Global Fire Fighting Foam Market Outlook 2017-2021

Market Research

Fire Fighting Foam 2017 report studies in Global Market, especially in Europe, North America, South America, Asia (Excluding China), China and ROW, with definitions, classifications, applications and industry chain structure, development trends, competitive landscape analysis, and key regions development and import/export status to 2021.

Firefighting foam is a foam used for fire suppression. Its role is to cool the fire and to coat the fuel, preventing its contact with oxygen, resulting in suppression of the combustion. Fire-fighting foam was invented by the Russian engineer and chemist Aleksandr Loran in 1902. The surfactants used must produce foam in concentration of less than 1%. Other components of fire-retardant foams are organic solvents (e.g., trimethyl-trimethylene glycol and hexylene glycol), foam stabilizers (e.g., lauryl alcohol), and corrosion inhibitors. Low-expansion foams have an expansion rate less than 20 times. Low-expansion foams such as AFFF are low-viscosity, mobile, and able to quickly cover large areas. Medium-expansion foams have an expansion ratio of 20–100. High-expansion foams have an expansion ratio over 200–1000. They are suitable for enclosed spaces such as hangars, where quick filling is needed. Alcohol-resistant foams contain a polymer that forms a protective layer between the burning surface and the foam, preventing foam breakdown by alcohols in the burning fuel. Alcohol-resistant foams should be used in fighting fires of fuels containing oxygenates, e.g. MTBE, or fires of liquids based on or containing polar solvents.

The global fire fighting foam production, which measures output worldwide, was expected to reach xx thousand tons in 2016 with an increase of xx% from its year-earlier level. The global fire fighting foam market size is estimated to grow from USD xx million in 2011 to USD xx million by 2016, at an estimated CAGR of xx% between 2011 and 2016. With regards to this, key players of fire fighting foam industry are expected to find potential opportunities in this market.

The global fire fighting foam market report profiles some of the key technological developments in the recent times. It also profiles some of the leading players in the market and analyzes their key strategies. The competitive landscape section of the report provides a clear insight into the market share analysis of key industry players. The major players in the global fire fighting foam market are Tyco, ICL, DIC, Angus Fire, Kerr Fire, Amerex, Delta Fire, Naffco, Dafo Fomtec, Kidron, etc.

The global fire fighting foam industry is relatively fragmented, with the market share of top 10 fire fighting foam producers at xx%.

Table of Contents

Part 1. Scope of Report
1.1 Methodology
1.2 Geographic Scope
1.3 Years Considered
Part 2. Exclusive Summary
Part 3. Introduction
3.1 Definition
3.2 Types of Fire Fighting Foam
3.2.1 Protein Foam
3.2.1 Fluoroprotein Foam
3.2.3 Film Forming Fluoroprotein (FFFP)
3.2.4 Alcohol Resistant FFFP (AR-FFFP)
3.2.5 Standard Aqueous Film-Forming Foam (AFFF)
3.2.6 Alcohol Resistant Aqueous Film Forming Foam (AR-AFFF)
3.2.7 Medium and High Expansion Foam
3.2.8 Class A Foam Concentrates
Part 4. Value Chain Analysis
4.1 Raw Materials
4.1.1 Sodium Hydroxide
4.1.2 Isopropyl Alcohol
4.1.3 Fluorosurfactants
4.1.4 2-Butoxyethanol
4.1.5 Magnesium Sulfate
4.1.6 Xanthan Gum
4.1.7 Alkyl Polyglycosides
4.1.8 PEG
4.2 Equipment
4.3 Applications
Part 5. Manufacture
5.1 Manufacturing Process
5.1.1 Protein Foams
5.1.2 Synthetic Foams
5.1.3 Class A Foam
5.2 Manufacturing Costs
Part 6. Worldwide Key Vendors
6.1 Tyco (UK)
6.1.1 Business Overview
6.1.2 Products Offered
6.1.3 Business Performance
6.2 Angus Fire (UK)
6.2.1 Business Overview
6.2.2 Products Offered
6.2.3 Business Performance
6.3 Kerr Fire (UK)
6.3.1 Business Overview
6.3.2 Products Offered
6.3.3 Business Performance
6.4 Delta Fire (UK)
6.4.1 Business Overview
6.4.2 Products Offered
6.4.3 Business Performance
6.5 Dr. Sthamer (Germany)
6.5.1 Business Overview
6.5.2 Products Offered
Fluorine containing
Fluorine containing
Fluorine containing
6.5.3 Business Performance
6.6 Dafo Fomtec (Sweden)
6.6.1 Business Overview
6.6.2 Products Offered
6.6.3 Business Performance
6.7 Amerex Corporation (USA)
6.7.1 Business Overview
5.7.2 Products Offered
6.7.3 Business Performance
6.8 ICL (Israel)
6.8.1 Business Overview
6.8.2 Products Offered
6.8.3 Business Performance
6.9 Kidron (Israel)
6.9.1 Business Overview
6.9.2 Products Offered
6.9.3 Business Performance
6.10 DIC (Japan)
6.10.1 Business Overview
6.10.2 Products Offered
6.10.3 Business Performance
6.11 Naffco (UAE)
6.3.1 Business Overview
6.11.2 Products Offered
6.11.3 Business Performance
6.12 Fire Service Plus (USA)
6.12.1 Business Overview
6.12.2 Products Offered
6.12.3 Business Performance
6.13 Suolong (China)
6.13.1 Business Overview
6.13.2 Products Offered
6.13.3 Business Performance
6.14 Liuli (China)
6.14.1 Business Overview
6.14.2 Products Offered
6.14.3 Business Performance
6.15 Shield (China)
6.15.1 Business Overview
6.15.2 Products Offered
6.15.3 Business Performance
6.16 Langchao (China)
6.16.1 Business Overview
6.16.2 Products Offered
6.16.3 Business Performance
6.17 Jiangya (China)
6.17.1 Business Overview
6.17.2 Products Offered
6.17.3 Business Performance
6.18 Yuheng (China)
6.18.1 Business Overview
6.18.2 Products Offered
6.18.3 Business Performance
6.19 Hongtai (China)
6.19.1 Business Overview
6.19.2 Products Offered
6.19.3 Business Performance
6.20 Shiren (China)
6.20.1 Business Overview
6.20.2 Products Offered
6.20.3 Business Performance
6.21 Tianhe (China)
6.21.1 Business Overview
6.21.2 Products Offered
6.21.3 Business Performance
6.22 Ongoing (China)
6.22.1 Business Overview
6.22.2 Products Offered
6.22.3 Business Performance
6.23 Huate (China)
6.23.1 Business Overview
6.23.2 Products Offered
6.23.3 Business Performance
6.24 Sanjiang (China)
6.24.1 Business Overview
6.24.2 Products Offered
6.24.3 Business Performance
6.25 Nenglin (China)
6.25.1 Business Overview
6.25.2 Products Offered
6.25.3 Business Performance
Part 7. Market Overview
7.1 Global Production Volume 2011-2016
7.2 Production Volume by Region 2011-2016
7.2.1 China
7.2.2 North America
7.2.3 EMEA
7.2.4 Asia-Pacific
7.3 Global Production Value 2011-2016
7.4 Production Value by Region
7.4.1 China
7.4.2 North America
7.4.3 EMEA
7.4.4 Asia-Pacific
Part 8. Consumption Pattern
8.1 Regional Consumption
8.1.1 China
8.1.2 North America
8.1.3 EMEA
8.1.4 Asia-Pacific
8.2 Global Consumption by Application
8.3 Chinese Consumption by Application
8.4 Global Consumption by Products
Part 9. Market Forecast
9.1 Market Size Forecast
9.1.1 Market Size by Volume (K Tons)
9.1.2 Market Size by Value (M USD)
9.2 Regional Consumption Forecast
9.2.1 China
9.2.2 North America
9.2.3 EMEA
9.2.4 Asia-Pacific
9.3 Consumption Forecast by Application
9.4 Consumption Forecast by Products
Part 10. Market Dynamics
10.1 Market Drivers
10.2 Market Constraints
10.2.1 Entry Barriers
10.2.2 Rising Labor Costs
10.2.3 Exchange Rate
10.2.4 Environmental Concerns
10.3 Market Strategies
10.4 Key Events
Part 11. Investment Feasibility
11.1 Investment in China
11.1.1 Outlook on investment
11.1.2 Growth opportunities
11.1.3 Policy Trends
11.1.4 Conclusions
11.2 Feasibility of New Project
11.2.1 Basis and Presumptions
11.2.2 New Project in China

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