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水質センサーの世界市場 - 2016〜2020年

Global Water Quality Sensors Market 2016-2020

発行 TechNavio (Infiniti Research Ltd.) 商品コード 368224
出版日 ページ情報 英文 70 Pages
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本日の銀行送金レート: 1USD=114.65円で換算しております。
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水質センサーの世界市場 - 2016〜2020年 Global Water Quality Sensors Market 2016-2020
出版日: 2016年08月24日 ページ情報: 英文 70 Pages
概要

水質センサーの世界市場は2016年から2020年までの期間において7.35%のCAGR (年平均成長率)にて成長が続くものと予測されます。

当レポートは水質センサーの世界市場を取り上げ、市場成長促進要因や市場が抱える課題、市場動向、また市場競争状況に関する詳細な調査を通じて、市場の現状分析ならびに2016年から2020年までの将来予測を行っています。

第1章 エグゼクティブ・サマリー

第2章 当レポートのカバー範囲

  • 基準年および市場予測期間
  • 市場規模算定
  • 地域市場分類
  • 共通通貨交換レート
  • 定義

第3章 市場調査手法

  • 調査手法
  • 経済指標

第4章 水質センサーの世界市場 - 序論

  • 市場に関する重要事項

第5章 水質センサーの世界市場 - 市場概況

  • 市場概要
  • 収益額ベースによる市場規模および将来予測
  • 出荷数ベースによる市場規模および将来予測
  • ASP (平均販売価格)動向
  • ファイブフォース分析

第6章 水質センサーの世界市場 - 用途別市場分類

  • 地下水/地表水
  • 飲料水
  • 廃水
  • 水産養殖
  • 海岸/河口
  • 研究所
  • その他

第7章 水質センサーの世界市場 - 地域別市場分類

  • 南北アメリカ地域
  • 欧州・中東・アフリカ地域
  • アジア太平洋地域

第8章 水質センサーの世界市場 - 成長促進要因

  • リアルタイムに水質をモニターする必要性
  • 富栄養化による水質汚染の進行
  • 水関連ビジネスで高い生産量を達成しまた損失を減らす必要性
  • "Plug and Sense" (測定器につなぎ込めば自動的に動作を開始)の水質センサーシステム

第9章 市場成長促進要因がもたらす影響

第10章 水質センサーの世界市場 - 課題

  • 高コストなデバイス
  • 設計の複雑さ
  • 経済的および政治的要因

第11章 市場成長促進要因と市場の課題とがもたらす影響

第12章 水質センサーの世界市場 - 動向

  • IoTの一部として働く水質センサーの出現
  • センサーにおけるナノ技術利用の拡大
  • 新興企業やベンチャーキャピタルが農場主にサポートを提供するための投資を進めている

第13章 ベンダー情勢

  • 市場競争シナリオ
  • その他の有力ベンダー

第14章 主要ベンダー分析

  • Eutech
  • Environmental Measurements
  • Libelium
  • Optiqua Technologies
  • Oakton
  • Thermo Fisher Scientific
  • YSI

第15章 付録

第16章 Technavioについて

図表
  • Exhibit 01: Major countries covered
  • Exhibit 02: Currency conversion rates
  • Exhibit 03: Application areas for water quality sensors
  • Exhibit 04: Market overview global water quality sensors market
  • Exhibit 05: Global water quality sensors market 2015-2020 ($ millions)
  • Exhibit 06: Global water quality sensors market 2015-2020 (units in millions)
  • Exhibit 07: ASP of water quality sensors
  • Exhibit 08: Five forces analysis
  • Exhibit 09: Global water quality sensors market by application 2015-2020 (revenue % share)
  • Exhibit 10: Global water quality sensors market by ground water/surface water application 2015-2020 ($ millions)
  • Exhibit 11: Global water quality sensors market by drinking water application 2015-2020 ($ millions)
  • Exhibit 12: Global water quality sensors market by waste water application segment 2015-2020 ($ millions)
  • Exhibit 13: Global water quality sensors market by aquaculture application 2015-2020 ($ millions)
  • Exhibit 14: Global water quality sensors market by coastal/estuarine application segment 2015-2020 ($ millions)
  • Exhibit 15: Global water quality sensors market by laboratory application 2015-2020 ($ millions)
  • Exhibit 16: Global water quality sensors market for others application segment 2015-2020 ($ millions)
  • Exhibit 17: EPA's finding for 13 top natural gas producing states in US
  • Exhibit 18: Market share of different regions 2015 and 2020 (revenue % share)
  • Exhibit 19: Global water quality sensors market by geography 2015-2020 ($ billions)
  • Exhibit 20: Water quality sensors market in Americas 2015-2020 ($ billions)
  • Exhibit 21: Water quality sensors market in EMEA 2015-2020 ($ billions)
  • Exhibit 22: APAC water quality sensors market 2015-2020 ($ billions)
  • Exhibit 23: Long-term effects of elevated concentrations of nitrate on shrimp production
  • Exhibit 24: Impact of drivers
  • Exhibit 25: Impact of drivers and challenges
  • Exhibit 26: Radio Interface supported by Libelium Waspmote
  • Exhibit 27: Other prominent vendors
  • Exhibit 28: Product segmentation: Oakton
  • Exhibit 29: Revenue from different business segments of Thermo Fisher Scientific
  • Exhibit 30: Revenue from different regions: Thermo Fisher Scientific
  • Exhibit 31: WQI range
  • Exhibit 32: Q values for DO
  • Exhibit 33: Q values for fecal coliform
  • Exhibit 34: Q values for pH
  • Exhibit 35: Q values for temperature change
  • Exhibit 36: Q values for total phosphate
  • Exhibit 37: Q values for nitrate
  • Exhibit 38: Q values for turbidity
  • Exhibit 39: Q values for TDS
目次
Product Code: IRTNTR10243

About Global Water Sensors Market

The global water sensors market is also part of the larger water industry. For checking the water quality, these sensors are used at different levels of the supply chain of the water industry such as by equipment and service companies, design and build service providers, at the water treatment facilities of all manufacturing units, and by government agencies and different utility companies such as water supply companies.

Technavio's analysts forecast the global water quality sensors market to grow at a CAGR of 7.35% during the period 2016-2020.

Covered in this report

The report covers the present scenario and the growth prospects of the global water quality sensors market for 2016-2020. To calculate the market size, the report considers the number of unit shipments of water quality sensors which include individual as well multiparameter sonde.

The market is divided into the following segments based on geography:

  • China
  • Germany
  • ROW
  • UK

Technavio's report, Global Water Quality Sensors Market 2016-2020, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.

Key vendors

  • Eutech
  • Oakton
  • Thermo Fisher Scientific
  • YSI

Other Prominent Vendors

  • Atlas Scientific
  • Hach Instruments
  • Hannah Instruments
  • HORIBA

Market driver

  • Need to monitor water quality on real-time basis
  • For a full, detailed list, view our report

Market challenge

  • Economic and political factors
  • For a full, detailed list, view our report

Market trend

  • Increasing use of nanotechnology in sensors
  • For a full, detailed list, view our report

Key questions answered in this report

  • What will the market size be in 2020 and what will the growth rate be?
  • What are the key market trends?
  • What is driving this market?
  • What are the challenges to market growth?
  • Who are the key vendors in this market space?
  • What are the market opportunities and threats faced by the key vendors?
  • What are the strengths and weaknesses of the key vendors?

You can request one free hour of our analyst's time when you purchase this market report. Details are provided within the report.

Table of Contents

PART 01: Executive summary

  • Highlights

PART 02: Scope of the report

  • Base year and forecast period
  • Market size calculation
  • Geographical segmentation
  • Common currency conversion rates
  • Definitions

PART 03: Market research methodology

  • Research methodology
  • Economic indicators

PART 04: Introduction

  • Key market highlights

PART 05: Market landscape

  • Market overview
  • Market size and forecast by revenue
  • Market size and forecast by shipments
  • ASP trend
  • Five forces analysis

PART 06: Market segmentation by application

  • Ground water/surface water
  • Drinking water
  • Waste water
  • Aquaculture
  • Coastal/estuarine
  • Laboratory
  • Others

PART 07: Geographical segmentation

  • Americas
  • EMEA
  • APAC

PART 08: Market drivers

  • Need to monitor water quality on real-time basis
  • Growing nutrient pollution
  • Demand for high production and less loss in aqua business
  • Plug and sense water quality sensor systems

PART 09: Impact of drivers

PART 10: Market challenges

  • High cost of device
  • Design complexity
  • Economic and political factors

PART 11: Impact of drivers and challenges

PART 12: Market trends

  • Emergence of water quality sensors as part of IoT
  • Increasing use of nanotechnology in sensors
  • Startups and venture capitalist investing to provide support to farmers
  • PART 13: Vendor landscape
  • Competitive scenario
  • Other prominent vendors

PART 14: Key vendor

  • Eutech
  • Environmental Measurements
  • Libelium
  • Optiqua Technologies
  • Oakton
  • Thermo Fisher Scientific
  • YSI

PART 15: Appendix

  • Q values of different parameters for finding WQI using nanotechnology

PART 16: Explore Technavio

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