Sunday, March 17, 2019
CHEM 418 Nuclear Chemistry, Winter 2019: Final Exam
The final exam for CHEM 418 is due 22-Mar-19. The questions are designed to stimulate a broad utilization of course material. The exam is a word document. Provide the answers and return as an e-mail attachment or through the Canvas site. Post any questions to this blog.
Tuesday, March 5, 2019
CHEM 418 Nuclear Chemistry, Winter 2019: Lecture 19 Nuclear Forensics
This lecture covers the utilization of radionuclide properties to determine origin, age, used, and other properties of nuclear material. These isotope properties are defined as signatures of nuclear material, and include concentrations, relative amounts, and ratios. Specific details are provided on forensic signatures related to Pu and actinide isotopics. The signatures arising from reactors, separations, and post-detonation are included. For plutonium production these signatures include reactor power, reactor type, time of irradiation, separation method, and time since separation. The signatures include plutonium isotopic mass ratios, plutonium isotopic activity ratios, and transplutonium isotope ratios. Separation signatures include evaluation of Zr, Tc, Ru, and the lanthanides, with examples using Nd isotopics. Alloys of actinide metals as signatures is also presented. The lecture is 40 minutes.
The lecture is assigned Sunday 10 March 2019. Lecture 19 PDF Quiz is due Friday 15 March 2019. Any questions can be posted to the blog. The answers to PDF Quiz 19 will be posted on Saturday 16 March 2019.
The lecture is assigned Sunday 10 March 2019. Lecture 19 PDF Quiz is due Friday 15 March 2019. Any questions can be posted to the blog. The answers to PDF Quiz 19 will be posted on Saturday 16 March 2019.
CHEM 418 Nuclear Chemistry, Winter 2019: Lecture 18 Application of Nuclear Material
The lecture provides examples of the use of radioactive isotopes. The methods used for isotope production are discussed. The difference between isotope production by accelerators and reactors is highlighted. Reactor isotope products are primarily neutron rich; while accelerator produced isotopes tend to be neutron poor. Isotopes used in the generation of neutrons are provided. These neutron generating sources are small with a relatively low neutron generating rate. They are used in element and compound identification. Examples of isotopes used as ionization sources are provided. The discussion focuses on the use of 241Am for smoke detection and 63Ni for explosives detection. The importance of 238Pu as a heat source is provided, with examples given for space exploration. A number of isotopes used in radiopharmaceuticals are introduced. Comparisons are given for diagnostic and therapeutic radiopharmaceuticals. The lecture is in 2 parts. Part 1 is 29 minutes, part 2 is 32 minutes.
The lecture is assigned on Tuesday 5 March 2019 and due Wednesday 13 March 2019. When you have completed the lecture please comment on the blog Links to an external site.and respond to the Lecture 18 PDF quiz. The answers to the Lecture 18 PDF quiz
will be posted Thursday 14 March 2019.
will be posted Thursday 14 March 2019.Sunday, March 3, 2019
CHEM 418 Nuclear Chemistry, Winter 2019: Exam 3
Greetings
Exam 3 will be posted by Saturday 9 March 2019. The exam topics will include:
- Lecture 11: Speciation
- Lecture 12: Uranium chemistry
- Lecture 13: Neptunium chemistry
- Lecture 14: Plutonium chemistry
- Lecture 15: Americium and Curium chemistry
- Lecture 16: Chemistry in reactor fuel
- Lecture 17: Separations
- Lecture 18: Application of Nuclear Material
- Lecture 19: Nuclear Forensics
If you wish, you can provide questions for this exam. Please do so by Wednesday 6 March 2019. Questions can be posted on the blog. (Links to an external site.)Links to an external site.
CHEM 418 Nuclear Chemistry, Winter 2019: Lecture 17 Separations
A number of different separation methods for radionuclides, with an emphasis on actinides, are presented. Solvent extraction, ion exchange, electrochemical, volatility and ionic liquid methods are discussed. The fundamental concepts are provided with specific examples on the nuclear fuel cycle. Ideas and concepts for advanced separations are given. Details are provided for the different separation routes discussed. The PUREX process is described. Examples are given for TRUEX and TALSPEAK separations. Specific examples for actinide separations are provided. Part 1 is 40 minutes, part 2 is 40 minutes, part 3 is 24 minutes, and part 4 is 30 minutes. Part 4 is a summation lecture on transuranic separations that are drawn from the Np, Pu, Am, and Cm lectures. Part 4 is meant as a review and provides a compilation of separation methods, the bulk can be skipped, but examples of questions are provided at the end of the lecture.
The lecture is assigned on Sunday 3 March 2019 and due Tuesday 12 March 2019. When you have completed the lecture please comment on the blog Links to an external site.and respond to the Lecture 17 PDF quiz
. The answers to the Lecture 17 PDF quiz will be posted Wednesday 13 March 2019.
Subscribe to:
Posts (Atom)