Figure 1: Porosity Figure 2: Permeability

 

In addition to porosity and permeability reservoir rocks must also exist in a very special way. To understand how, it is necessary to cross the time barrier and take an imaginary trip back into the very ancient past.

Imagine standing on the shore of an ancient sea, millions of years ago. A small distance from the shore, perhaps a dinosaur crashes through a jungle of leafy tree ferns, while in the air, flying reptiles dive and soar after giant dragonflies. In contrast to the hustle and bustle on land and in the air, the surface of the sea appears very quiet. Yet, the quiet surface condition is deceptive. A look below the surface reveals that life and death occur constantly in the blue depths of the sea. Countless millions of tiny microscopic organisms eat, are eaten and die. As they die, their small remains fall as a constant rain of organic matter that accumulates in enormous quantities on the sea floor. There, the remains are mixed in with the silt and sand that form the ocean bottom.
As the countless millennia march inexorably by, layer upon layer of sediments build up. Those buried the deepest undergo a transition; they are transformed into rock. Also, another transition occurs: changed by heat, by the tremendous weight and pressure of the overlying sediments, and by forces that even today are not fully understood, the organic material in the rock becomes petroleum. But the story is not over.
For, while petroleum was being formed, cataclysmic events were occurring elsewhere. Great earthquakes opened huge cracks, or faults, in the earth’s crust. Layers of rock were folded upward and downward. Molten rock thrust its way upward, displacing surrounding solid beds into a variety of shapes. Vast blocks of earth were shoved upward, dropped downward or moved laterally. Some formations were exposed to wind and water erosion and then once again buried. Gulfs and inlets were surrounded by land, and the resulting inland seas were left to evaporate in the relentless sun. Earth’s very shape had been changed.
Meanwhile, the newly born hydrocarbons lay cradled in their source rocks. But as the great weight of the overlying rocks and sediments pushed downward, the petroleum was forced out of its birthplace. It began to migrate. Seeping through cracks and fissures, oozing through minute connections between the rock grains, petroleum began a journey upward. Indeed, some of it eventually reached the surface where it collected in large pools of tar, there to lie in wait for unsuspecting beasts to stumble into its sticky trap. However, some petroleum did not reach the surface. Instead, its upward migration was stopped by an impervious or impermeable layer of rock. It lay trapped far beneath the surface. It is this petroleum that today’s oilmen seek.

Although the process is generally the same, various environmental factors lead to the creation of a wide variety of reservoirs. Reservoirs exist anywhere from 1,000 to 30,000 ft below the surface and are a variety of shapes, sizes and ages.

 

Ex.1 Fill in the gaps with the words from the box:

hydrocarbons, oil and gas fields, oil system, source rock, reservoir, porosity, oilmen

 

1. A __________ is a formation that contains hydrocarbons.
2. Accumulations of oil and gas are called ____________ .
3. ___________ are people who work in oil industry.
4. ___________ is a measure of the openings in a rock, in which petroleum can exist.
5. ___________ is organic matter capable of being transformed into oil.
6. Seven fundamental steps of oil genesis are known as ___________.
7. ___________ are molecules composed of carbon and hydrogen.

 

Ex.2 Translate from Russian into English:

1. Нефть и природный газ находят в некоторых пластах породы, находящихся обычно глубоко от поверхности Земли.
2. Хорошая порода-коллектор должна соответствовать некоторым условиям.
3. Первое условие – это пористость породы, которую можно заметить путем микроскопического исследования.
4. Во-вторых, порода-коллектор должна быть проницаема, так чтобы углеводороды могли двигаться от одной поры к другой.
5. Помимо пористости и проницаемости, порода-коллектор должна также существовать особым образом.
6. Фактор времени играет большую роль в процессе образования углеводородов.
7. Породы-коллекторы встречаются повсюду на глубине от 1000 до 30000 футов от поверхности Земли и имеют различные размеры, формы и возраст.

 

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