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Glass as a waste encapsulant. Because glass is not
Chapter 12, Problem 109E(choose chapter or problem)
Glass as a waste encapsulant. Because glass is not subject to radiation damage, encapsulation of waste in glass is considered to be one of the most promising solutions to the problem of low-level nuclear waste in the environment. However, chemical reactions may weaken the glass. This concern led to a study undertaken jointly by theDepartment of Materials Science and Engineering at theUniversity of Florida and the U.S. Department of Energyto assess the utility of glass as a waste encapsulant.*Corrosive chemical solutions (called corrosion baths)were prepared and applied directly to glass samples containing one of three types of waste (TDS-3A, FE, andAL); the chemical reactions were observed over time. Afew of the key variables measured were
y = Amount of silicon (in parts per million) found in solution at end of experiment. (This is both a measure of the degree of breakdown in the glass and a proxy for the amount of radioactive species released into the environment.)
\(x_1\) = Temperature (\(^{\circ}C\)) of the corrosion bath
\(x_2\) = 1 if waste type TDS-3A, 0 if not
\(x_3\) = 1 if waste type FE, 0 if not
(Waste type AL is the base level.) Suppose we want to model amount y of silicon as a function of temperature(\(x_1\)) and type of waste (\(x_2\), \(x_3\)).
a. Write a model that proposes parallel straight-line relationships between amount of silicon and temperature, one line for each of the three waste types.
b. Add terms for the interaction between temperature and waste type to the model of part a.
c. Refer to the model of part b. For each waste type,give the slope of the line relating amount of silicon to temperature.
d. Explain how you could test for the presence of temperature–waste type interaction.
Questions & Answers
QUESTION:
Glass as a waste encapsulant. Because glass is not subject to radiation damage, encapsulation of waste in glass is considered to be one of the most promising solutions to the problem of low-level nuclear waste in the environment. However, chemical reactions may weaken the glass. This concern led to a study undertaken jointly by theDepartment of Materials Science and Engineering at theUniversity of Florida and the U.S. Department of Energyto assess the utility of glass as a waste encapsulant.*Corrosive chemical solutions (called corrosion baths)were prepared and applied directly to glass samples containing one of three types of waste (TDS-3A, FE, andAL); the chemical reactions were observed over time. Afew of the key variables measured were
y = Amount of silicon (in parts per million) found in solution at end of experiment. (This is both a measure of the degree of breakdown in the glass and a proxy for the amount of radioactive species released into the environment.)
\(x_1\) = Temperature (\(^{\circ}C\)) of the corrosion bath
\(x_2\) = 1 if waste type TDS-3A, 0 if not
\(x_3\) = 1 if waste type FE, 0 if not
(Waste type AL is the base level.) Suppose we want to model amount y of silicon as a function of temperature(\(x_1\)) and type of waste (\(x_2\), \(x_3\)).
a. Write a model that proposes parallel straight-line relationships between amount of silicon and temperature, one line for each of the three waste types.
b. Add terms for the interaction between temperature and waste type to the model of part a.
c. Refer to the model of part b. For each waste type,give the slope of the line relating amount of silicon to temperature.
d. Explain how you could test for the presence of temperature–waste type interaction.
ANSWER:Step 1 of 7
It is given that the glass samples containing one of the three types of waste (TDS-3A, FE
and AL); the chemical reactions were observed over time.
Dependent variable:
y = Amount of silicon
Independent variable:
