III. Find in the text and put down key words to speak about a strain gauge.
IV. Find words with similar meanings.
Amount, to stretch, to include, wire, to magnify, to fix, variable, to attach, to connect, to test, quantity, to extend, conductor, to link, to contain, to exaggerate, to prove, changeable.
V. Complete the description of a circuit breaker (Fig. 2) with words from the diagrams. Some words are used more than once: switch
(3 times), moving contact (2 times), fixed contact (2 times). Stationary contact is not used.
Fig. 2
A circuit breaker has a _______ on the outside of the box. You can turn this on or off. When _______ is up (on), electricity flows into the circuit breaker through the bottom _______ . It flows through the _______ . It then flows up to the _______ and across to the _______. Then the electricity flows out of the circuit breaker at the top _______.
If the electrical current jumps to a dangerous level, the electromagnet pulls down a _______ . This pulls the _______ away from the _______ . This breaks the circuit. At the same time, the _______ drops to the “down” position. The electricity is now shut off.
VI. Read the three texts. Match the titles with the texts.
a) Emergency exit b) Home security c) Car security
1. This security system uses a metal ball inside a metal pipe. When the ball remains still, it touches two of the electrical contacts. This completes the electrical circuit. If the ball moves, it breaks the circuit and opens a switch. If somebody makes the car move, the system causes the horn to sound. It makes the car lights go on too. If somebody hits the car a few times, it makes the siren sound.
2. The ExitGuard is mounted over the door handle. It has a battery operated alarm. When somebody breaks open the ExitGuard, this causes the alarm to sound. The ExitGaurd allows shops to secure their emergency exits. This stops people from using the exits to enter the shop. But it lets people leave the shop in an emergency.
3. If keep expensive equipment in your workshop, fit a burglar alarm. When the door and windows of the workshop are shut, the electrical switches are closed. This allows electricity to flow around the electrical circuit. If a burglar forces open a window, this breaks the circuit. This causes the burglar alarm to sound. If your workshop is a long distance away, install the alarm buzzer inside your house. This allows you to hear the alarm when you are inside your house.
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VII. Decide whether the sentences are “true” or “false”. Correct the false parts of the sentences.
1. Two of the systems cause an alarm to sound.
2. The car security system works when somebody moves the car.
3. The ExitGuard works when somebody touches the door.
4. If there is a fire in a store, people can break open the ExitGuard.
5. The burglar alarm works only on the windows.
6. If the electrical circuit is broken, the burglar alarm will sound.
Unit II. Traditional sources of energy
Text 1.
I. Read the text and be ready to do exercises that follow it.
Vocabulary
charcoal ['tʃɑ:kəul] древесный уголь
sawdust ['sɔ:dʌst] опилки
furnace ['fɜ:nɪs] печь
soapstone [səυpstəυn] мыльный камень, стеатит
stove [stəuv] печь
bonfire ['bɔn,fa(ɪ)ə] костер
heatexchanger [hi:t ɪks'tʃeɪndʒə] теплообменник
exhaustion [ɪg'zɔ:stʃən] истощение, вытягивание
draft [dra:ft] чертеж, план
ash [æʃ] зола, пепел
tile [taɪl] черепица, плитка
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refractory [rɪ'fræktərɪ] огнеупорный
Wood Fuel
Wood fuel is wood used as fuel. The burning of wood is currently use of energy derived from a solid fuel biomass. Wood fuel can be used for cooking and heating, and occasionally for fuelling steam engines and steam turbines that generate electricity. Wood fuel may be available as firewood (e.g. logs, blocks) charcoal, chips, sheets, and sawdust. The particular form used depends upon factors such as source, quantity, quality, and application. Wood may be sent into a furnace to be burned, stove, fireplace, or in a campfire, or is used for a bonfire. Wood is the most easily available form of fuel, and it is a renewable source of energy.
The use of wood as a fuel for heating is as old as civilization itself.
Early examples include the use of wood heat in tents. Fires were constructed on the ground, and a smoke hole in the top of the tent allowed the smoke to escape by convection.
In permanent structures and in caves, hearths were constructed – surfaces of stone or another noncombustible material upon which a fire could be built. Smoke escaped through a smoke hole in the roof.
The Greeks, Romans, Celts, Britons, and Gauls all had access to forests suitable for using as fuel.
Total demand for fuel increased considerably with the industrial revolution but most of this increased demand was met by the new fuel source. It was coal, which was more compact and more suited to the larger scale of the new industries.
The development of the chimney and the fireplace allowed for more effective exhaustion of the smoke. Masonry heaters or stoves went a step further by capturing much of the heat of the fire and exhaust in a large thermal mass, becoming much more efficient than a fireplace alone.
The metal stove was a technological development concurrent with the industrial revolution. Stoves were manufactured or constructed pieces of equipment that contained the fire on all sides and provided a means for controlling the draft. Stoves have been made of a variety of materials: cast iron, soapstone, tile, and steel. Metal stoves are often lined with refractory materials such as firebrick, since the hottest part of a woodburning fire will burn away steel over the course of several years’ use.
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The Franklin stove was developed in the United States by Benjamin Franklin. More a manufactured fireplace than a stove, it had an open front and a heat exchanger in the back that was designed to draw air from the cellar and heat it before releasing it out the sides. So-called “Franklin” stoves today are made in a great variety of styles, though none resembles the original design.
The 1800s became the high point of the cast iron stove. Each local foundry would make their own design, and stoves were built for myriads of purposes-parlour stoves, camp stoves, railroad stoves, portable stoves, cooking stoves and so on. Wood or coal could be burnt in the stoves and thus they were popular for over one hundred years. The action of the fire, combined with the causticity of the ash, ensured that the stove would eventually disintegrate or crack over time. Thus a steady supply of stoves was needed. The maintenance of stoves, needing to be blacked , their smokiness, and the need to split wood meant that oil or electric heat found favour.
In the 19th century the airtight stove, originally made of steel, became common. They allowed greater control of combustion, being more tightly fitted than other stoves of the day.
Use of wood heat declined in popularity, with the growing availability of other, less labor-intensive fuels. Wood heat was gradually replaced by coal and later by fuel oil, natural gas and propane heating except in rural areas with available forests.
Today in rural, forested parts of the U.S., freestanding boilers are increasingly common. They are installed outdoors, some distance from the house, and connected to a heat exchanger in the house using underground piping. The mess of wood, bark, smoke, and ashes is kept outside and the risk of fire is reduced. The boilers are large enough to hold a fire all night, and can burn larger pieces of wood, so that less cutting and splitting is required. However, outdoor wood boilers emit more wood smoke and associated pollutants than other wood-burning appliances. This is due to design characteristics such as the water-filled jacket surrounding the firebox, which acts to cool the fire and leads to incomplete combustion. An alternative that is increasing in popularity are wood gasification boilers, which burn wood at very high efficiencies (85-91%) and be placed indoors or in an outbuilding.
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As a sustainable energy source, wood fuel is still used today for cooking in many places, either in a stove or an open fire, in many industrial processes, including smoking meat and making maple syrup, it also remains viable for generating electricity in areas with easy access to forest products and by-products.
II. Match the English and Russian equivalents:
a) flammability 1) домашний очаг
b) boiling point 2) бетонная
c) byproduct 3) сжиженный
d) heart 4) точка кипения
e) rural area 5) побочный
f) conveyer belt 6) воспламеняемость
g) concrete industry 7) сельская местность
h) liquefied natural gas 8) транспортерная лента
i) coal reserves 9) теплотворная способность
j) heating value 10) запасы угля
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