II. Speaking Exercises:

Exercise 1. Describe reactor by-product using the suggested words and expressions:

neutron flow, bombards, radioactive nuclides, plutonium, is extracted,

useful, a waste product, further transmuted, atomic bomb.

Exercise 2. Ask questions to the given answers:

1) Question: _________________________________________

The longer a unit of nuclear fuel remains in a reactor, the more altered nuclei it contains.

2) Question:____________________________________________________

The alloy used in sophisticated nuclear weapons is nearly pure plutonium.

3) Question: ___________________________________________________

A large (100 MW electric) nuclear power plant produces enough plutonium for several dozen bombs a year.

III. Writing exercises:

Exercise 1. Complete the sentences with the suggested words:

amplifying, bombed, producing, extracted, released.

Besides _________ plutonium that can, and sometimes is, ______ to produce nuclear weapons, every nuclear reactor has the feature that if bombed________, its radioactive contents could be ________ into the environment, greatly _______ the destructive effects of a wartime or terrorist attack.

Exercise 2. Compose a story on the following topic (up to 100 words):

“Reactor byproduct”

Lesson 9 the reading module

Read the text: Production of heat and nuclear materials

The transmutation of nonfissionable materials to fissionable materials in nuclear reactors has made possible the large-scale production of atomic energy. The excess nuclear fuel produced can be extracted and used in other reactors or in nuclear weapons. The heat energy released by fission in a reactor heats a liquid or gas coolant that circulates in and out of the reactor core, usually becoming radioactive. Outside the core, the coolant circulates through a heat exchanger where the heat is transferred to another medium. This second medium, nonradioactive since it has not circulated in the reactor core, carries the heat away from the reactor. This heat energy can be dissipated or it can be used to drive conventional heat engines that generate usable power. Submarines and surface ships propelled by nuclear reactors and nuclear-powered electric generating stations are in operation. However, nuclear accidents in 1979 at Three Mile Island and in 1986 at Chernobyl have raised concern over the safety of reactors. Another concern over fission reactors is the storage of hazardous radioactive waste. In the United States, where nuclear fission now is neither politically acceptable nor economically attractive, no new plants have been ordered since 1978, but nuclear fission is used extensively for power generation in France, Japan, and a few other nations.

Fusion Reactors

Fusion reactors are being studied as an alternative to fission reactors. The design of nuclear fusion reactors, which are still in the experimental stage, differs considerably from that of fission reactors. In a fusion reactor, the principal problem is the containment of the plasma fuel, which must be at a temperature of millions of degrees in order to initiate the reaction. Magnetic fields have been used in several ways to hold the plasmas in a “magnetic bottle.” If development should reach a practical stage of application, it is expected that fusion reactors would have many advantages over fission reactors. Fusion reactors, for instance, would produce less hazardous radioactive waste. Because their fuel, deuterium (an isotope of hydrogen readily separated from water), is far less expensive to obtain than enriched uranium, fusion reactors also would be far more economical to operate.

Nuclear Reactors

Nuclear reactors are complex devices in which fissionable elements such as uranium, thorium, or plutonium are made to undergo a sustainable nuclear chain reaction.

This chain reaction releases energy in the form of radiation that (a) sustains the chain reaction; (b) transmutes (i.e., alters the nuclear characteristics of) nearby atoms, including the nuclear fuel itself; and (c) may be harvested as heat. Transmutation in nuclear reactors of the common but weakly fissionable nuclide uranium-238 (²³⁸U) into plutonium-239 (²³⁹Pu) is an important source of explosive material for nuclear weapons, and heat from nuclear reactors is used to generate approximately 16 percent of the world's electricity and to propel submarines, aircraft carriers, and some other military vessels. Nuclear reactors have also been used on satellites and proposed as power sources for locomotives, aircraft, and rockets.

After text activity