Global enhanced oil recovery (EOR) technologies market should reach $40.8 billion by 2023 from $27.9 billion in 2018 at a compound annual growth rate (CAGR) of 7.9% for the period of 2018-2023.
Report Scope:
The scope of this investigation includes all of the major viable EOR technologies that are currently being implemented in the global oil industry. Separate from hydrofracture and tight sands or tight oil extraction are categorized as Improved Oil Recovery (IOR) of which EOR is a subset), EOR was originally developed as a means to extract additional oil from reservoirs after primary and secondary recovery methods ceased to be productive enough to maintain economic field operation. In some cases, the EOR technologies considered in this report may also be applied immediately following initial well drilling. These applications are common for fields where primary and secondary recovery technologies are incapable of producing adequate oil in any phase of an oil field operation.
Installation and operation of EOR technologies can include various products and components such as injection pumps, wellheads, specialized well tubing, chemical feeder systems, air separation units, gas compressors, blowers, steam generators, specialized storage vessels, gas recapture and separation systems, and various other equipment and facilities. Other important products of an EOR technology include oil recovery media such as surfactants, polymers, alkali chemicals, liquid nitrogen and CO2. Although steam and onsite-compressed atmospheric nitrogen are also important oil recovery media, they are not considered EOR technology products within this report as they are supplied at minimal or no direct cost, unlike CO2 or specialized injection chemicals that are supplied to an EOR operation.
The market analysis provided in this report presents region-specific and country-specific market valuation data for each of the EOR technologies considered in this study. These include breakdowns for the following categories:
- Steam Flooding.
- In-Situ Combustion.
- Chemical Flooding.
- Hydrocarbon Gas Flooding.
- Nitrogen Gas Flooding.
- Carbon Dioxide Flooding.
Estimated values in each of these categories are based on manufacturers’ total revenues. Projected and forecasted revenue values are in constant US dollars (2017), unadjusted for inflation.
Emerging EOR technologies that may become commercially viable within the next five years are summarized but are not included in the market assessment of this report. BCC analyzes each major viable EOR technology, determines its current market status, examines its impact on future markets and presents forecasts of growth over the next five years. BCC analyzes the industry on a worldwide basis in terms of its manufacturing and the deployment of its technologies or products. BCC also examines government roles in support of EOR technologies worldwide, including regulatory support, government requirements and promotional incentives for various EOR technologies as relevant and available. BCC provides a review of the most relevant EOR technologies, discusses recent trends in capacity installation and unit sales and provides industry overviews and market assessments for each EOR technology.
Report Includes:
- An overview of the global market for enhanced oil recovery (EOR) technologies that are implemented to recover crude oil from reservoirs after primary and secondary recovery methods have ceased to be productive enough to continue normal field operations economically.
- Analyses of global market trends, with data from 2015 and 2016, and projections of compound annual growth rates (CAGRs) through 2021.
- Identification of the various EOR products and components, such as injection pumps, wellheads, specialized well tubing, chemical feeder systems, air separation units, gas compressors, blowers, steam generators, specialized storage vessels, and various other equipment and facilities; other important products include oil recovery media such as surfactants, polymers, alkali chemicals, liquid nitrogen, and CO2.
- Discussion of the most recent government, industry, and academic data regarding the amount of oil in place that potentially can be extracted via EOR.
- Examination of governments' roles in support of EOR technologies worldwide, including regulatory support, government requirements, and promotional incentives for various EOR technologies as relevant and available.
Report Summary
Enhanced oil recovery (EOR) has been overshadowed by unconventional extraction techniques such as horizontal drilling and hydrofracture, but nonetheless remains a significant toolset in the portfolio of available extraction technologies. These technologies support continued growth in national and regional oil production, even where hydrofracture is not applied, and where aging oil fields grow increasingly depleted.
Global EOR deployment dropped in the wake of low oil prices that ensued in early 2014, resulting in a significant decrease in global oil extraction and production activities. This largely unanticipated jolt meaningfully slowed EOR development in comparison to prior development rates and projections that considered those rates. Nonetheless, EOR technologies in most areas globally continue to grow, and some specific technologies are flourishing. These vary considerably, however, from country to country,
where an EOR technology may be highly viable and developing rapidly in one country or region, but stagnant or even declining in another. Variability is driven by differences in formation characteristics as well as regulatory and economic variability, which have in some places coalesced to support strong markets. In other areas, while actions by the Organization of Petroleum Exporting Countries (OPEC) have helped to stabilize oil prices, lower oil prices still represent critical factors, and can substantially dampen select categories of new EOR deployment.
Market sales and industry growth since 2015 underscore several key features to the world market for EOR technologies. First, EOR is no longer being sustained by persistently high oil prices, meaning that EOR providers must increase their efficiency to stay profitable; this has caused troubled roads for more costly efforts such as steam assisted gravity drainage (SAGD) in their effort to remain viable. Second, while the recent blossoming of unconventional oil production has caused an oil price drop, lower oil prices have in some regions led to the reinstatement of tax exemptions and other incentives, which tend to support EOR development. Third, EOR markets are beginning to gain traction even with major several major oil-producing nations that have historically relied only on primary and secondary extraction. Finally, with respect to concerns over climate change and greenhouse gas emissions, the advancement of carbon dioxide based EOR is linking GHG emissions reduction to oil production, opening the door for increased deployment of EOR in countries with concerns over their GHG emissions.
The tables and figures below provide a summary of the global market for EOR technologies, broken down by region. North America maintains by far the largest regional market for EOR technologies. Led by steam deployments in Canada and CO2-EOR deployments in the U.S., the region’s market struggled under low-cost oil; this primarily causes losses in Canadian oil sands, which influenced markets overall. The North American market will advance from $9.6 billion in 2016 to $13.2 billion in 2021, at a
compound annual growth rate (CAGR) of 6.7%. Asian markets are also large but rely more strongly on chemical flood EOR, rather than CO2, at least for the present and near future. Asia’s markets will increase from $4.6 billion to nearly $6.2 billion, for a CAGR of 5.9%. The region as a whole will increase in value from nearly $22.9 billion to $30.4 billion during 2016 to 2021 at a CAGR of 5.9% during that period.
Table of Contents
Chapter 1 Introduction
Study Goals and Objectives
Reasons for Doing This Study
Intended Audience
Scope of Report
Worldwide Markets
Information Sources
Methodology
Geographic Breakdown
Analyst's Credentials
Related BCC Research Reports
Chapter 2 Summary and Highlights
Chapter 3 Overview
What Is Enhanced Oil Recovery?
History of Enhanced Oil Recovery
Benefits of Enhanced Oil Recovery
Drawbacks of Enhanced Oil Recovery
Enhanced Oil Recovery Technologies and Applications
Chapter 4 Regulatory Framework
North America
Federal
Select State-Level Regulation and Incentives
Canada
Mexico
South America
Brazil
Trinidad and Tobago
Venezuela
Europe
European Union
Norway
United Kingdom
Africa and the Middle East
South Africa
The United Arab Emirates
Asia
Australia
China
Indonesia
Malaysia
Chapter 5 Industry Trends
Industry Participants
Original Equipment Manufacturers/Enhanced oil Recovery Product Suppliers
Secondary Component Manufacturers and Fabricators
Rental Enhanced Oil Recovery Equipment Providers
Construction Contractors
Enhanced Oil Recovery Consultants
Oil Exploration and Production Companies
Common Factors Influencing Global Demand
Declining Primary and Secondary Oil Production
Domestic Energy Security
Regulation
Carbon Capture and Sequestration/Storage
Oil Prices
Unconventional Oil Extraction and the Future of EOR
Notes on EOR Cost
Chapter 6 Global Market for Enhanced Oil Recovery
Overview of the Global Enhanced Oil Recovery Technology Market
North America
EOR Suitability and Deployment
Market Values and Projections
Carbon Dioxide Flooding
Nitrogen Flooding
Hydrocarbon Gas Flooding
Chemical Flooding
In situ Combustion
Steam Flooding
South America
Market Values and Projections
Carbon Dioxide Flooding
Nitrogen Flooding
Hydrocarbon Gas Flooding
Chemical Flooding
In situ Combustion
Steam Flooding
Europe
Market Values and Projections
Carbon Dioxide Flooding
Nitrogen Flooding
Hydrocarbon Gas Flooding
Chemical Flooding
In situ Combustion
Steam Flooding
Middle East and Africa
Market Values and Projections
Carbon Dioxide Flooding
Nitrogen Flooding
Hydrocarbon Gas Flooding
Chemical Flooding
In situ Combustion
Steam Flooding
Asia
Market Values and Projections
Carbon Dioxide Flooding
Nitrogen Flooding
Hydrocarbon Gas Flooding
Chemical Flooding
In situ Combustion
Steam Flooding
Chapter 7 Company Profiles
Chapter 8 Appendix A: Acronyms and Abbreviations of Measurements
Chapter 9 Appendix B: References
Gas Flooding
Thermal Processes
Chemical Flooding
EOR Products and Equipment
EOR Services and Consultations
Emerging Technologies
AKZONOBEL
AkzoNobel Chemicals Inc.
BASF
BASF Construction Polymers GmbH
BASF Corp. (North American contact for EOR chemicals)
CHAMPION TECHNOLOGIES
CHEVRON PHILLIPS CHEMICAL
Chevron Phillips Drilling Specialties Co.
Marc Matthiesen, General Manager
DOW CHEMICAL CO.
DUPONT
KEMIRA
OIL CHEM TECHNOLOGIES
PQ CORPORATION
PQ Corp.
SOLVAY RHODIA
Rhodia SA
Rhodia Novecare
Solvay Chemicals US
SHELL CHEMICALS
Shell Chemical LP
SNF GROUP
STEPAN COMPANY
TIORCO (NALCO)
Ecolab USA
UNITECH ASIA-PACIFIC LTD.
Unitech Chemicals Zibo Inc.
WEATHERFORD INTERNATIONAL
BAKER HUGHES
Gas Flooding Technology Manufacturers
Chemical Flooding Technology Manufacturers
CAT PUMPS
Thermal Flooding Technology Manufacturers
FMC TECHNOLOGIES
GENERAL ELECTRIC
HAMMELMANN GMBH
HAYWARD GORDON
Market Potential and Trends
NATIONAL OILWELL VARCO
Market Potential and Trends
NETZSCH
Market Potential and Trends
SNF GROUP
Market Potential and Trends
SULZER
WEATHERFORD INTERNATIONAL.
Market Potential and Trends
AIR LIQUIDE
AIR PRODUCTS AND CHEMICALS, INC.
CRYOGENIC INDUSTRIES
GENERON INNOVATIVE GAS SYSTEMS
LINDE
NATIONAL OILWELL VARCO
PRAXAIR
Engineered Chemistry Office
Engineered Chemistry Office
US Land
GE Energy
GE Oil & Gas
Hammelmann Corporation
Interpump Group
NETZSCH Pumps
NETZSCH Pumps North America
Sulzer Pumps
Engineered Chemistry Office
Engineered Chemistry Office
Membrane Systems DuPont Air Liquide (MEDAL)
ACD Headquarters
NOV Hydra Rig
Market Potential and Trends
Carbon Dioxide Supply
Market Potential and Trends
DENBURY RESOURCES
Market Potential and Trends
EXXONMOBIL
Market Potential and Trends
ExxonMobil Gas & Power Marketing
KINDER MORGAN
OCCIDENTAL
Market Potential and Trends
ARIEL
Market Potential and Trends
CAMERON
Market Potential and Trends
CAT PUMPS
CATERPILLAR
Market Potential and Trends
Market Potential and Trends
CRYOGENIC INDUSTRIES
Market Potential and Trends
DRESSER-RAND
ELLIOTT
Market Potential and Trends
FLOWSERVE
FMC TECHNOLOGIES
Market Potential and Trends
GARDNER DENVER
GENERAL ELECTRIC
Market Potential and Trends
MAN
Market Potential and Trends
MITSUBISHI HEAVY INDUSTRIES
Market Potential and Trends
ROLLS-ROYCE
SIEMENS
Market Potential and Trends
WOOD GROUP
Market Potential and Trends
AIR LIQUIDE
AIR PRODUCTS AND CHEMICALS, INC.
CAMERON
GUILD ASSOCIATES
MEMBRANE TECHNOLOGY RESEARCH
UBE
CAMERON
FMC TECHNOLOGIES
GENERAL ELECTRIC
NATIONAL OILWELL VARCO
WEIR SPM
WEATHERFORD INTL.
Market Potential and Trends
WOOD GROUP
Market Potential and Trends
DRESSER-RAND
Market Potential and Trends
GENERAL ELECTRIC
MAN
ROLLS-ROYCE (SIEMENS)
SIEMENS
BABCOCK & WILCOX
CHINA NATIONAL PETROLEUM CORP.
CLAYTON INDUSTRIES
HAMON DELTAK
INDUSTRIAL TECHNOLOGY MANAGEMENT
INNOVATIVE STEAM TECHNOLOGIES
NOOTER/ERIKSEN
PREMIER ENERGY
TEI-STRUTHERS WELLS
VOGT POWER INTERNATIONAL INC.
CAMERON
CHINA NATIONAL PETROLEUM CORP.
FMC TECHNOLOGIES
GENERAL ELECTRIC
HALLIBURTON
INDUSTRIAL TECHNOLOGY MANAGEMENT
STREAM-FLO
TAM INTERNATIONAL
TEXAS IRON WORKS CORPORATION
WEATHERFORD INTL.
ARIEL
BAUER
DRESSER-RAND (SIEMENS)
Major Forms of Gas Flooding
MAN
Nitrogen
Carbon Dioxide
BORNEMANN
Hydrocarbons and Solvents
Gas Flooding Operational Methods
Standard Gas Flooding
FLOWSERVE
Combined Injection
Cyclic Gas Stimulation
GENERAL ELECTRIC
Major Thermal Processes
Steam Injection
Solar Steam Injection
Steam Assisted Gravity Drainage
In Situ Combustion
Toe-to-Heel Air Injection
Thermal Operational Methods
Standard Thermal Flood
Cyclic Steam Stimulation
Major Chemical Flooding Processes
LEISTRITZ
SEEPEX
SULZER
WEATHERFORD INTL.
CAMERON
CYCLOTECH (SUBSIDIARY OF M-I SWACO)
EATON
ECO-TEC
FMC TECHNOLOGIES
GENERAL ELECTRIC
SIEMENS
SULZER
VEOLIA
Sulzer Chemtech Ltd.
Siemens Energy Oil & Gas Division
Surfactants
GE Oil & Gas
Polymers
Alkalis
Chemical Flooding Operational Methods
GE Water & Process Technologies
FMC Technologies Separation Systems
Alkaline-Surfactant-Polymer
Air Separation Unit
Gases and Chemicals for Injection
FMC Technologies Inc. Separation Systems
Gas Compressors
Injection Pumps
Specialized Wellheads
Injection Well Casing, Tubing and Production Packer
Production Treatment and Filtration Equipment
M-I SWACO
Gas Recapture and Separation Equipment
Measuring and Monitoring
Holding and Maturing Tanks
Mixing Equipment
Manifolds and Injection Lines
Drilling & Production Systems—Petreco Process Systems
Control Room or Control Facilities
Power Production Facilities
Steam Generators and Boilers
Fluid Storage Facilities
Water Filtration and Treatment Equipment
Sulzer Pumps
Microbial Flooding
Leistritz Corp.
GE Oil & Gas
GE Water & Process Technologies
Houston, TX Regional Headquarters
Enzyme EOR
Water Flood Enhancement
Flue Gas Flooding
U.S. Internal Revenue Service
Federal Enhanced Oil Recovery Tax Credit
Advanced Energy Investment Tax Credit
CO2-Capture Tax Credit (Section 45Q)
Deduction for Qualified Tertiary Injectant Expenses
U.S. Department of Energy
Underground Injection Control Program
Energy Policy Act of 2005 Carbon-Capture and Sequestration Incentives
Alabama
Severance Tax Incentive
Arkansas
Enhanced Oil Recovery Severance Tax Incentives
Colorado
Kansas
Louisiana
Mississippi
Montana
New Mexico
North Dakota
Oklahoma
Texas
Utah
Wyoming
Federal Carbon Capture and Storage Technology and Project Funding
Federal Capital Cost Allowance for Carbon Capture and Storage
Province of Alberta - Enhanced Hydrocarbon Recovery Program
Province of Alberta – Emerging Resources Program
Province of Alberta - Enhanced Oil Recovery Royalty Relief
Province of Alberta-CO2 Projects Royalty Credit
Province of Alberta-Innovative Energy Technologies Incentive
Province of British Columbia-Heavy Oil Royalty
Province of British Columbia-Incremental Oil Incentive
Province of Saskatchewan-Saskatchewan Petroleum Research Incentive Program
Province of Saskatchewan-Enhanced Oil Recovery Fuel Tax and Provincial Sales Tax Exemptions
Province of Saskatchewan - Enhanced Oil Recovery Royalty Regime
Province of Manitoba-Enhanced Oil Recovery Royalty Relief
National CCUS Strategy and Regulatory Framework
CCS Project Developments
Enhanced Oil Recovery Tax Credits
Oil Contractor's Law
Bauer Compressors Inc.
European Union Climate and Energy Package — Framework for Carbon Capture and Storage
Engineered Chemistry Office
NER300
Engineered Chemistry Office
Emissions Trading Scheme
U.S. Headquarters
CLIMIT Program
GE Energy
Energy Act 2010
Masdar Carbon Capture and Sequestration Joint Ventures
VetcoGray Inc.
National Low Emissions Coal Initiative
FMC Kongsberg Subsea AS
Oil Equipment Import Incentives
Petroleum Rules 2013
Petroleum Regulations 2013
China Petroleum Technology & Development Corp.
Petroleum Order 2013
Babcock Power Inc.
Thermal Engineering Intl. (USA) Inc.
Babcock Power Inc.
Secondary and Enhanced Oil Recovery Incentive
U.S. Headquarters
Carbon Dioxide Reduction Act
Severance Tax Incentive
TIW Western Inc.
Tertiary Oil Recovery Program
Liability Assumption for Stored Carbon
Aecon Group Headquarters
Severance Tax Incentive
Tertiary Recovery Severance Tax Suspension
Hamon Corporation
Enhanced Oil Recovery Incentives
Carbon Sequestration Equipment Property Tax Abatement
China Petroleum Technology & Development Corp.
Production Tax Incentive
Incentives for Horizontal Wells
B&W PGG Canada Corp.
State Assumption of Long-Term Liability for Sequestered CO2
Siemens Energy
Advanced Energy Tax Credit
Siemens Energy Oil & Gas Division
Severance Tax Incentive
Coal Plant Carbon Capture Incentive
MAN Diesel North America
Enhanced Oil Recovery Extraction Tax Incentive
GE Energy
Horizontal Well Tax Incentive
Tax Exemption for Sales of Electricity Used in Enhanced Recovery Production
GE Oil & Gas
Enhanced Oil Recovery Deduction
Advanced Clean Energy - EOR Tax Reduction (HB 3732)
U.S. Corporate Office
Crude Oil Production Tax/Enhanced Oil Recovery Projects Regulation
Incentives for Carbon Capture and Sequestration (CCS)
J P Kenny Group
Engineered Chemistry Office
Engineered Chemistry Office
Weir Oil & Gas
Enhanced Oil Recovery Severance Tax Incentive
NOV Anson
Severance Tax Incentive
Severance Tax Incentives
GE Energy
GE Oil & Gas
VetcoGray Inc.
FMC Kongsberg Subsea AS
Drilling & Production Systems
Tokyo Head Office
UBE America Inc.
BASF Catalysts LLC
Drilling & Production Systems
Membrane Systems DuPont Air Liquide (MEDAL)
U.S. Corporate Office
Siemens Energy
Siemens Energy Oil & Gas Division
Mitsubishi Heavy Industries America, Inc.
Houston, TX - Regional Headquarters
GE Energy
GE Oil & Gas
Gardner Denver Nash
FMC Kongsberg Subsea AS
Japan Headquarters
ACD Headquarters
Caterpillar Oil & Gas
Solar Turbines Inc.
Occidental Chemical Corporation
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