Cover Image
市场调查报告书

Photonic Sensor Consortium 的市场调查报告书

2015 Photonic Sensor Consortium Market Survey Report

出版商 Information Gatekeepers Inc. 商品编码 273159
出版日期 内容信息 英文
商品交期: 最快1-2个工作天内
价格
Back to Top
Photonic Sensor Consortium 的市场调查报告书 2015 Photonic Sensor Consortium Market Survey Report
出版日期: 2015年03月16日 内容信息: 英文
简介

本报告书为、感应元素、光纤电缆、质问机及包含软件的分散型光纤感测系统市场的调查、调查回答企业的销售额成长预测、使用技术、提供产品和服务及成长阻碍因素、分散型光纤市场的技术分类分析、各种产业分类的分析和预测、预测的比较等汇整、内容概要摘记如下。

Photonic Sensor Consortium 的背景

调查概要

  • 分散型光纤感测系统为焦点
  • 销售额500万美金以下的企业到销售额3,000万美金以上的企业为止的大幅回复
  • 销售额成长预测:1年
  • 销售额成长预测:3年
  • 几乎所有的企业都使用多种技术
  • 最主要的成长阻碍因素
  • 几乎所有的企业对应复数市场分类、能源独占市场
  • 78%提供感测系统外、50%提供设置服务

调查回答

  • 感应商业的规模为何?
  • 预测的成长为何?(1年)
  • 预测的成长为何?(3年)
  • 提供哪一个市场分类呢?
  • 使用技术为何?
  • 提供产品或服务为何?
  • 对成长来说最大的障碍为何?

分散型光纤感应市场的更新

  • 感应预测方法
  • 感应预测范围
    • 中国以外的全球市场
    • 对象的市场分类
  • 分散型光纤感应市场
  • 分散型光纤市场的更新
  • 分散型光纤感应市场:各种技术
  • 分散型光纤感应预测的比较

各市场的影响

  • 石油、天然气
  • 风力发电机
  • 智能型电网
  • 智能型基础设备
  • 军事
  • 工业

摘要、结论

  • 正向层面
  • 负向层面

优良企业介绍

  • Baker Hughes
  • CGGVeritas
  • Fiber SenSys
  • FISO Technologies
  • Fotech
  • IFOS
  • Intelligent Optical Systems
  • Halliburton
  • LIOS Technology
  • Luna
  • Micron Optics
  • Northrop Grumman
  • NP Photonics
  • Opsens
  • Optiphase
  • OZ Optics
  • Petrospec Engineering
  • PGS
  • QinetiQ
  • Schlumberger
  • Sensornet
  • Silixa
  • Smartec (Roctest Group)
  • TGS
  • US Seismic Systems, Inc. (USSI)
  • Weatherford
  • Zeibel

企业的收购

技术概要

  • 背景
  • 分散型光纤感应

图表

本网页内容可能与最新版本有所差异。详细情况请与我们联系。

目录

Overview

The distributed fiber optic sensor market stood at $585 million in 2013. The market was projected to approach $1.5 billion in 2018 with 70% associated with the oil and gas segments. The sudden and unexpected drop in oil prices will negatively impact the market with the overall forecast falling short of the $1.5 billion forecast according to an updated and expanded market survey report conducted by the Photonic Sensor Consortium and published by Information Gatekeepers. The long term picture is still optimistic, but a short term contraction is likely.

The expanded report provides much greater detail for how the market is forecasted for specific technologies. Data is provided in graphic and tabular formats. The market is broken down for DTS, Bragg grating, DAS, interferometric and Brillouin scattering technologies in relation to the various market segment applications (oil and gas, military, homeland security, smart structures, etc.). In addition, the two dominant technologies (DTS and Bragg gratings)show relative market share by the major suppliers.

Distributed Fiber Optic Sensor Market By Technology

Distributed fiber optic sensors are an enabling technology that creates smart systems in a variety of applications. The initial commercialization efforts focused on military applications. However, the need to function in harsh environments and the development of optical fiber technology that can survive in these applications has significantly impacted the oil and gas industry. These smart sensing systems provide benefits throughout the life of a well from exploration to drilling and completion, production and reservoir management. There is no other technology that can provide critical process control information spatially throughout the well in real time over long periods. Without smart well technology, fracture monitoring and analysis and applications like steam assisted gravity drainage (SAGD) would be very difficult to effectively implement.

Why is there such a strong interest in this technology? Fiber optic sensors represent a technology base that can be applied to a multitude of sensing applications. There are several characteristic advantages of fiber optics that make their use especially attractive for sensors:

  • Nonelectrical
  • Explosion-proof
  • Small size and weight
  • Allow access into normally inaccessible areas and harsh environments
  • Immune to radio frequency interference (RFI) and electro-magnetic interference (EMI)
  • Solid-state reliability
  • High accuracy
  • Can facilitate distributed sensing

Most physical properties can be sensed optically with fibers. Light intensity, displacement (position), temperature, pressure, rotation, sound, strain, magnetic field, electric field, radiation, flow, liquid level, chemical analysis, and vibration are just some of the phenomena that can be sensed.

Fiber optic sensors have been used successfully for many years in military gyroscopes and hydrophones. However, their use in smart oil wells has been the key to enabling North America to be on a path to energy independence.

Table of Contents

Reason for Update

Photonic Sensor Consortium Background

Survey Overview

  • The focus is distributed fiber optic sensing systems
  • Wide range of responses from companies with sales of less than $5 million to companies with sales well in excess of $30 million
  • Projected sales growth in 2013
  • Projected sales growth in 2013 - 2017
  • Most companies use multiple technologies
  • Most prominent barrier to growth
  • Most companies address multiple market segments, but energy is the dominant market
  • 78% offer sensing systems, while 50% offer installation services

Survey Response

  • What was the size of your sensor business in 2013?
  • What is the anticipated growth in 2014?
  • What is your anticipated growth from 2013 to 2018?
  • What market segments do you serve?
  • What technologies do you use?
  • What products or services do you offer?
  • What is the biggest barrier to growth?

Distributed Fiber Optic Sensor Market Update

  • Sensor Forecast Methodology
  • Sensor Forecast Coverage
  • The forecast covers distributed fiber optic sensing systems including sensor elements, fiber optic cables, interrogators and software. It does not include installation. The markets covered are defined below:
  • Worldwide market excluding China
  • Market segments covered
    • Oil & gas seismic
    • Oil & gas in-well
    • Oil & gas pipelines
    • Wind energy turbines
    • Geothermal
    • Utility power lines
    • Military - hydrophone
    • Military - security
    • Military - shipboard/avionic
    • Homeland security - intrusion / chemical
    • Infrastructure
    • Industrial process control
  • Distributed Fiber Optic Sensor MarketUpdate
  • Distributed Fiber Optic Market Update(Comparing Relative Market Segment Growth)
  • Distributed Fiber Optic Sensor Market by Technologies
  • Distributed Fiber Optic Sensor Forecast Comparisons

What Happened to the Market?

  • Oil & Gas
  • Wind Turbines
  • Smart Grid
  • Smart infrastructure
  • Military
  • Homeland Security
  • Industrial

Summary and Conclusions

  • Several factors have impacted the distributed fiber optic sensor market growth.
  • On the positive side
  • On the negative side

Profiles of Select Distributed Fiber Optic Sensor Companies

  • 4DSP
  • Baker Hughes
  • CGGVeritas
  • Fiber SenSys
  • FISO Technologies
  • Fotech
  • IFOS
  • Intelligent Optical Systems
  • Halliburton
  • LIOS Technology
  • Luna
  • Micron Optics
  • Northrop Grumman
  • NP Photonics
  • Opsens
  • Optiphase
  • OZ Optics
  • Petrospec Engineering
  • PGS
  • QinetiQ
  • Schlumberger
  • Sensornet
  • Silixa
  • Smartec (Roctest Group)
  • TGS
  • US Seismic Systems, Inc. (USSI)
  • Weatherford
  • Zeibel

Acquisitions

Technology Overview

  • Background
  • Distributed Fiber Optic Systems

List of Figures

  • Figure 1: Classification of Optical Fiber Sensors by Transducing Approach
  • Figure 2: A Simple Intensity-Based Fiber Optic Pressure Sensors
  • Figure 3: Mach Zehnder Interferometer
  • Figure 4: Fiber Bragg grating sensor system
  • Figure 5: Concept of Fiber Optic Distributive Sensors Based on Scattering
  • Figure 6: Fiber optic transmissive magnetic field sensor using magneto-optic sensing material in the light path
  • Figure 7: Components common to all fiber optic sensors
  • Figure 8: Classification of optical fiber sensors according to their topology
  • Figure 9: Distributed Fiber Optic Sensor
  • Figure 10: Optical scattering mechanisms used for sensing applications
  • Figure 11: Fiber optic distributed sensors

References

Back to Top