Natural flow and tubing string design for a water drive reservoir | Blazingprojects Postgraduate Thesis
Home / Petroleum engineering / Natural flow and tubing string design for a water drive reservoir

Natural flow and tubing string design for a water drive reservoir

 

Table Of Contents


Thesis Abstract

The design of natural flow and artificial lift tubing strings for the whole life of a water drive reservoir was carried out using data based on synthetic reservoir performance based on a material balance. The effects of reservoir properties on the life of the well were also investigated. Constraints such as maximum production, maximum drawdown, limitations on surface facilities capacities, as well as available gas lift were imposed.

The production conditions for natural flow, continuous gas lift, and an ESP for later phases of the reservoir was designed and simulated along time by imposing either a constant flow rate or a constant bottom hole flowing pressure. A forecast of the production of oil and gas as well as the time where tubing strings should be replaced as a function of both the cumulative production and time was presented.

The work was concluded by reservoir pressure was maintained much longer in comparison to other drive mechanism when there is an active water drive preferably edge water drive reservoirs which maintains a steady-flow condition for a long time before water breakthrough into the well.

Finally the following areas were identified for improvement in the development of the work one is that the assumptions in this work is the use of synthetic reservoir performance data based on material balance a possible extension is by incorporating more practical condition by including more wells and the performance with time better analyzed and further oil production economic analysis should be inclusive in the work so that the optimum production pattern of the reservoir could be determined.


Thesis Overview

<p> </p><p><strong>INTRODUCTION</strong></p><p><strong>1.1</strong>&nbsp; &nbsp; &nbsp;<strong>OVERVIEW</strong></p><p>Fluids are stored in the reservoir and must be produced to the surface facilities in order to be measured, treated and finally sold or discarded. The flow of fluids from the reservoir towards the final processing facility is divided into three phases: Recovery, Lift and Gathering.</p><p>Recovery refers to the flow of fluids from the reservoir into the well bore; Lift refers to the flow of fluids from the bottom of the well bore to the surface wellhead and Gathering refers to the flow of fluids from the wellhead through the gathering network towards the production facility.</p><p>Recovery is used in a broader sense a referring to the production including the lift and gathering processes. Lift and gathering process will influence the final recovery of hydrocarbons and must be included in a proper economic analysis.</p><p>The flow rate from a well depend on the energy level of the reservoir and the energy losses of the fluids as they flow from the reservoir towards the surface facilities. In order to increase production flow rates we may use processes or systems to either increase the energy level or to facilitate the flow of hydrocarbons. Those systems or processes may be used in the reservoir or</p><p>in the production tubing or gathering system. The recovery of hydrocarbons may then be classified as: Primary where no process or method is used to increase energy level or facilitate the flow of hydrocarbons inside the reservoir; Secondary and Tertiary where methods are used to increase energy level and or to facilitate the flow of hydrocarbons in the reservoir.</p><p>The lift and gathering may also be classified as: Natural flow – No process or method used to increase energy level or facilitate the flow of hydrocarbons in the production system; Artificial lift– when processes are used to increase the energy level or facilitate the flow of hydrocarbons inside the well bore; Boosting – When processes are used to increase the energy level or facilitate the flow of hydrocarbons downstream of the wellhead.</p><p>The recovery of hydrocarbons is classified in the following categories: Primary Recovery (also called Primary Production); Secondary Recovery (also called Secondary Production); Tertiary Recovery (also called Tertiary Production or Enhanced – EOR or Enhanced Production or Improved – &nbsp; IOR or Improved Production). Those categories are usually associated with a method or recovery (or production) used – Primary recovery uses the pressure and displacement of hydrocarbons without any external process using solely the reservoir drive mechanism, secondary recovery supplements the natural drive effects on pressure maintenance and displacement by</p><p>water injection or water flood and natural gas injection ; and Tertiary recovery supplements the natural drive by modifying the properties of the fluids by chemical floods, miscible displacement and thermal methods.</p><p>Each reservoir is composed of a unique combination of geometric form, geological rock properties, fluid characteristics, and primary drive mechanism. Although no two reservoirs are identical in all aspects, they can be grouped according to the primary recovery mechanism by which they produce. It has been observed that each drive mechanism has certain typical performance characteristics in terms of :Ultimate recovery factor, Pressure decline rate, Gas-oil ratio, Water production. The recovery of oil by any of the natural drive mechanisms is called primary recovery.</p><p>The term refers to the production of hydrocarbons from a reservoir without the use of any process (such as fluid injection) to supplement the natural energy of the reservoir</p><p>For a proper understanding of reservoir behaviour and predicting future performance, it is necessary to have knowledge of the driving mechanisms that control the behaviour of fluids within reservoirs. The overall performance of oil reservoirs is largely determined by the nature of the energy, i.e., driving mechanism, available for moving the oil to the well- bore. There are basically six driving mechanisms that provide the natural energy necessary for oil recovery:</p><p>Rock and liquid expansion drive, Depletion drive, Gas cap drive, Water drive, Gravity drainage drive, Combination drive.</p><p><strong>1.2 METHODOLOGY</strong></p><p>In this work the design of natural flow and artificial lift tubing strings for the whole life of a water drive reservoir will be carried out using data based on synthetic reservoir performance based on a material balance. The effects of reservoir properties on the life of the well will also be investigated.</p><p>Constraints such as maximum production, maximum drawdown, limitations on surface facilities capacities, as well as available gas lift and horsepower will be imposed.</p> <br><p></p>

Blazingprojects Mobile App

📚 Over 50,000 Research Thesis
📱 100% Offline: No internet needed
📝 Over 98 Departments
🔍 Thesis-to-Journal Publication
🎓 Undergraduate/Postgraduate Thesis
📥 Instant Whatsapp/Email Delivery

Blazingprojects App

Related Research

Building. 3 min read

Comparative Analysis of Sustainable Building Practices in Residential versus Commerc...

This research explores the similarities and differences in sustainable building practices used in residential and commercial structures. Sustainable building pr...

BP
Blazingprojects
Read more →
Botany. 4 min read

Comparative Analysis of Drought Tolerance in Native versus Invasive Grass Species...

This research explores how well native and invasive grass species can tolerate drought conditions, which is important because droughts are becoming more frequen...

BP
Blazingprojects
Read more →
Biology education. 3 min read

Comparative Analysis of Inquiry-Based versus Lecture-Based Methods in High School Bi...

This research examines two common teaching methods used in high school biology classes: inquiry-based learning and lecture-based teaching. Inquiry-based learnin...

BP
Blazingprojects
Read more →
Biochemistry. 3 min read

Comparative Analysis of Lipid Profiles in AD Patients and Healthy Controls...

This research focuses on comparing the lipid profiles—measurements of fats and fat-like substances in the blood—of individuals diagnosed with Alzheimer’s ...

BP
Blazingprojects
Read more →
Banking and finance. 3 min read

Comparative Analysis of Digital Banking Adoption in Developed and Emerging Markets...

This research focuses on understanding how digital banking services are adopted differently in developed countries compared to emerging markets. Digital banking...

BP
Blazingprojects
Read more →
Art Education. 3 min read

Comparative Analysis of Digital Art Integration in Secondary School Curricula Across...

This research looks at how digital art is included in secondary school teaching in different countries and compares the approaches used. Digital art—using com...

BP
Blazingprojects
Read more →
Architecture. 2 min read

Comparative Analysis of Biophilic Design Principles in Urban versus Suburban Residen...

This research looks at how designs inspired by nature, known as biophilic design, are applied in houses located in urban and suburban areas. The goal is to unde...

BP
Blazingprojects
Read more →
Archaeology and Tour. 4 min read

Comparative Analysis of Heritage Site Management and Tourist Engagement Strategies...

This research looks at how heritage sites, such as historical landmarks, castles, or ancient towns, are managed and how tourists are engaged with these sites. T...

BP
Blazingprojects
Read more →
Animal science. 3 min read

Comparative Analysis of Feed Efficiency in Indigenous and Commercial Chicken Breeds...

This research aims to compare how efficiently Indigenous and commercial chicken breeds convert feed into body mass, which is known as feed efficiency. Feed effi...

BP
Blazingprojects
Read more →
WhatsApp Click here to chat with us