over 999kg of fuel waste is created 2,000-2,300 metric tons of waste are created each year Over 65,000 metric tons have been created since the start of the industry There is no large permanent high-level waste site in the U.S. [23] [24]

Resources

Questions & Discussion