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Geological features

Oil basins

Suitable conditions for the formation and accumulation of oil exist in the down warped segments of the earth’s crust where layers of sediment have accumulated to great thick­ness, thickest in the middle and thinner towards the edges. Such areas are called ‘sedimentary basins’ and are con­sidered as potential ‘oil basins’ worth investigating for the presence of oil until its absence is definitely proved. Topo­graphically they are generally low and many occur along the continental margins and in the foothills and lowlands bordering mountain chains.

Oil occurs in various formations, although all the oil probably originated from only one formation, the Mesozoic, which covers the floor of the basin.

Several oil basins extend seaward as part of the contin­ental shelf bordering the continents, the limit of which is roughly defined by the 200 metre water depth contour. Exploration of continental shelves has progressed considerably. For example, in the Gulf of Mexico oil has been found 60 miles off the US coast and the search now extends to about 100 miles. Boundaries between states whose coasts are either adjacent or opposite to each other are generally agreed on to be the median line, i.e. a line formed by points equidistant from the nearest points of the coast line of either state.

Rock types

Rocks are divided into three main groups: igneous rocks, which include granite and volcanic rocks, consolidated from hot liquid material; sedimentary rocks, either fragments of other rocks deposited on land or under the sea by wind and water, or chemically deposited, for instance as evaporation products, or of organic origin; metamorphic rocks, which occur when igneous and sedimentary rocks are exposed to great heat and pressure thus melting and becoming magma.

Igneous and metamorphic rocks cover immense areas of the earth’s crust, forming the central nuclei of the continents, called shields, or they occur as smaller masses (massifs) located all over the world. Their nature normally prevents their bearing oil but if fractured they can act as reservoirs for oil that has migra­ted from overlying sedimentary rocks.

The oil geologist is mainly concerned with the sedimen­tary deposits filling all the world’s potential oil basins, which comprise about a tenth of the land area of the earth.

Sedimentation

The products of denudation or erosion of the higher parts of the earth’s surface are carried away by water, ice and wind in the form of pebbles, sand, silt, mud, etc., and are deposited as sediment in the valleys and plains and in the surrounding seas where they may attain thicknesses of many thousands of feet. Though slow, the action of running water and the like has brought about immense changes during the many millions of years of geological time. The eroded material is washed away by streams and rivers which carry it eventually into the sea where it may be distributed over enormous areas by ocean currents.

Under arid climatic conditions salt and anhydrite de­posits called evaporites may form by evaporation of sea water, for instance in lagoons. Shallow seas of warm clear water favour the growth of corals and algae which are im­portant contributors to the formation of carbonate rocks such as limestone and dolomite. Where vegetable matter accumulates, peat, lignite, and eventually coal beds may form.

The beds of sedimentary rocks deposited in this way are seldom uniform in thickness, composition or texture. The variations may be small or large depending on many factors

Geological age and oil occurrence

By the study of fossils, both large and microscopic, the geologist is able to assign relative ages to sediments and so to determine the succession of beds one above the other. The absolute age of the rocks can be determined from a study of radioactive minerals.

6.3. Answer the questions on the text:

1. Where do suitable conditions for the formation and accumulation of oil exist? 2. How are such areas called? 3. What are the main groups of rocks? 4. What do igneous rocks include? 5. How are sedimentary rocks formed? 6. When do metamorphic rocks occur? 7. What do igneous and metamorphic rocks form? 8. What deposits is the oil geologist mainly concerned with? 9. What deposits may form by evaporation of sea water under arid climatic conditions? 10. What favours the growth of corals and algae? 11. How can the geologist assign relative ages to sediments?

    1. Give the English equivalents to the following word combinations from the text:

подходящие условия; стоящий того, чтобы исследовать; горные цепи, дно бассейна, простираться к морю, подвергаться действию тепла и давления, занимать огромные территории, быть заинтересованным в основном осадочными горными породами, вносить важный вклад, в зависимости от многих факторов.

6.5. Match the words in the left column (A) with their equivalents on the right (B):

A B

1. presence 2. expose 3. assign 1. develop 2. substance 3. stretch

4. immense 5. occur 6. progress 4. name 5. separate 6. behave

7. locate 8. comprise 9. call 7. border 8. be found 9. determine

10. matter 11. extend 12. divide 10. subject to 11. availability 12. huge

13. boundary 14. act 13. situate 14. consist of

6.6. Match each word on the left (A) with a word on the right (B) to make a word combination. Put them down and translate into Russian.

A B

1. mountain 2. continental 3. water 1. rocks 2. currents 3. minerals

4. igneous 5. organic 6. central 4. surface 5. time 6. ages

7. earth’s 8. ocean 9. geological 7. shelves 8. chains

9. contour

10. relative 11. radioactive 12. potential 10. origin 11. basins 12. nuclei

6.7. Match the words in the left column (A) with their opposites on the right (B):

A B

1.thick 2. presence 3. normally 1. above 2. opposite 3. cold

4. towards 5. adjacent 6. small 4. indefinite 5. exact 6. enormous

7. warm 8. include 9. under 7. backwards 8. exclude 9. thin

10. definite 11. rough 10. seldom 11. absence

6.8. Translate the following sentences into Russian in writing:

1. The nature of igneous and metamorphic rocks covering immense areas of earth’s crust normally prevents their bearing oil but if fractured they can act as reservoirs for oil that has migrated from overlying sedimentary rocks.

2. Oil may be generated in sedimentary rocks of almost any age, but the older rocks will naturally have lost more of their oil than have the younger ones through seepages, cracks, erosion or heat from igneous or volcanic rocks.

6.9. Choose the only correct variant to fill in the gaps:

  1. Topographically oil basins are normally …….and may occur along continental margins.

a) high b) low c) small d) enormous

2. Exploration of ……… has progressed considerably.

a) depth contours b) groups c) continental shelves d) boundaries

3. Sedimentary rocks are exposed to …….

a) volcanic rocks b) hot liquid materials c) evaporation products

d) heat and pressure

4. If fractured igneous rocks act as ……… for oil.

a) median line b) reservoirs c) shields d) areas

5. Evaporites may form by ……… of sea water.

a) accumulation b) denudation c) evaporation d) erosion

6. Shallow seas …… … the growth of corals and algae.

a) favour b) decrease c) slow down d) cover

7. The geologist is able to assign relative ages to ………

a) composition b) texture c) sediments d) currents

6.10. Summarize the contents of the text in a few sentences.

UNIT 7 OIL TRAPS

    1. Remember the meaning of the following words:

density - плотность

survey – изыскания, исследования

bear witness - свидетельствовать

offshore areas – прибрежные районы

assume - предполагать

displace – вытеснять

interrupt - прерывать

folding - складчатость

faulting - образование сбросов

fault trap – ловушка, обусловленная наличием сбросов

salt dome – соляной купол

ductile crustal deformation – упругая деформация земной коры

flank - склон

closure – замкнутая структура

underlay – залегать ниже

brittle crustal deformation – хрупкая деформация земной коры

updip – вверх по восстанию пласта

intrusion - внедрение

deep-seated – глубоко залегающий

punch - пробивать

truncate - усекать

plug - пробка

remnant - остаток

lateral – боковой, поперечный

laterally – горизонтально, вбок

lenticular sand – линзовидный песок

fissure - трещина

cavern – пещера, каверна

unconformity – несогласное напластовывание

tilt – наклон

exploration drilling - разведочное бурение

development well - эксплуатационная скважина

7.2. Read and translate the text using a dictionary:

Oil traps

Hydrocarbons are of lower density than formation water. Thus, if no mechanism is in place to stop their upward migration they will eventually seep to the surface. On seabed surveys in some offshore areas we can detect craters which also bear witness to the escape of oil and gas to the surface. It is assumed that throughout the geologic past vast quantities of hydrocarbons have been lost in this manner from sedimentary basins.

The direction of movement of oil from the place it was formed to where it accumulates because its further movement is blocked by a trap, is thought to be upward. Oil or gas (or both) rises as it displaces the sea water which originally filled the pore spaces of the sedimentary rock. Its progress is interrupted when it reaches a barrier of impervious rock that traps or seals the reservoir.

Oil traps are of many kinds divided broadly into 'structural' and 'stratigraphic' traps.

Structural traps

Structural traps result from some local deformation such as folding, faulting or both, of the reservoir rock and a cap rock. Typical examples are anticlinal and fault traps and traps connected with salt domes.

In an anticlinal trap which is the result of ductile crustal deformations a reservoir sand and a reservoir limestone are capped by impervious beds which also cover the flanks of both reservoirs, providing closure and preventing the horizontal escape of oil and gas The upper part of each reservoir contains gas underlain by oil-saturated rock; the pore space of the lower part is filled with salt water.

A fault trap which is the result of brittle crustal deformations provides closure for the sand reservoir by bringing an impervious layer alongside it on the updip side but not for the limestone reservoir m which oil and gas could not accumulate be­cause they would escape updip through the sand.

Traps are sometimes formed by the local intrusion of deep-seated rocks into overlying sediment. Rock salt is a frequent intruder forming ’salt domes’ – cylindrical, steeply conical or mushroom-shaped masses of rock salt, formed when salt was forced to flow plastically under very high pressure, punching its way up from deep-seated beds through the overlying layers. Porous formations, if present, have been truncated and effectively sealed by the salt plug. Oil may accumulate against the plug or above it in reservoir formations that have been folded by the rising plug, or in the porous remnant of older strata pushed up on top of the salt.

Stratigraphic traps

Sedimentary layers may change laterally in lithologic com­position or may die out and reappear elsewhere as a different type of rock. Such changes often cause a lateral decrease in porosity and permeability, and the more porous section of the layer may form a ‘stratigraphic’ trap. Oil accumulations also occur in traps formed by lenticular sand masses completely enclosed in tight sediments.

Limestone in itself is often impervious but may contain fissures and caverns that can form stratigraphic traps. The remains of an ancient coral reef buried by impervious sedi­ments can also form a stratigraphic trap.

A different kind of a stratigraphic trap may be formed by un­conformities when a succession of layers, including a potential oil reservoir, have been uplifted, tilted, cut by erosion, and finally overlaid by impervious sediments that act as cap rock

Oil accumulations may result not only from any one of the above-mentioned types of trap, but from a combination of two or more types. Some traps are not easy to recognize and it is not surprising, therefore, that even the most mod­ern geophysical methods may fail to give an indication of their presence, in which case only exploration drilling can provide sufficient information, at a cost considerably high than that of other exploration methods.

Even after the initial discovery of an exploitable oil accumulation, geological conditions may be so complicated that it may take years to drill many development wells before the detailed pattern of oil occurrence in the area is fully understood.

7.3. Answer the questions on the text:

1. When is movement of oil interrupted? 2. What do structural traps result from? 3. What are typical examples of structural traps? 4. How are traps formed sometimes? 5. What can form stratigraphic traps? 6. What may oil accumulation result from? 7. Why do modern geophysical methods fail to give an indication of traps presence? 8. How can sufficient information be provided?

7.4. Give English equivalents to the following word combinations from the text:

таким образом, в конце концов, огромное количество, возникать в результате, заставлять насильно, исчезать и появляться вновь, заглубляться под действием, вышеупомянутые типы, предоставить достаточно информации, разрабатываемая залежь нефти.

7.5. Match the words in column A with their equivalents in column B:

A B

1. thus 2. quantity 3. lose 1. beside 2. bed 3. in this manner

4. broadly 5. remnant 6. form 4. famous 5. enough 6. waste

7. finally 8. recognize 9. sufficient 7. widely 8. supply 9. remainder

10. provide 11. connect 12. layer 10. put together 11. amount

13. alongside 14. well-known 12. identify 13 eventually 14. join

7.6. Choose the only correct variant to fill in the gaps:

  1. Structural traps result from some ………

a) combination b) deformation c) accumulation d) sedimentation

2. A reservoir sand and a reservoir limestone are capped by …

a) permeable layers b) overlying sediment c) impervious beds d) pores

3. A fault trap provides …. for the sand reservoir.

a) closure b) salt dome c) sediment d) salt

4. Rock salt is a frequent …. forming salt domes.

a) strata b) intruder c) mass d) kind

5. Such changes often cause a lateral ….. in porosity and permeability.

a) increase b) failure c) cavern d) decrease

6. Limestone is often …. but may contain fissures and caverns.

a) permeable b) cut c) impervious d) buried

7. Some traps are not easy to ……..

a) change b) bury c) form d) recognize

7.7. State whether the sentences are true (T) or false (F):

1. Hydrocarbons are of much higher density than formation water.

2. The progress of oil and gas is interrupted when they reach a barrier of

impervious rock.

3. Anticlinal and fault traps are connected with associated water.

4. Rock salt seldom intrudes in formation of salt domes.

5. A stratigraphic trap can be formed by the remains of an ancient coral reef.

6. Oil accumulations may result only from one type of traps.

7.8. Retell the text using the following word combinations as a plan:

The direction of movement, to block by a trap, to be upward, impervious rock, types of traps, to result from, oil accumulations, a combination of, to fail to give, exploration drilling development wells.

UNIT 8 WHAT IS NATURAL GAS?

8.1. Remember the meaning of the following words and word combinations:

combustible – горючий

fossil fuels – ископаемые виды топлива

to emit = to give off - выделять, испускать

harmful byproducts - вредные побочные продукты

primarily – в основном, главным образом

chart - таблица

composition - состав

carbon dioxide - углекислый газ

hydrogen sulfide - сероводород

trace - след

to deliver - доставлять

commonly – обычно

associated with - (зд.) сопровождающие, попутные

to remove - удалять

reservoir - коллектор

deposit - месторождение

to search for - искать

once - как только

to refine - очищать

impurities - примеси

compound - соединение

to exist - существовать

to measure - измерять

in a number of different ways – по-разному, различными способами

volume - объем

cubic feet - кубические футы

British thermal unit (Btu) - британская тепловая единица

pound - фунт (0,453 кг)

gas utility - газовая коммунальная служба

billing - выписка счета

8.2. Before reading the text check the pronunciation of the following words:

Carbon, hydrogen, hydrocarbons, sulfur, oxygen , nitrogen, carbon dioxide,

hydrogen sulfide, methane, ethane, propane, butane, argon, neon, helium, xenon

8.3. Read and translate the text using a dictionary.

What is Natural Gas?

Natural gas, in itself, might be considered a very uninteresting gas - it is colorless, shapeless, and odorless in its pure form. Quite uninteresting - except that natural gas is combustible, and when burned it gives off a great deal of energy. Unlike other fossil fuels, however, natural gas is clean burning and emits lower levels of potentially harmful byproducts into the air. We require energy constantly, to heat our homes, cook our food, and generate our electricity. It is this need for energy that has elevated natural gas to such a level of importance in our society, and in our lives.

Natural gas is a combustible mixture of hydrocarbon gases. While natural gas is formed primarily of methane, it can also include ethane, propane, butane and pentane. The composition of natural gas can vary widely, but below is a chart outlining the typical makeup of natural gas before it is refined.

Typical composition of natural gas

Methane (CH4) - 70-90%

Ethane (C2H6) - 0-20%

Propane (C3H8) - 0 - 5%

Butane (C4H10) - 0 - 5%

Carbon dioxide (CO2) - 0 - 8%

Oxygen (O2) - 0-0.2%

Nitrogen (N2) - 0 - 5%

Hydrogen sulfide (H2S) - 0 - 5%

Rare gases Ar, He, Ne, Xe trace

In its purest form, such as the natural gas that is delivered to your home, it is almost pure methane. Methane is a molecule made up of one carbon atom and four hydrogen atoms, and is referred to as CH4.

Ethane, propane, and the other hydrocarbons commonly associated with natural gas have slightly different chemical formulas, which can be seen here.

Natural gas is considered ‘dry’ when it is almost pure methane, having had most of the other commonly associated hydrocarbons removed. When other hydrocarbons are present, the natural gas is 'wet'.

Natural gas has many uses, residentially, commercially, and industrially. Found in reservoirs underneath the earth, natural gas is commonly associated with oil deposits. Production companies search for evidence of these reservoirs by using sophisticated technology that helps to find the location of the natural gas, and drill wells in the earth where it is likely to be found. Once brought from underground, the natural gas is refined to remove impurities like water, other gases, sand, and other compounds. Some hydrocarbons are removed and sold separately, including propane and butane. Other impurities are also removed, like hydrogen sulfide (the refining of which can produce sulfur, which is then also sold separately). After refining, the clean natural gas is transmitted through a network of pipelines, thousands of miles of which exist in the United States alone. From these pipelines, natural gas is delivered to its point of use.

Natural gas can he measured in a number of different ways. As a gas, it can be measured by the volume it takes up at normal temperatures and pressures, commonly expressed in cubic feet. Production and distribution companies commonly measure natural gas in thousands of cubic feet (Mcf), millions of cubic feet (MMcf), or trillions of cubic feet (Tcf). While measuring by volume is useful, natural gas can also be measured as a source of energy. Like other forms of energy, natural gas is commonly measured and expressed in British thermal units (Btu). One Btu is the amount of natural gas that will produce enough energy to heat one pound of water by one degree at normal pressure. To give an idea, one cubic foot of natural gas contains about 1,027 Btus. When natural gas is delivered to a residence, it is measured by the gas utility in 'therms' for billing purposes. A therm is equivalent to 100,000 Btu's, or just over 97 cubic feet, of natural gas.

    1. . Answer the questions on the text:

1) In what way is natural gas an uninteresting gas? 2) How does natural gas differ from other fossil fuels? 3) Where do we use it? 4) What is natural gas? 5) What is the composition of the typical natural gas? 6) What is the difference between the ‘dry’ and ‘wet’ natural gas? 7) Why is natural gas refined? 8) What happens to natural gas after refining? 9) What happens to impurities like propane, butane and sulfur? 10) How do production and distribution companies measure the volume of natural gas? 11) How is natural gas measured as a source of energy? 12) What is one Btu? 13) How does the gas utility measure natural gas?

8.5. Give English equivalents to the following word-combinations from the text:

бесцветный, бесформенный и без запаха; в чистом виде, обычный

состав (2), редкие газы, называться, считаться ‘сухим’, почти чистый метан,

признаки (наличия) коллектора, сложная технология, удалять примеси, отдельно, после очистки, перекачивать по сети трубопроводов, доставлять до места использования; компании, занимающиеся добычей и распределением , источник энергии, нагреть один фунт воды на один градус

8.6. Match the words in list A with their equivalents in list B and translate them:

List A

1) combustible 2) to give off 3) makeup 4) commonly 5) to transmit

6) a great deal of 7) to elevate 8) to search for 9) to refine 10) odorless

List B

a) usually b) much/many c) to remove impurities d) inflammable e) to raise

f) without smell g) to emit h) to move i) composition j) to look for

8.7. Choose the only correct variant to fill in the gaps:

  1. Natural gas is ………………….. in its pure form.

a) not combustible b) separate c) without odor d) useless

2) The main component of natural gas is ……………. .

a) propane b) methane c) butane d) ethane

3) Methane is a molecule made up of ……. carbon atom and ……. hydrogen

atoms.

a) one , six b) two , six c) four, ten d) one, four

4) When natural gas consists of almost pure methane it is called …………… .

a) ‘wet’ b) ‘clean’ c) ‘dirty’ d) ‘dry’

5) Natural gas is produced from …………… under the earth.

a) reservoirs b) impurities c) refineries d) pipelines

6) Water, other gases, sand and other compounds that are removed from natural

gas are called …………. .

a) reservoirs b) impurities c) mixtures d) fluids

7) The measurement of natural gas by the volume is expressed in …………… .

a) liters b) thermal units c) cubic feet d) tons

8) The measurement of natural gas as a form of energy is expressed in ……….. .

a) British thermal units b) tons c) cubic feet d) liters

8.8. Give the summary of the text about natural gas using the following word

combinations:

in its pure form, combustible mixture of hydrocarbon gases, typical composition, ‘wet’, ‘dry’, many uses, to remove impurities, to transmit through pipelines, to measure by the volume, in cubic feet, be measured as a source of energy, British thermal units, one Btu

UNIT 9 THE FORMATION OF NATURAL GAS