Market Prospects for DTS, DAS & DTSS for Well & Reservoir Monitoring, Security & Seismic

Report Details

Distributed fibre optic sensing (DFOS) represents an opportunity for the oil and gas industry to manage and optimise its resources more effectively going forward. Visiongain has forecast that expenditure on DFOS by the oil and gas industry worldwide will be $341.2m in 2014. The rise of expensive multi- lateral hydraulic fracturing, an ever- greater focus on improving oil recovery (IOR) and the continued strength of capital expenditure on thermal enhanced oil recovery techniques (EOR) provide the main markets for uptake of DFOS over the next 10 years.

During the past five years distributed acoustic sensing (DAS) – one type of DFOS – has proven itself as a pipeline surveillance and monitoring system. Furthermore, DAS as a technology looks set to add value to DFOS monitoring solutions of wells and reservoirs – the primary market going forward. DTS (distributed temperature sensing) is already established as a well monitoring technique and the complementary application of a DAS interrogation enhances the future business case for DFOS.

The last main type of DFOS equipment – distributed temperature and strain sensing (DTSS) – is also vying for market share as well as being able to market itself as a solution that can anticipate structural problems with oil & gas infrastructure before they occur.

The application opportunities within the oil and gas industry for DFOS are poised to enable a substantive growth in spending on DFOS equipment. After well monitoring, permanent reservoir monitoring (PRM) and seismic acquisition is an especially exciting venture market for DFOS, as is the use of fibre optics to monitor offshore infrastructure and downstream process integrity. The use of DFOS as part of a 4D solution and VSP (vertical seismic profiling) are the most noteworthy market space growth opportunities for DFOS equipment expenditure over the coming 10 years.

For emphasis: an oil price of $100 per barrel continues to enable exploration and production expenditure on unconventional oil and gas development, thermal enhanced oil recovery (EOR) and ever more IOR (Improved Oil Recovery) activity. Distributed fibre optic sensing is a part of this story: a tool to better the industry’s understanding of how to optimise recovery and improve development techniques.

Why you should buy Distributed Fibre Optic Sensing for the Oil & Gas Industry 2014-2024: Market Prospects for DTS, DAS & DTSS for Well & Reservoir Monitoring, Security & Seismic

What is the future uptake of distributed fibre optic sensing solutions by the oil and gas industry and why? Visiongain’s comprehensive analysis contains highly quantitative content delivering solid conclusions benefiting your analysis and illustrates new opportunities and potential revenue streams helping you to remain competitive. This definitive report will benefit your decision making and help to direct your future business strategy.

What this report delivers:

• Global market forecasts for the expenditure on distributed fibre optic sensing equipment deployed by the oil and gas industry, as well as analysis from 2014-2024 to keep your knowledge ahead of your competition and ensure you exploit key business opportunities
- The report provides detailed projections of market expenditure, the main companies involved, and the commercial drivers and restraints; allowing you to more effectively compete in the market. In addition to market forecasts from 2014-2024, our new study shows current market data, original critical analysis, and revealing insight into commercial developments

• Our 214 page report provides 97 tables, charts, and graphs.
- Let our analysts present you with a thorough assessment of the current and future prospects for distributed fibre optics sensing within the oil and gas industry.
- You will gain from our analyst’s industry expertise allowing you to demonstrate your authority on how distributed fibre optic sensing will benefit from current and anticipated industry trends – in terms of the health of aspects of the oil & gas industry in which distributed fibre optic sensing will be used and in terms of the most important regional oil & gas industry development from a distributed fibre optic sensing equipment use point of view.

• View 8 exclusive expert opinion interviews from leading companies involved in DFOS. Learn what industry thought leaders are thinking. Leaders hold critical information
- By reading the full transcripts of exclusive expert opinion interviews contained in the report you will keep up to speed with what is really happening in the industry. Don’t’ fall behind. You will gain a thorough knowledge of the role and potential of distributed fibre optic sensing solutions within the oil and gas industry; you will find strategic advantages for your work and will learn how your organisation can benefit – allowing you to assess prospects for investments and sales. Interviews with the following companies are included:
- Baker Hughes
- Fotech Solutions
- Pruett Tech
- Optellios/Senstar
- fibrisTerre
- Silixa
- APSensing
- OZ Optics

• Discover sales predictions for the key end use submarkets from 2014-2024
- What are the key trends and factors affecting each application for and type of distributed fibre optic sensing within the oil and gas industry going forward? How will these markets expand? Which regions, equipment types and applications will see the greatest level of expenditure and why? Use our forecasts and expert insight to grow your business and give you more industry influence. Find out where you can gain and how your organisation can succeed. Stay informed about the potential for each of the submarkets for expenditure on distributed fibre optic sensing equipment by the oil and gas industry with forecasts and analysis from 2014-2024.
- A global market forecast for all expenditure of distributed fibre optic sensing equipment by the oil and gas industry, as well as in- depth analysis, covering the period 2014 to 2024.
- Forecasts of expenditure on distributed fibre optic sensing by the prominent applications in the oil & gas industry, as well as in- depth analysis, from 2014 to 2024:

Well & Reservoir Monitoring;
Pipeline Surveillance and Monitoring;
Seismic Acquisition;
Other Applications
- Forecasts of expenditure on the different types of distributed fibre optic solutions for 2014, 2019 and 2024

DAS (Distributed Acoustic Sensing) and DTSS (Distributed Temperature and Strain Sensing) and emerging solutions

• Understand the prospects for the leading national oil and gas distributed fibre optic sensing market – where will the expenditure be the highest and what opportunities exist for growth going forward?
- Learn about the market potential for companies providing oil and gas infrastructure security solutions in both developed and developing regions, from 2014 onwards. You will see where and how opportunities exist with revealing individual market forecasts and analysis for regional markets from 2014-2024. The opportunities for each distributed fibre optic sensing solution within each region are also assessed. The regions covered are: North America, the Middle East & North Africa (MENA), Asia (including Russia), Europe (excluding Russia), Central & South America and the Rest of the World (RoW).

• Explore the factors affecting original equipment manufacturers (OEMs), and all stakeholders with something to gain from deployment of distributed fibre optic sensing. Learn about the forces influencing market dynamics.
- Explore the political, economic, social, and technological (PEST) issues affecting expenditure on distributed fibre optic sensing by the oil and gas industry. Discover what the present and future outlook for stakeholders in the provision of this equipment will be. Learn about the following business critical issues –

The demand markets available for distributed fibre optic sensing solutions within the oil and gas industry and their evolution, including by region, over the coming 10 years.

The different types of distributed fibre optic technology available, their benefits and drawbacks and the opportunities for market growth available.
The evolution of markets such as pipelines and infrastructure security and how this will impact expenditure on distributed fibre optic sensing.
The strengths and opportunities for distributed fibre optic sensing in demand markets such as well and reservoir monitoring.
- Trends in the oil and gas industry of importance to expenditure on distributed fibre optic sensing.
- An analysis of the installation cost of distributed fibre optic sensing.

• Identify who are the leading companies involved in distributed fibre optic sensing
- Our report reveals the companies of central importance to this market, including the original equipment manufacturers and leading service companies provisioning distributed fibre optic sensing. The report profiles and analyses the activities of these companies, noting the opportunities available to them given visiongain’s forecast and analysis. Gain a thorough understanding of the competitive landscape with profiles of 19 leading companies, examining their positioning and focus.
- AP Sensing
- Baker Hughes Inc.
- fibrisTerre
- Fotech Solutions
- Future Fibre Technologies
- Halliburton
- IFOS Inc.
- Lios Technology
- Omnisens
- Optasense
- Optellios/Senstar
- OZ Optics
- Pruett Tech Inc.
- Schlumberger
- SensorNet
- Silixa
- Tendeka
- Weatherford International
- Ziebel

Discover Information found nowhere else in this independent assessment of the oil and gas distributed fibre optic sensing market

The Distributed Fibre Optic Sensing for the Oil & Gas Industry 2014-2024: Market Prospects for DTS, DAS & DTSS for Well & Reservoir Monitoring, Security & Seismic report provides impartial analysis. With the independent business intelligence found only in our work, you will discover where the prospects are for profit. In particular, our new research provides you with key strategic advantages: our informed forecasts, independent and objective analysis, exclusive interviews and company profiles will provide you with that necessary edge, allowing you to gain ground over your competitors.

With this report you are less likely to fall behind in knowledge or miss crucial business opportunities. You will save time and receive recognition for your market insight. See how this report could benefit and enhance your research, analysis, company presentations and ultimately your individual business decisions and your company’s prospects.

What makes this report unique?

Visiongain consulted widely with leading industry experts and full transcripts from exclusive interviews with Baker Hughes, Fotech Solutions, fibrisTerre, Silixa, OZ Optics, Pruett Tech, Senstar/Optellios and AP Sensing are included in the report. Visiongain’s research methodology involves an exclusive blend of primary and secondary sources providing informed analysis. This methodology allows insight into the key drivers and restraints behind market dynamics and competitive developments. The report, therefore, presents an ideal balance of qualitative analysis combined with extensive quantitative data including global, submarket and regional markets forecasts from 2014-2024

Why choose visiongain business intelligence?

Visiongain’s increasingly diverse sector coverage strengthens our research portfolio. The growing cross- sector convergence of key verticals and the interplay of game changing technologies across hitherto unrelated industries are creating new synergies, resulting in new business opportunities for you to leverage.

As such, visiongain’s team of London based in- house analysts offer a wealth of knowledge and experience to inform your strategic business decisions. Let visiongain guide you.

How the Distributed Fibre Optic Sensing for the Oil & Gas Industry 2014-2024: Market Prospects for DTS, DAS & DTSS for Well & Reservoir Monitoring, Security & Seismic report can benefit you

Visiongain's report is for anyone requiring analysis and forecasts of the expenditure on distributed fibre optic sensing by the oil and gas industry. This an extremely exciting emerging technology market from a growth and potential point of view. You will discover market forecasts by application of the sensing solution and by sensing solution type, assessments of regional oil and gas industry dynamics affecting expenditure, details of future expenditure by equipment type, region and application, as well as expert opinion, providing you with the independent analysis derived from our extensive primary and secondary research. Only by purchasing this report will you receive this critical business intelligence revealing where and why expenditure growth is likely and where the lucrative potential market prospects are located. Don’t miss this key opportunity to gain a competitive advantage.

Avoid falling behind your competitors, overlooking critical business opportunities or losing industry influence. In our new report you will discover forecasts from 2014-2024 at the global, submarket – equipment and application type – and regional level. The report also assesses key oil and gas industry dynamics and trends within each market forecast, the myriad variables affecting expenditure within each submarket technology and the opportunities available to those that market the solutions and other stakeholders in the value chain.

Table Of Contents

1. Report Overview

1.1 Overview: Global Distributed Fibre Optic Sensing for the Oil and Gas Industry Market
1.2 Market Segmentation: Global Distributed Fibre Optic Sensing for the Oil and Gas Industry
1.3 Market Definition: Global Distributed Optic Sensing for the Oil and Gas Industry
1.4 Why You Should Read This Report
1.5 How This Report Delivers
1.6 Key Questions Answered by This Analytical Report Include:
1.7 Who is This Report For?
1.8 Methodology
1.9 Frequently Asked Questions (FAQ)
1.10 Associated Visiongain Reports
1.11 About Visiongain

2. Introduction to the Distributed Fibre Optic Sensing for the Oil and Gas Industry Market

2.1 What is Distributed Fibre Optic Sensing (DFOS)?
2.1.1 What Fibre Optic Cables Are Required?
2.2 What Are the Different Types of Distributed Fibre Optic Sensing Used by the Oil and Gas Industry?
2.2.1 Distributed Fibre Optic Temperature Sensing (DTS)
2.2.2 Distributed Fibre Optic Acoustic Sensing (DAS)
2.2.3 Distributed Temperature and/or Strain Sensing (DTSS/DSTS or DSS)
2.2.4 Quasi- Distributed Fibre Optic Chemical Sensing (DCS)
2.3 Applications of Distributed Fibre Optic Sensing within the Oil and Gas Industry

3. Global Distributed Fibre Optic Sensing for the Oil and Gas Industry Market 2014-2024

3.1 Global Distributed Fibre Optic Sensing for the Oil and Gas Industry Market Forecast 2014-2024
3.1.1 How Do Oil Price Dynamics and Outlook Affect Investment in Distributed Fibre Optic Sensing?
3.1.1.1 Scenario 1: ~$80/bbl
3.1.1.2 Scenario 2: ~$100/bbl
3.2 Benefits and Drawbacks of Using Distributed Fibre Optic Sensing in the Oil and Gas Industry

4. Distributed Fibre Optic Sensing in the Oil and Gas Industry: Application Submarkets 2014-2024

4.1 Well and Reservoir Monitoring Using Distributed Fibre Optic Sensors: Submarket 2014-2024
4.1.1 Overall Drivers and Restraints on Investment in Distributed Fibre Optic Sensing for Well Monitoring
4.1.2 In- Situ (including SAGD) and Other Thermal EOR Deployment
4.1.3 Demand for Well Monitoring During Hydraulic Fracturing
4.1.4 Expected Reductions in Cost and Wider Benefit Appreciation
4.1.5 Well Monitoring Possibilities Using Distributed Fibre Optic Sensing Solutions
4.1.6 Temporary Deployments
4.2 Pipeline Security and Monitoring Using Distributed Fibre Optic Sensors: Submarket 2014-2024
4.2.1 Overall Drivers and Restraints on Investment in Distributed Fibre Optic Sensing for Pipeline Security and Monitoring
4.2.2 Benefits of DAS as a Pipeline Security Measure
4.2.2.1 What Are the Economics of DAS as a Pipeline Security Measure?
4.2.3 Restraints on Distributed Fibre Optic Sensing as a Pipeline Security and Monitoring Technique
4.2.3.1 Will the DAS Pipeline Surveillance Market Reach Saturation Point?
4.2.4 Summary of Pipeline Expansion Worldwide
4.2.5 What Regions Are the Most Prospective for the Implementation of DFOS as a Pipeline Security Measure?
4.2.6 Tipping Point Given Security Expenditure
4.3 Seismic Applications for Distributed Fibre Optic Sensing: Submarket 2014-2024
4.3.1 Overall Drivers and Restraints on Investment in Distributed Fibre Optic Sensing for Seismic Acquisition
4.3.2 What are 4D Seismic and How Can Distributed Fibre Optics Provide 4D Data Acquisition Assistance?
4.3.3 Barriers to the Use of Distributed Fibre Optic Sensing as Seismic Acquisition Method
4.4 Other Applications for Distributed Fibre Optic Sensing in the Oil and Gas Industry: 2014-2024
4.5 Installing Distributed Fibre Optic Sensing Solutions in the Oil and Gas Industry - A Limitation to Uptake?

5. Global Leading Distributed Fibre Optic Sensing Markets: Spending On DFOS Equipment by the Oil and Gas Industry

5.1 DTS in the Oil and Gas Industry: Submarket 2014, 2019, 2024
5.1.1 What Are The Main Applications of DTS in the Oil and Gas Industry?
5.1.1.1 Well Monitoring
5.1.1.2 Thermal EOR
5.1.1.2.1 Canadian Oil Sands
5.1.1.2.2 Other Thermal EOR Developments
5.1.1.3 Other Applications of DTS
5.2 DAS in the Oil and Gas Industry: Submarket 2014, 2019, 2024
5.2.1 What Are The Main Applications of DAS in the Oil and Gas Industry?
5.2.1.1 Well Monitoring
5.2.1.2 Pipeline Surveillance
5.2.1.3 Seismic Data Acquisition
5.3 DTSS (DSTS) and Emerging Distributed Fibre Optic Sensing Solutions for the Oil and Gas Industry: Submarket 2014, 2019, 2024

6. Regional Distributed Fibre Optic Sensing in the Oil and Gas Industry Markets 2014-2024

6.1 North American Distributed Fibre Optic Sensing for the Oil and Gas Industry Market Forecast 2014-2024
6.1.1 North American Distributed Fibre Optic Sensing Market Analysis
6.1.2 Application 1: Thermal EOR
6.1.3 Application 2: Unconventional Oil and Gas EandP
6.1.4 Other Application Markets
6.1.5 Drivers and Restraints on the North American Distributed Fibre Optic Sensing Market
6.2 Middle East and North Africa (MENA) Distributed Fibre Optic Sensing for the Oil and Gas Industry Market Forecast 2014-2024
6.2.1 MENA Distributed Fibre Optic Sensing Market Analysis
6.2.2 Application 1: Thermal EOR
6.2.3 Application 2: Oil and Gas Infrastructure Security, Predominantly Pipelines
6.2.3.1 How Is Oil and Gas Infrastructure Security Approached in Saudi Arabia?
6.2.3.2 How Is Oil and Gas Infrastructure Security Approached in Algeria?
6.2.3.3 How Is Oil and Gas Infrastructure Security Approached in Iraq?
6.2.3.4 How Is Oil and Gas Infrastructure Security Approached in the UAE?
6.2.3.5 Other Important Target Markets for Pipeline Security to Note
6.2.4 Drivers and Restraints on the MENA Distributed Fibre Optic Sensing Market
6.3 Asian (incl. Russian) Distributed Fibre Optic Sensing for the Oil and Gas Industry Market Forecast 2014-2024
6.3.1 Asian Distributed Fibre Optic Sensing Market Analysis
6.3.2 Application 1: Thermal EOR
6.3.3 Application 2: Pipeline Monitoring
6.3.4 Application 3: Unconventional Oil and Gas EandP
6.3.4.1 The Chinese Unconventional Oil and Gas Opportunity for Distributed Fibre Optic Sensing
6.3.4.2 The Russian Unconventional Oil and Gas Opportunity for Distributed Fibre Optic Sensing
6.3.5 Drivers and Restraints on the Asian Distributed Fibre Optic Sensing Market
6.4 Europe (excl. Russia) Distributed Fibre Optic Sensing for the Oil and Gas Industry Market Forecast 2014-2024
6.4.1 European Distributed Fibre Optic Sensing Market Analysis
6.4.2 Application 1: Unconventional Oil and Gas EandP
6.4.3 Application 2: Pipeline Monitoring
6.4.4 Application 3: Offshore
6.4.5 Drivers and Restraints on European Distributed Fibre Optic Sensing Market
6.5 Central and South American Distributed Fibre Optic Sensing for the Oil and Gas Industry Market Forecast 2014-2024
6.5.1 Central and South American Distributed Fibre Optic Sensing Market Analysis
6.5.2 Application 1: Pipeline Security
6.5.3 Application 2: Unconventional Oil and Gas Industry
6.5.4 Application 3: Offshore
6.5.5 Application 3: Thermal EOR
6.5.6 Drivers and Restraints on the Central and South American Distributed Fibre Optic Sensing Market
6.6 Rest of the World (RoW) Distributed Fibre Optic Sensing for the Oil and Gas Industry Market Forecast 2014-2024
6.6.1 RoW Distributed Fibre Optic Sensing Market Analysis
6.6.2 Application 1: Pipeline Security
6.6.3 Application 2: Offshore
6.6.4 Application 3: Thermal EOR

7. PEST Analysis of Distributed Fibre Optic Sensing Potential within the Oil and Gas Industry

8. Expert Opinion

8.1 Baker Hughes Inc.
8.1.1 Baker Hughes and Well Monitoring
8.1.2 Distributed Fibre Optic Sensing Solutions for Reservoir Monitoring
8.1.3 DTS and DAS as Complementary Technologies
8.1.4 Technical Challenges Facing Fibre Optic Sensing Solutions
8.1.5 Growth Markets for DTS
8.1.6 Distributed Strain Sensing
8.1.7 The Usefulness of DAS as a Monitoring Solution
8.1.8 Applications for Distributed Fibre Optic Sensing Solutions
8.1.9 Well Monitoring, DAS and Hydraulic Fracturing
8.1.10 The Advantages of Fibre Optic Sensing Solutions
8.1.11 Historical Limitations of the Use of Fibre Optic Cables as a Sensing Solution
8.1.12 Current Challenges for Market Penetration
8.1.13 Fibre Optic Cables as Chemical Sensors
8.2 Fotech Solutions
8.2.1 Fotech Solutions in the Distributed Fibre Optic Sensing Market
8.2.2 Regional Demand For DAS Services
8.2.3 DAS and DTS as Complementary Solutions
8.2.4 Installation Costs for Distributed Fibre Optic Sensing
8.2.5 Technical Challenges Facing DAS Solution Providers
8.2.6 Fotech Focus on Well Monitoring
8.2.7 Justifying DTS and DAS Solution Deployment
8.2.8 The Benefits of DAS for Hydraulic Fracture Monitoring
8.2.9 The Potential of Distributed Strain Sensing
8.2.10 What Oil and Gas Industry Applications of DAS Look Prospective?
8.2.11 The Reasons for Using DAS as a Pipeline Monitoring Solution
8.2.12 Distributed Fibre Optic Sensing, Reservoir Monitoring and EOR
8.2.13 Limitations on Distributed Fibre Optic Sensing Uptake
8.2.14 Distributed Fibre Optic Chemical Sensing: Is There A Need?
8.3 fibrisTerre
8.3.1 fibrisTerre and Well Monitoring
8.3.2 Challenges Faced by DTSS
8.3.3 The Installation Cost Associated with DTSS
8.3.4 Advantages of Measuring Strain
8.3.5 Compatibility of DTSS with DAS
8.3.6 Regional Demand for DTSS
8.3.7 DTSS and Downstream Process Monitoring
8.3.8 fibrisTerre Growth Prospects
8.3.9 Cost of Speciality Fibre Optic Cabling
8.3.10 Oil and Gas Industry Applications for Fibre Optic Sensing Solutions
8.3.11 Restraints on Market Penetration of Fibre Optic Sensing Solutions
8.3.12 Emerging Types of Distributed Fibre Optic Sensing
8.4 Silixa
8.4.1 The Silixa Offering and History
8.4.2 The Silixa Technology
8.4.3 Installation Costs Associated with In- Well Monitoring
8.4.4 The Focus on In- Well Monitoring
8.4.5 The Viability of Distributed Strain Sensing
8.4.6 SAGD and DTS
8.4.7 Technical Challenges Being Faced by Distributed Fibre Optic Sensing
8.4.8 Distributed Fibre Optic Sensing in the Offshore Environment
8.4.9 Distributed Fibre Optic Sensing in the Downstream Process Monitoring
8.4.10 DAS and Pipeline Monitoring
8.4.11 Challenges Faced by Distributed Fibre Optic Sensing Solutions
8.4.12 DAS Compared with Emerging Chemical Sensing
8.4.13 Uptake of Distributed Fibre Optic Sensing Solutions
8.5 OZ Optics
8.5.1 OZ Optics and Distributed Fibre Optic Sensing
8.5.2 Installing Distributed Strain and Temperature Sensing
8.5.3 The Demands of the Oil and Gas Industry
8.5.4 Advantages of Distributed Strain and Temperature Sensing and OZ Optics Solution
8.5.5 DAS as the Emerging Distributed Fibre Optic Sensing Solution
8.5.6 Demand Markets for Distributed Fibre Optic Sensing Solutions Within the Oil and Gas Industry
8.5.7 What Limits Uptake of Fibre Optic Sensing Solutions?
8.5.8 Installation Cost
8.6 Pruett Tech Inc.
8.6.1 Pruett Tech Inc. And DTS Monitoring
8.6.2 DTS and DAS as Complementary Monitoring Solutions
8.6.3 Challenges to DTS: Pricing Points
8.6.4 DTSS, SAGD and Pressure Sensing
8.6.5 The Most Exciting Development for DTS
8.7 Senstar/Optellios
8.7.1 Senstar/Optellios and Distributed Fibre Optic Sensing
8.7.2 Demand for Distributed Fibre Optic Sensing Solutions Around the World
8.7.3 DAS for Well Monitoring and Seismic
8.7.4 Technical Challenges Facing the Distributed Fibre Optic Sensing Community within the Oil and Gas Industry
8.7.5 Different Application Prospects for Distributed Fibre Optic Sensors
8.7.6 Previous Uptake Limitations Experienced by Distributed Fibre Optic Sensors
8.7.7 Solutions for Overcoming the Challenges the Distributed Fibre Optic Sensing Community is Facing
8.7.8 Remaining Market Restraints on Distributed Fibre Optic Sensing
8.8 AP Sensing
8.8.1 AP Sensing and Distributed Fibre Optic Sensing
8.8.2 Regional Demand for Distributed Fibre Optic Sensing
8.8.3 DAS, DTS and Reservoir Monitoring
8.8.4 Technical Challenges Facing the Industry
8.8.5 SAGD and DTS
8.8.6 Emerging Applications for DTS and DAS
8.8.7 Overall Drivers and Restraints for Uptake

9. Leading Companies in the Distributed Fibre Optic Sensing Market

9.1 Companies Focussed on Supplying Distributed Fibre Optic Sensing
9.1.1 AP Sensing
9.1.2 fibrisTerre
9.1.3 Fotech Solutions
9.1.4 Future Fibre Technologies
9.1.5 Lios Technology
9.1.6 Omnisens
9.1.7 Optasense
9.1.8 Optellios/Senstar
9.1.9 OZ Optics
9.1.10 Pruett Tech Inc.
9.1.11 SensorNet
9.1.12 Silixa
9.1.13 Tendeka
9.1.14 Ziebel
9.2 Companies Supplying Distributed Fibre Optic Sensing Solutions to the Oil and Gas Industry as a Part of a Wider Offering
9.2.1 Baker Hughes Inc.
9.2.2 Halliburton
9.2.3 IFOS Inc.
9.2.4 Schlumberger
9.2.5 Weatherford International
9.3 Other Notable Companies in the Distributed Fibre Optic Sensing Supply Chain

10. Conclusions and Recommendations

10.1 Global Distributed Fibre Optic Sensing for the Oil and Gas Industry Outlook
10.2 Key Findings

11. Glossary

List of Tables

Table 1.1 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, 2014-2024 ($m, AGR%, CAGR %)
Table 2.1 Main Applications of Distributed Fibre Optic Sensing within the Oil and Gas Industry
Table 3.1 Global Distributed Fibre Sensing for the Oil and Gas Industry Market Forecast 2014-2024 ($m, AGR %, CAGR%, Cumulative)
Table 3.2 Unconventional Oil Supply Costs
Table 3.3 Benefits and Drawbacks of Distributed Fibre Optic Sensing for the Oil and Gas Industry
Table 4.1 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, 2014-2024 ($m, AGR%, Cumulative)
Table 4.2 Well and Reservoir Monitoring Using Distributed Fibre Optic Sensing Submarket Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 4.3 Overall Drivers and Restraints on Investment in Distributed Fibre Optic Sensing for Well Monitoring
Table 4.4 In- Situ Oil Sands CAPEX, 2014,2019 and 2024 ($m)
Table 4.5 Well Monitoring Applications for Distributed Fibre Optic Sensing
Table 4.6 Pipeline Security and Monitoring Using Distributed Fibre Optic Sensing Submarket Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 4.7 Overall Drivers and Restraints on Investment in Distributed Fibre Optic Sensing for Pipeline Security and Monitoring
Table 4.8 Oil and Gas Pipelines Forecast by Length, 2014, 2019 and 2024 (km, North America, Eurasia, Africa, Middle East, Asia- Pacific, Latin America)
Table 4.9 Seismic Acquisition Using Distributed Fibre Optic Sensing Submarket Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 4.10 Overall Drivers and Restraints on Investment in Distributed Fibre Optic Sensing for Seismic Acquisition
Table 4.11 Production from Enhance Oil Recovery Methods, 2013, 2018, 2024 (mmbpd)
Table 4.12 Other Oil and Gas Applications for Distributed Fibre Optic Sensing Submarket Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 5.1 Sales of DFOS Equipment for Use in the Oil and Gas Industry, 2014, 2019 and 2024 ($m, Market Share)
Table 5.2 In Situ Oil Sands CAPEX, 2014, 2019, 2024 ($m)
Table 6.1 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, 2014-2024 ($m, AGR%, Cumulative)
Table 6.2 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in North America Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 6.3 North American Distributed Fibre Optic Sensing Market Drivers and Restraints
Table 6.4 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in MENA Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 6.5 MENA Region Oil Pipelines Most Likely to Proceed (Name, Length, Diameter, Capacity, Route Developers, Start Date, Cost, Status)
Table 6.6 MENA Region Gas Pipelines Most Likely to Proceed (Name, Length, Diameter, Capacity, Route Developers, Start Date, Cost, Status)
Table 6.7 MENA Distributed Fibre Optic Sensing Market Drivers and Restraints
Table 6.8 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Asia Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 6.9 Chinese Oil and Gas Pipelines Most Likely to Proceed (Name, Length, Diameter, Capacity, Route Developers, Start Date, Cost, Status)
Table 6.10 Chinese Unconventional Resources (Type of Resource, Size of Resource)
Table 6.11 Asian Distributed Fibre Optic Sensing Market Drivers and Restraints
Table 6.12 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Europe Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 6.13 European Distributed Fibre Optic Sensing Market Drivers and Restraints
Table 6.14 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Central and South America Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 6.15 Central and South American Distributed Fibre Optic Sensing Market Drivers and Restraints
Table 6.16 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in the RoW Forecast 2014-2024 ($m, AGR %, Cumulative)
Table 7.1 PEST Analysis of Distributed Fibre Optic Sensing for the Oil and Gas Industry
Table 9.1 Tiers/Types of Company Supplying Distributed Fibre Optic Sensing Solutions to the Oil and Gas Industry
Table 9.2 Other Notable Companies in the Distributed Fibre Optic Sensing Supply Chain

List of Figures

Figure 1.1 WTI and Brent SPOT Prices Jan 2004- Jan 2014
Figure 1.2 Global Fibre Optic Sensing for the Oil and Gas Industry Market Overview -CAPEX by Application and by Distributed Fibre Optic Sensing Solution
Figure 1.3 Global Fibre Optic Sensing for the Oil and Gas Industry Market Overview -CAPEX on Solution by Region
Figure 1.4 Regional Market Spaces Covered by Report Forecasts
Figure 3.1 Global Distributed Fibre Sensing for the Oil and Gas Industry Market Forecast 2014-2024 ($m, AGR%)
Figure 3.2 WTI and Brent SPOT Prices Jan 2004- Jan 2014
Figure 3.3 Global Drivers for DFOS Solution Monitoring Investment
Figure 3.4 Rotary Rig Count
Figure 3.5 World Liquid Fuel Consumption Forecast 2013- 2040 (mmbpd)
Figure 4.1 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, 2014-2024 ($m)
Figure 4.2 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, 2014 Market Share Forecast (%)
Figure 4.3 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, 2019 Market Share Forecast (%)
Figure 4.4 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, 2024 Market Share Forecast (%)
Figure 4.5 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, Market Share Change 2014-2024 (%)
Figure 4.6 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, CAGRs 2014- 2019, 2019- 2024, 2014-2024 (%)
Figure 4.7 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, 2014-2024 (AGR% Year- on- Year)
Figure 4.8 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Application, Cumulative Spending 2014-2024 ($m)
Figure 4.9 Well and Reservoir Monitoring Using Distributed Fibre Optic Sensing Submarket Forecast 2014-2024 ($m, AGR %)
Figure 4.10 Well and Reservoir Monitoring Using Distributed Fibre Optic Sensing Market Share Forecast 2014, 2019, 2024 (%)
Figure 4.11 US Oil Production (Historical and Forecast), 1966- 2015 (000s bpd)
Figure 4.12 Global Gas Price Comparisons, 1996- 2012: Japan cif, UK NBP, US Henry Hub ($/MMBtu)
Figure 4.13 Pipeline Security and Monitoring Using Distributed Fibre Optic Sensing Submarket Forecast 2014-2024 ($m, AGR %)
Figure 4.14 Pipeline Security and Monitoring Using Distributed Fibre Optic Sensing Market Share Forecast 2014, 2019, 2024 (%)
Figure 4.15 Existing Oil and Gas Pipelines Worldwide in 2013 by region (Total km of Pipeline, % of Global Total)
Figure 4.16 Existing Oil and Gas Pipelines Worldwide by Region, 2014, 2019 and 2024 (Total km of Pipeline, km of pipelines monitored by DAS)
Figure 4.17 Seismic Acquisition Using Distributed Fibre Optic Sensing Submarket Forecast 2014-2024 ($m, AGR %)
Figure 4.18 Seismic Acquisition Using Distributed Fibre Optic Sensing Market Share Forecast 2014, 2019, 2024 (%)
Figure 4.19 Other Oil and Gas Applications for Distributed Fibre Optic Sensing Submarket Forecast 2014-2024 ($m, AGR %)
Figure 4.20 Other Oil and Gas Applications for Distributed Fibre Optic Sensing Market Share Forecast 2014, 2019, 2024 (%)
Figure 5.1 Sales of DFOS Equipment for Use in the Oil and Gas Industry, 2014 ($m, Market Share)
Figure 5.2 Sales of DFOS Equipment for Use in the Oil and Gas Industry, 2019 ($m, Market Share)
Figure 5.3 Sales of DFOS Equipment for Use in the Oil and Gas Industry, 2024 ($m, Market Share)
Figure 5.4 Sales of DTS Equipment to the Oil and Gas Industry, 2014, 2019, 2024 ($m, % DFOS Share)
Figure 5.5 Sales of DAS Equipment to in the Oil and Gas Industry, 2014, 2019, 2024 ($m, % DFOS Share)
Figure 5.6 DTSS in the Oil and Gas Industry, 2014, 2019, 2024 ($m, % DFOS Share)
Figure 6.1 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, 2014-2024 (
Figure 6.2 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, 2014 Market Share Forecast (%)
Figure 6.3 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, 2019 Market Share Forecast (%)
Figure 6.4 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, 2024 Market Share Forecast (%)
Figure 6.5 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, Market Share Change 2014-2024 (%)
Figure 6.6 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, CAGRs 2014- 2019, 2019- 2024, 2014-2024 (%)
Figure 6.7 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, 2014-2024 ($m)
Figure 6.8 Distributed Fibre Optic Sensing Equipment Sales for Use in the Oil and Gas Industry by Region, Cumulative Spending 2014-2024 ($m)
Figure 6.9 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in North America Forecast 2014-2024 ($m, AGR %)
Figure 6.10 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in North America Market Share Forecast 2014, 2019, 2024 (%)
Figure 6.11 Number of In- Situ Well Pairs To Be Completed in Canada, 2014-2024 (# Well Pairs)
Figure 6.12 Capital Expenditure on Shale (Tight) Oil Development, 2014- 2018
Figure 6.13 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in MENA Forecast 2014-2024 ($m, AGR %)
Figure 6.14 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in MENA Market Share Forecast 2014, 2019, 2024 (%)
Figure 6.15 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Asia Forecast 2014-2024 ($m, AGR %)
Figure 6.16 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Asia Market Share Forecast 2014, 2019, 2024 (%)
Figure 6.17 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Europe Forecast 2014-2024 ($m, AGR %)
Figure 6.18 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Europe Market Share Forecast 2014, 2019, 2024 (%)
Figure 6.19 UK Offshore and Norwegian Crude Oil Production 1994- 2012 (Thousand Barrels/Day)
Figure 6.20 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Central and South America Forecast 2014-2024 ($m, AGR %)
Figure 6.21 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in Central and South America Market Share Forecast 2014, 2019, 2024 (%)
Figure 6.22 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in the RoW Forecast 2014-2024 ($m, AGR %)
Figure 6.23 Expenditure on Distributed Fibre Optic Sensing Equipment by the Oil and Gas Industry in the RoW Market Share Forecast 2014, 2019, 2024 (%)
Figure 6.24 Estimated Natural Gas Reserves in US, Canada, Australia, Tanzania and Mozambique (tcf)

Companies Listed

3SP Group
Abu Dhabi Gas Industries Company (Gasco)
AFL
AP Sensing
Apache Corporation
Apex Optics
APSensing
Bahrain Petroleum Company (Bapco)
Baker Hughes
BP
Brugg Cables
Chevron
Chevron Technology Venture (CTV)
China Petroleum Pipeline (CPP) Company
CNPC (China National Petroleum Corporation)
ConocoPhillips
Dart Energy
Deepstar
Dodsal Group
Draka (Prysmian)
Ecopetrol
EcoStim
ENI
ExxonMobil
Ezurio
FiberSensing
Fibertronix
FibreCore
fibrisTerre GmbH
Fotech Solutions
FutureFibre Technologies
Gazprom
GazpromNeft
Genia Photonics
Halliburton
HiFi Engineering
Hitachi Metals
HP/Agilent
IFOS Inc
IXFibre
Korea Gas Corporation (KOGAS)
Kuwait Gulf Oil Company
Kuwait Oil Company (KOC)
Kuwait Petroleum Corporation
Larsen and Toubro (LandT)
Lime Rock Partners
Lios Technology
Liwa Energy
Lockheed Martin
Lukoil
Luna Inc
Micron Optics
Missan Oil Company (MOC)
Moog
Nexans
NKT Photonics
NP Photonics
Occidental Petroleum
Oman Gas Company (OGC)
Oman Oil Company
Omnisens
OptaSense
Optellios
Optical Cable Corporation
OTM - On The Move
OZ Optics
Partex
PDVSA
PEMEX - Petroleos Mexicanos
Petrobras
Petrojet
Petroleum Development Oman (PDO)
PGS
Pinnacle
Pruett Tech Inc
QinetiQ
Repsol
SAGEOil
Saudi Aramco
Schlumberger
SensorNet
Senstar Corporation
Shell
Shell Oman Marketing Company
Shell Technology Ventures
Silixa
Sinopec
South Oil Company (SOC)
Spicer Wireline
Statoil Technology Invest (STI)
Sumitomo
Technip
Tendeka
TeraXion
TNK- BP
Tojiktransgaz
Total
Transneft
Tronic (now part of Siemens
US Seismic Systems
Weatherford
WesternGeco
YPF
Ziebel

Other Organisations Mentioned in This Report

Algerian Defence Ministry
al- Qaeda
API - American Petroleum Institute
BAM German Federal Institute for Materials Research and Testing
Berlin University of Technology
Boko Haram
Brunel University
Canadian Photonics Consortium
Chatham House
Chinese Ministry of Land and Resources
DTI - UK Department for Business, Innovation and Skills
EAGE - European Association of Geoscientists
EIA - US Energy Information Administration
Facilities Security Force (Saudi Arabia)
Henley Management College
Institute for the Analysis of Global Security (IAGS)
Marxist- Leninist Revolutionary Armed Forces of Colombia (FARC)
Movement for the Emancipation of the Niger Delta (MEND)
National Liberation Army (ELN)
National Technological University (remote branch of Colorado State)
Office of the Program Manager- Facilities Security Force (OPM- FSF) - Saudi Arabia
Oil Protection Force (OPF) - Iraq
OPEC - Organisation of the Petroleum Exporting Countries
PKK - Kurdistan Workers Party
Saudi Interior Ministry
SPE - Society of Petroleum Engineering
Texas AandM
Transparency International
UK Ministry of Defence
US Department of Commerce
US Security and Exchange Commission - SEC

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