- •Часть I
- •Contents
- •Introduction
- •Acknowledgements
- •Unit 1 petroleum engineering
- •Terms and Vocabulary
- •1. Read and remember the pronunciation.
- •2. Pay attention to the stress in the following words.
- •3. Read the text, fulfill the exercises Petroleum engineering
- •4. Match the English terms in column “a” with their Russian equivalents in column “b”.
- •10. Give the English equivalents to the Russian words.
- •11. An English-English dictionary helps you to understand different terms. Look up the words in the box. Match the terms with the definitions.
- •12. Classify the responsibilities of a reservoir engineer and a drilling engineer into two groups.
- •13. Complete the sentences, using the information from the text.
- •14. According to the text the operations are performed in the following order. Put the phrases in the logical order.
- •15. State whether the sentences are true or false. If true, add the information on the statement. If false, correct the sentence.
- •17. Answer the following questions.
- •18. Read the extracts from www.Conocophollips.Com. Report back to your group-mates. Answer any possible questions.
- •Wordlist
- •Unit 2 oil companies
- •Terms and Vocabulary
- •1. Read the words, remember the pronunciation.
- •2. Read the following word formations and remember their pronunciation Pay special attention to the stress
- •3. Pay attention to the following abbreviation that can be found in this unit
- •4. Scan the text and fulfill the tasks
- •Оil Industry Sectors
- •The entire oil industry is often divided into three major sectors: upstream, midstream and downstream.
- •Downstream (oil industry)
- •Upstream (oil industry)
- •Midstream (oil industry)
- •5. State whether the sentences are true or false. If true, add the information on the statement. If false, correct the sentence.
- •Pronunciation of the name
- •13. Put the necessary preposition in each of the spaces.
- •14. What do the following abbreviations stand for?
- •15. Read the following statements and decide if they are correct or not. Use (c) for correct sentences and (f) for false ones, give your correct variant.
- •16. 9 Listen to the tape and answer the questions given below.
- •17. Domestic and foreign oil companies. Fill in the chart using information from additional resources: for example, www. Wikipedia.Ed
- •18. 9 A. Listen to the text, remember the key words.
- •19. Study the definitions in Appendix (pg. 83-84 ). Match departments and personnel with their definitions.
- •20. How is an oil company organized?
- •21. Read the text and discuss the after-text questions An Example of a Difference between Russian and Western Operating Company Structure
- •22. Answer the following questions:
- •23. Role play: You are welcoming a visitor to your company.
- •Wordlist
- •Oil formation
- •Terms and Vocabulary
- •Read the words, remember the pronunciation.
- •2. Read the texts, fulfill the exercises. What is Crude Oil?
- •What are Hydrocarbons?
- •Forming Oil
- •Close-up of reservoir rock (oil is in black)
- •3. Read the following word combinations and give the Russian equivalents.
- •4. Find the English equivalents to the following terms and phrases.
- •5. Complete the following sentences
- •Draw a diagram of oil formation. Label it. Describe the process using your diagram.
- •7. Work in pairs.
- •8. Read the following text “How Oil Becomes Oil” and fulfill the exercises
- •How Oil Becomes Oil
- •Give Russian equivalents to the following English ones.
- •10. Give definitions to the following terms.
- •11. State whether the following sentences are true or false.
- •12. Put the facts into the correct order showing how oil becomes oil.
- •13. 9 You will hear a lecture on petroleum. For questions 1-6, choose the best answer a, b, or c.
- •14. Discuss the following questions
- •15. Scan the text given below and describe the main oil properties based on the information you learn. Complete the table.
- •Physical and Chemical Properties of Oil
- •16. Listen to the following lecture “Petroleum element system” (pp).
- •17. Presentation topics
- •Wordlist
- •Unit 4 hse (Health, Safety, Environment)
- •Terms and Vocabulary
- •Read the words, remember the pronunciation.
- •Read the text, fulfill the exercises.
- •Leadership
- •Incident Investigation (Accidents, Incidents, Wokplace Injuries) аnd hse Reporting
- •Personal Protective Equipment
- •Alcohol And Drug Abuse
- •General Requirements to Work Implementation
- •Work at Height
- •Lifting Operations
- •Transportation Safety
- •Contractor Management
- •Emergency Prevention and Response
- •Environment
- •3. Pay attention to the following word-formations.
- •4. Fill in the gaps with the word(s) from the list below. Explanation to these terms are given in the brackets.
- •5. Fill in the correct preposition, then choose two items and compose sentences.
- •6. Match the problems with the ways of their solution.
- •7. Compose collocations from the following words
- •8. Match the items with their function.
- •9. Classify the words into 2 categories. Guess what these categories are. Add some more items to each category.
- •10. 9 Study the definitions given in Appendix (pg. 87-88 ).
- •11. Read the text again and make notes under the following headings, then talk about hse performance.
- •12. Describe what mistakes were made by personnel in the following situations.
- •Well service.
- •Drilling rig.
- •13. A. Read the announcement about Ecological conference. Say what problems will be considered at the conference, who will participate in it, what the schedule of the conference is.
- •Wordlist
- •Appendix unit 2
- •References
- •Геология и нефтегазовое дело
- •Часть I (geology and petroleum engineering) (Part I)
1. Read and remember the pronunciation.
[i:] complete, completion, deplete, depletion, increasingly, recent, scheme, machine, upstream, downstream, continuous
[e] bury, estimate, vendor
[o:] wellbore, forecast, audit, hydraulics, support
[ə:] survey, reserves, concerned, refer, subsurface, curve, thermodynamics
[ju:] consumer, computer, accurate, numerical, value
[ai] provide, supply, decline, design, divide, specify, high, type, optimize, maximize
[aiə] require, acquire, environment, via
[k] mechanics, chemistry, scheme, technique
2. Pay attention to the stress in the following words.
′reservoir |
tech′nique |
proba′bility |
′regulatory |
en′hanced |
survei′llance |
′drastically |
′discipline |
3. Read the text, fulfill the exercises Petroleum engineering
Petroleum engineering is involved in the exploration and production activities of petroleum as an upstream end of the energy sector. Upstream refers to the process of finding and extracting oil, which is usually buried deep beneath the earth's surface, to provide a continuous supply to consumers "downstream". Petroleum engineering covers a wide range of topics, including economics, geology, geochemistry, geomechanics, geophysics, oil drilling, geopolitics, knowledge management, seismology, tectonics, thermodynamics, well logging, well completion, oil and gas production, reservoir development, and pipelines.
Petroleum engineering has become a technical profession that involves extracting oil in increasingly difficult situations as the "low hanging fruit" of the world's oil fields are found and depleted. Improvements in computer modeling, materials and the application of statistics, probability analysis, and new technologies like horizontal drilling and enhanced oil recovery, have drastically improved the toolbox of the petroleum engineer in recent decades.
As mistakes may be measured in millions of dollars, petroleum engineers are held to a high standard. Deepwater operations can be compared to space travel in terms of technical challenges. Arctic conditions and conditions of extreme heat have to be contended with High Temperature and High Pressure (HTHP) environments that have become increasingly commonplace in today's operations require the petroleum engineer to be savvy in topics as wide ranging as thermohydraulics, geomechanics, and intelligent systems.
Petroleum engineers must implement high technology plans with the use of manpower, highly coordinated and often in dangerous conditions. The drilling rig crew and machines they use becomes the remote partner of the petroleum engineer in implementing every drilling program. Petroleum engineers have historically been one of the highest paid engineering disciplines; this is offset by a tendency for mass layoffs when oil prices decline. According to a survey published in Dec 2006 the average income was $116,834.Petroleum engineers divide themselves into several types:
Reservoir engineers work to optimize production of oil and gas via proper well placement, production levels, and enhanced oil recovery techniques.
Drilling engineers manage the technical aspects of drilling both production and injection wells.
Production engineers (also known as completion or subsurface engineers) manage the interface between the reservoir and the well, including perforations, sand control, artificial lift, downhole flow control, and downhole monitoring equipment.
Reservoir engineering is a branch of petroleum engineering, typically concerned with maximizing the economic recovery of hydrocarbons from the subsurface.
Of particular interest to reservoir engineers is generating accurate reserves estimates for use in financial reporting to the SEC and other regulatory bodies. Other job responsibilities include numerical reservoir modeling, production forecasting, well testing, well drilling and workover planning, economic modeling, and PVT analysis of reservoir fluids.
Reservoir engineers also play a central role in field development planning, recommending appropriate and cost effective reservoir depletion schemes such as waterflooding or gas injection to maximize hydrocarbon recovery.
Reservoir engineers often specialize in two areas:
Surveillance (or production) engineering, i.e. monitoring of existing fields and optimization of production and injection rates. Surveillance engineers typically use analytical and empirical techniques to perform their work, including decline curve analysis, material balance modeling, and inflow/outflow analysis.
Simulation modeling, i.e. the conduct of reservoir simulation studies to determine optimal development plans for oil and gas reservoirs.
Drilling engineering is a subset of petroleum engineering, involved in the design and drilling of production and injection wells. The planning phases of drilling an oil well typically involve estimating the value of sought reserves, estimating the costs to access reserves, acquiring property by a mineral lease, a geologic survey, a wellbore plan, and a layout of the type of equipment depth of the well.
Drilling engineers are engineers in charge of the process of planning and drilling oil wells. Their responsibilities include:
Designing casing strings in conjunction with drilling fluid plans to prevent blowouts (uncontrolled hydrocarbon release) and formation breakdown.
Designing or contributing to the design of drill strings, cement plans, directional plans, and bit programs.
Specifying equipment, material and ratings and grades to be used in the drilling process.
Providing technical support and audit during the drilling process.
Performing cost estimates and analysis
Developing contracts with vendors
It is their responsibility to ensure that the well is drilled in a safe, cost-effective, and effective manner.
(www. Wikipedia.ed)