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World Nanocatalysts Industry

  • January 2015
  • -
  • Global Industry Analysts
  • -
  • 198 pages

This report analyzes the worldwide markets for Nanocatalysts in US$ Million by the following End-Use Segments: Refinery, Petrochemical, Pharmaceuticals, Chemical Industry, Food Processing, Environmental Applications, and Others. The report provides separate comprehensive analytics for the US, Japan, Europe, Asia-Pacific, and Rest of World. Annual estimates and forecasts are provided for the period 2013 through 2020. Also, a seven-year historic analysis is provided for these markets. Market data and analytics are derived from primary and secondary research. Company profiles are primarily based on public domain information including company URLs. The report profiles 28 companies including many key and niche players such as -

BASF SE
CDTi
Headwaters, Inc.
Hyperion Catalysis International
Johnson Matthey Plc

Table Of Contents

World Nanocatalysts Industry



I. INTRODUCTION, METHODOLOGY and PRODUCT DEFINITIONS
Study Reliability and Reporting Limitations I-1
Disclaimers I-2
Data Interpretation and Reporting Level I-2
Quantitative Techniques and Analytics I-3
Product Definitions and Scope of Study I-3


II. EXECUTIVE SUMMARY

1. INDUSTRY OVERVIEW II-1
Nanotechnology - A Curtain Raiser II-1
Nanoscience - Breaking Conventional Size Barriers II-2
New Discoveries Bridge the Gap between Organic and Inorganic
Materials II-2
A Peek into the World of Possibilities with Nanotechnology II-3
Nanotechnology Market Gathering Momentum II-3
Enabling Technologies - Need of the Hour II-3
Nanotechnology in Catalysis - A Prelude II-4
Expanding Applications of Nanocatalysts II-5
Impact of Recent Economic Recession in Retrospect II-6
Resurgence in Global Economy Reinstates Stable Growth Momentum
in Nanotechnology Market in 2010 II-7
Nanocatalysts Market Fares Relatively Better Amidst Eurozone
Crisis II-7
Outlook II-8

2. MARKET TRENDS, GROWTH DRIVERS and ISSUES II-9
Petroleum Refineries: The Traditional and the Largest Revenue
Contributor II-9
Opportunity Indicator: II-10
Table 1: Global Demand for Petroleum Products (2011-2035)
(includes corresponding Graph/Chart) II-10
Nanocatalyst Applications in Oil Refineries II-11
Cracking Catalysts II-11
Hydro-Desulfurization (HDS) II-11
Reformer Catalysts II-11
Heavy Oil Upgrading II-12
Coal Liquefaction II-12
Other Applications II-12
Production of Premium Gas Made Easy by Nanocatalysts II-12
Stringent Emission Regulations Drive Demand for Nanocatalysts
in Refining Process II-12
Nanocatalysts to Refine Gasoline Production Process II-13
Zeolite - The Most Popular Ingredient of Refinery Catalysts II-13
Environmental Applications: The Fastest Growing End-Use Segment II-13
Stringent Emission Control Norms Drive Demand for Nano
Enabled Emission Control Catalysts II-13
Opportunity Indicators II-14
Table 2: Global Emission Control Catalysts Market (2014 and
2020): Breakdown of Annual Revenue in US$ Million by
Region/Country (includes corresponding Graph/Chart) II-14

Table 3: Global Emission Control Catalysts Market (2014):
Percentage Share Breakdown of Revenue by Product Segment
(includes corresponding Graph/Chart) II-14
Demand for Nanocatalyst Enabled-Catalytic Converters for
Automobiles and Industrial Engine-Driven Applications Drive
Nanocatalysts Market II-15
Automotive Catalytic Converters - A Major Market for
Nanocatalysts II-15
Opportunity Indicators for Nanocatalysts in Automotive Market: II-16
Table 4: Global Automotive Market: Breakdown of Unit Sales
(in ‘000s) for Passenger Cars and Commercial Vehicles for
Years 2013, 2015 and 2018 (includes corresponding
Graph/Chart) II-16

Table 5: Global Automotive Market: Breakdown of Units
Produced (in ‘000s) for Passenger Cars and Commercial
Vehicles for Years 2013, 2015 and 2018 (includes
corresponding Graph/Chart) II-16
Emissions Regulations Landscape in Major Country/Region II-17
Nanocatalysts to Gain Ground in Diesel Engine Emissions
Remediation II-17
Advanced Lean-Burn Engine Emission Control Systems II-17
Diesel Based Fuel Additives II-17
Petroleum Industries Adopt Nanocatalysts for Emissions
Control in Refining Units II-18
Focus on Reducing Emissions in Coal-Fired Power Plants Boosts
Nanocatalysts Market II-18
Air Purification Systems II-18
Cleaning up Paper Mill Waste Stream II-19
Water Treatment: A Niche Application Area II-19
Nanocatalysts Exhibit High Efficiency in HOC Removal in Waste
Water Treatment II-19
Nano-Size Titanium Dioxide Gains Popularity in Waste Water
Treatment II-20
Demand from Chemical Industry Boosts Nanocatalysts Market II-20
Key Application Areas in Chemical Processes II-21
Detergents II-21
Ethanol Production II-21
Agricultural Chemicals II-21
Production of Hydrogen Peroxide with Higher Selectivity to
the Desired Product II-21
Demand from Pharmaceutical Industry Provides Traction II-21
Reduction in Wastage and Side-Products - A Key Application Area II-22
Food Processing - An Established Commercial Application II-22
Nanocatalysts as Food Enzymes in Processed Foods Market II-22
Nanocatalyst Applications in Energy Sector II-22
Nanocatalysts Eye Bigger Role in Conversion of Natural Gas
into Quality Chemicals and Clean Fuels II-23
Opportunity Indicators: II-23
Table 6: Global Natural Gas Market (2013): Percentage Share
Breakdown of Production by Geographic Region (includes
corresponding Graph/Chart) II-23

Table 7: Global Natural Gas Market (2013): Percentage Share
Breakdown of Consumption by Geographic Region (includes
corresponding Graph/Chart) II-24

Table 8: Global Natural Gas Market (2013): Percentage Share
Breakdown of Consumption by Country (includes corresponding
Graph/Chart) II-24
Growing Acceptance of Nanocatalysts in Biomass to Biofuel
Conversion Bodes Well for the Market II-24
Opportunity Indicators: II-25
Table 9: Global Biofuel Market (2013): Percentage Share
Breakdown of Volume Production by Country/Region (includes
corresponding Graph/Chart) II-25

Table 10: Global Biofuel Market (2013): Percentage Share
Breakdown of Volume Consumption by Country/Region (includes
corresponding Graph/Chart) II-25
Emphasis on Efficient Bio-Diesel Production to Boost
Nanocatalyst Market II-25
Opportunity Indicator: II-26
Table 11: Global Biodiesel Market (2013): Percentage Share
Breakdown of Volume Consumption by Country/Region (includes
corresponding Graph/Chart) II-26
Nanocatalysts Seek New Opportunities in Solar Cells II-26
Fuel Cells Entice Nanocatalysts II-27
Nanostructured Catalysts for Efficient Pem Fuel Cells II-27
Growing RandD in Fuel Cell Technology Expected to Provide
Traction to the Nanocatalyst Market II-27
Additives for Fuel and Explosives II-28
Nanocatalyst Applications in Polymer Production II-28
Trend Towards Green Chemistry Drives Nano Catalysts Market II-28
High Demand for Bioplastics Drives Nanocatalyst Market II-29
Production of Green Ammonia Provides Traction II-29
High Demand for Carbon Nanotubes II-29
Gold as Nano Scale Catalysts Gathers Steam II-30
Strong RandD Efforts, New Product and Application Developments
Spearhead Growth II-30
Bimetallic Nanocatalysts Gaining Popularity at the Expense of
Monometallic NCs II-30
Advancements in Metrology Critical to the Efficiency of
Nanocatalysts II-30
New Dual-Layered Nanocatalyst Tolerant to Carbon Monoxide
Developed II-31
RandD Efforts Find Efficacy of Nickel Phosphide Nanocatalyst in
Hydrogen Production II-31
Dow Chemicals Develops Highly Innovative Nano- Catalyst for
Producing Bio-Plastics II-31
New Nanocatalyst for Purifying Wastewater from Pharmaceutical
Industries II-32
Snapshot of Select US Players and their Product Innovations
Over the Years II-32
Mach I® Inc. II-32
CDTi II-32
Nanophase Technologies Corp. II-32
Quantumsphere® II-32
Hyperion Catalysis International Inc. II-32

3. PRODUCT OVERVIEW II-33
What is a Catalyst? II-33
Types of Catalysts II-33
Chemical Industry Catalysts II-33
Polymerization Catalysts II-33
Petroleum Refining Catalysts II-34
Environmental Catalysts II-34
The Need for Catalysts II-34
Catalysts Soon to be Replaced by Nanotechnology Upgrades II-34
Nanotechnology II-34
Nanotechnology Segments II-35
Nanomaterials and Their Impact on Health II-35
Nanoparticles II-36
Classification of Nanoparticles II-36
Production of Nanoparticles II-36
Measuring Nanoparticles II-36
Measurement of Mass II-36
Measurement of Surface Area II-37
Nanotechnology Applications II-38
Versatility of Nanotechnology II-39
Convergence of Nanotechnology with Catalysts II-39
Nanocatalysts II-40
Introduction and Definition II-40
Major End-Use Industries II-40
Performance of Nanocatalysts Thrives on Nanotechnology II-41
Properties of Nanocatalysts II-41
Diverse Physical Properties II-41
Innovative Application Techniques II-41
Increased Area of Action II-42
Nanocatalysts - Brief History II-42
Nanocatalysts - The Next Gen Catalysts II-42
Control Over Nanoparticle Size II-43
Control Over Nanoparticle Composition II-43
Control Over Nanoparticle Structure II-43
Nanoparticle Anchoring II-44
Types of Nanocatalysts II-44
Zeolites II-45
Sources of Zeolite II-45
Uses of Zeolites II-46
Domestic and Commercial II-46
Heating and Refrigeration II-47
Agriculture II-47
Detergents II-47
Gemstones II-47
Medical II-47
Construction II-48
Transition Metal Nanocatalysts II-48
Introduction II-48
Applications and Benefits II-49
Industrial Enzymes II-50
Transition Metal Oxides II-50
Metallocene Catalyst II-50
Carbon Nanotubes II-51
Types of Carbon Nanotubes II-52
Single-Walled Nanotubes II-52
Multi-Walled Nanotubes II-53
Fullerite II-53
Torus II-53
Properties of CNTs II-53
Strength II-53
Kinetic Property II-54
Electrical and Thermal Properties II-54
Structural Defects II-54
Production Methods of CNTs II-54
Arc Discharge II-54
Laser Ablation II-55
Chemical Vapor Deposition (CVD) II-55
Benefits of CNTs II-55
Probable Future Applications of CNTs II-55

4. PRODUCT LAUNCHES/TECHNOLOGICAL INNOVATIONS II-57
Brookhaven National Laboratory Develops New Nanocatalyst to
Power Hydrogen Production II-57
US and Chinese Researchers Introduces Platinum-Cobalt
Nanocatalysts for Supporting Fischer-Tropsch Synthesis II-57
Penn State University Researchers Demonstrate New Nano-
Catalyst to Potentially Enable Hydrogen Production II-57
Los Alamos National Laboratory Scientists Design New Cheaper
Nano-Structured Carbon-Based Catalyst II-57
University of Michigan Research Team Develops Technique to
Produce Propylene Oxide Using Copper Nanoparticles II-57
KIST Designs a New Metal Nanocatalyst for Recurrent Use II-58
Dow to Develop New Nanocatalyst for Plastics Manufacturing II-58
Researchers at University of Minnesota Lead a Global Team to
Develop a New Catalyst II-58
Boston College Canvassers Develops a Thin-Skinned Nanocatalyst
to Regulate Chemical Reactions II-58
DOE's Berkeley Lab Scientists Introduces Heterogenized
Homogeneous Nanocatalysts II-58
KAIST-based Research Team Develops New Technology to Improve
Catalytic Property of Nano-Catalysts II-59
A*STAR Researchers Develop a New Imaging Technology II-59

5. RECENT INDUSTRY DEVELOPMENTS II-60
Huntsman Takes Over Rockwood Holdings Performance Additives
and Titanium Dioxide Businesses II-60
Clean Diesel Technologies to Relocate Corporate Headquarters II-60
Clean Diesel Technologies Bags New Patents from the USPTO II-60
Umicore to Build a New Catalysts Manufacturing Facility in Poland II-60
Johnson Matthey Acquires A123's Chinese Cathode Materials
Manufacturing Facility II-60
HTI Enters into an Alliance with Axens II-60
Johnson Matthey Extends Metal Supply Agreement with Anglo
American Platinum II-61
Clean Diesel Technologies Receives Patent Approval for ZPGM
Catalyst Technology from USPTO II-61
Dow to Divest Global Polypropylene Licensing and Catalysts
Business to W. R. Grace and Co II-61
Umicore Shokubai Japan Launches New Technical RandD Center in Japan II-61
EU Introduces SusFuelCat Research Project II-61
RUB's Researchers Collaborate with Seven Countries to Develop
a Photocatalyst II-61
Bayer Closes Carbon Nanotube Project II-62
Dow Chemical Company and Utrecht University's Researchers
Collaborate to Create a New, Iron-Based Catalyst II-62
LamdaGen Partners with Biodico to Develop Clean Energy
Production through Nanotechnology II-62
Johnson Matthey to Expand Emission Control Catalysts
Production Unit in Macedonia II-62
Clean Diesel Technologies Changes Name to CDTi II-62

6. FOCUS ON SELECT PLAYERS II-63
BASF SE (Germany) II-63
CDTi (US) II-63
Headwaters, Inc. (US) II-64
Hyperion Catalysis International (US) II-64
Johnson Matthey Plc (UK) II-65
Mach I, Inc. (US) II-65
Nanophase Technologies Corporation (US) II-66
NexTech Materials Ltd. (US) II-66
PQ Corporation (US) II-66
Zeolyst International (US) II-67
Sachtleben Chemie Gmbh (Germany) II-67
Umicore (Belgium) II-68
W. R. Grace and Co. (US) II-68

7. GLOBAL MARKET PERSPECTIVE II-69
Table 12: World Recent Past, Current and Future Analysis for
Nanocatalysts by Geographic Region - US, Japan, Europe, Asia
Pacific and Rest of World Markets Independently Analyzed with
Annual Revenues in US$ Million for Years 2013 through 2020
(includes corresponding Graph/Chart) II-69

Table 13: World Historic Review for Nanocatalysts by
Geographic Region - US, Japan, Europe, Asia Pacific and Rest
of World Markets Independently Analyzed with Annual Revenues
in US$ Million for Years 2006 through 2012 (includes
corresponding Graph/Chart) II-70

Table 14: World 15-Year Perspective for Nanocatalysts by
Geographic Region - Percentage Breakdown of Revenues for US,
Japan, Europe, Asia Pacific and Rest of World Markets for
Years 2006, 2014 and 2020 (includes corresponding Graph/Chart) II-71

Table 15: World Recent Past, Current and Future Analysis for
Nanocatalysts in Refinery by Geographic Region - US, Japan,
Europe, Asia Pacific and Rest of World Markets Independently
Analyzed with Annual Revenues in US$ Million for Years 2013
through 2020 (includes corresponding Graph/Chart) II-72

Table 16: World Historic Review for Nanocatalysts in Refinery
by Geographic Region - US, Japan, Europe, Asia Pacific and
Rest of World Markets Independently Analyzed with Annual
Revenues in US$ Million for Years 2006 through 2012 (includes
corresponding Graph/Chart) II-73

Table 17: World 15-Year Perspective for Nanocatalysts in
Refinery by Geographic Region - Percentage Breakdown of
Revenues for US, Japan, Europe, Asia Pacific and Rest of World
Markets for Years 2006, 2014 and 2020 (includes corresponding
Graph/Chart) II-74

Table 18: World Recent Past, Current and Future Analysis for
Nanocatalysts in Petrochemicals by Geographic Region - US,
Japan, Europe, Asia Pacific and Rest of World Markets
Independently Analyzed with Annual Revenues in US$ Million for
Years 2013 through 2020 (includes corresponding Graph/Chart) II-75

Table 19: World Historic Review for Nanocatalysts in
Petrochemicals by Geographic Region - US, Japan, Europe, Asia
Pacific and Rest of World Markets Independently Analyzed with
Annual Revenues in US$ Million for Years 2006 through 2012
(includes corresponding Graph/Chart) II-76

Table 20: World 15-Year Perspective for Nanocatalysts in
Petrochemicals by Geographic Region - Percentage Breakdown of
Revenues for US, Japan, Europe, Asia Pacific and Rest of World
Markets for Years 2006, 2014 and 2020 (includes corresponding
Graph/Chart) II-77

Table 21: World Recent Past, Current and Future Analysis for
Nanocatalysts in Pharmaceuticals by Geographic Region - US,
Japan, Europe, Asia Pacific and Rest of World Markets
Independently Analyzed with Annual Revenues in US$ Million for
Years 2013 through 2020 (includes corresponding Graph/Chart) II-78

Table 22: World Historic Review for Nanocatalysts in
Pharmaceuticals by Geographic Region - US, Japan, Europe, Asia
Pacific and Rest of World Markets Independently Analyzed with
Annual Revenues in US$ Million for Years 2006 through 2012
(includes corresponding Graph/Chart) II-79

Table 23: World 15-Year Perspective for Nanocatalysts in
Pharmaceuticals by Geographic Region - Percentage Breakdown of
Revenues for US, Japan, Europe, Asia Pacific and Rest of World
Markets for Years 2006, 2014 and 2020 (includes corresponding
Graph/Chart) II-80

Table 24: World Recent Past, Current and Future Analysis for
Nanocatalysts in Chemical Industry by Geographic Region - US,
Japan, Europe, Asia Pacific and Rest of World Markets
Independently Analyzed with Annual Revenues in US$ Million for
Years 2013 through 2020 (includes corresponding Graph/Chart) II-81

Table 25: World Historic Review for Nanocatalysts in Chemical
Industry by Geographic Region - US, Japan, Europe, Asia
Pacific and Rest of World Markets Independently Analyzed with
Annual Revenues in US$ Million for Years 2006 through 2012
(includes corresponding Graph/Chart) II-82

Table 26: World 15-Year Perspective for Nanocatalysts in
Chemical Industry by Geographic Region - Percentage Breakdown
of Revenues for US, Japan, Europe, Asia Pacific and Rest of
World Markets for Years 2006, 2014 and 2020 (includes
corresponding Graph/Chart) II-83

Table 27: World Recent Past, Current and Future Analysis for
Nanocatalysts in Food Processing by Geographic Region - US,
Japan, Europe, Asia Pacific and Rest of World Markets
Independently Analyzed with Annual Revenues in US$ Million for
Years 2013 through 2020 (includes corresponding Graph/Chart) II-84

Table 28: World Historic Review for Nanocatalysts in Food
Processing by Geographic Region - US, Japan, Europe, Asia
Pacific and Rest of World Markets Independently Analyzed with
Annual Revenues in US$ Million for Years 2006 through 2012
(includes corresponding Graph/Chart) II-85

Table 29: World 15-Year Perspective for Nanocatalysts in Food
Processing by Geographic Region - Percentage Breakdown of
Revenues for US, Japan, Europe, Asia Pacific and Rest of World
Markets for Years 2006, 2014 and 2020 (includes corresponding
Graph/Chart) II-86

Table 30: World Recent Past, Current and Future Analysis for
Nanocatalysts in Environmental Applications by Geographic
Region - US, Japan, Europe, Asia Pacific and Rest of World
Markets Independently Analyzed with Annual Revenues in US$
Million for Years 2013 through 2020 (includes corresponding
Graph/Chart) II-87

Table 31: World Historic Review for Nanocatalysts in
Environmental Applications by Geographic Region - US, Japan,
Europe, Asia Pacific and Rest of World Markets Independently
Analyzed with Annual Revenues in US$ Million for Years 2006
through 2012 (includes corresponding Graph/Chart) II-88

Table 32: World 15-Year Perspective for Nanocatalysts in
Environmental Applications by Geographic Region - Percentage
Breakdown of Revenues for US, Japan, Europe, Asia Pacific and
Rest of World Markets for Years 2006, 2014 and 2020 (includes
corresponding Graph/Chart) II-89

Table 33: World Recent Past, Current and Future Analysis for
Nanocatalysts in Other End Use Applications by Geographic
Region - US, Japan, Europe, Asia Pacific and Rest of World
Markets Independently Analyzed with Annual Revenues in US$
Million for Years 2013 through 2020 (includes corresponding
Graph/Chart) II-90

Table 34: World Historic Review for Nanocatalysts in Other End
Use Applications by Geographic Region - US, Japan, Europe,
Asia Pacific and Rest of World Markets Independently Analyzed
with Annual Revenues in US$ Million for Years 2006 through
2012 (includes corresponding Graph/Chart) II-91

Table 35: World 15-Year Perspective for Nanocatalysts in Other
End Use Applications by Geographic Region - Percentage
Breakdown of Revenues for US, Japan, Europe, Asia Pacific and
Rest of World Markets for Years 2006, 2014 and 2020 (includes
corresponding Graph/Chart) II-92


III. MARKET

1. THE UNITED STATES III-1
A.Market Analysis III-1
Current and Future Analysis III-1
Petroleum Refineries - A Major End-Use Market for
Nanocatalysts in the US III-1
Major Technology Development Sectors for Petroleum Refining
Industry III-2
Green Movement in Industrial and Automotive Sectors Drives
Demand for Nanocatalysts in Emission Control Applications III-2
Table 36: US Greenhouse Gas Emissions by Source (2013) (
includes corresponding Graph/Chart) III-3
Table 37: North American Passenger Car Catalysts Market
(2013): Percentage Share Breakdown of Revenue by Leading
Players (includes corresponding Graph/Chart) III-3
Product Launches/Technological Innovations III-4
Strategic Corporate Developments III-5
Select Players III-7
B.Market Analytics III-12
Table 38: US Recent Past, Current and Future Analysis for
Nanocatalysts by End-Use Application - Refinery,
Petrochemical, Pharmaceuticals, Chemical Industry, Food
Processing, Environmental Applications, and Other Markets
Independently Analyzed with Annual Revenues in US$ Million
for Years 2013 through 2020 (includes corresponding
Graph/Chart) III-12

Table 39: US Historic Review for Nanocatalysts by End-Use
Application - Refinery, Petrochemical, Pharmaceuticals,
Chemical Industry, Food Processing, Environmental
Applications, and Other Markets Independently Analyzed with
Annual Revenues in US$ Million for Years 2006 through 2012
(includes corresponding Graph/Chart) III-13

Table 40: US 15-Year Perspective for Nanocatalysts by
End-Use Application - Percentage Breakdown of Revenues for
Refinery, Petrochemical, Pharmaceuticals, Chemical Industry,
Food Processing, Environmental Applications, and Other
Markets for Years 2006, 2014 and 2020 (includes corresponding
Graph/Chart) III-14

2. JAPAN III-15
A.Market Analysis III-15
Current and Future Analysis III-15
Strategic Corporate Development III-15
B.Market Analytics III-16
Table 41: Japanese Recent Past, Current and Future Analysis
for Nanocatalysts by End-Use Application - Refinery,
Petrochemical, Pharmaceuticals, Chemical Industry, Food
Processing, Environmental Applications, and Other Markets
Independently Analyzed with Annual Revenues in US$ Million
for Years 2013 through 2020 (includes corresponding
Graph/Chart) III-16

Table 42: Japanese Historic Review for Nanocatalysts by
End-Use Application - Refinery, Petrochemical,
Pharmaceuticals, Chemical Industry, Food Processing,
Environmental Applications, and Other Markets Independently
Analyzed with Annual Revenues in US$ Million for Years 2006
through 2012 (includes corresponding Graph/Chart) III-17

Table 43: Japanese 15-Year Perspective for Nanocatalysts by
End-Use Application - Percentage Breakdown of Revenues for
Refinery, Petrochemical, Pharmaceuticals, Chemical Industry,
Food Processing, Environmental Applications, and Other
Markets for Years 2006, 2014 and 2020 (includes corresponding
Graph/Chart) III-18

3. EUROPE III-19
A.Market Analysis III-19
Current and Future Analysis III-19
Strategic Corporate Developments III-19
Select Players III-20
B.Market Analytics III-22
Table 44: European Recent Past, Current and Future Analysis
for Nanocatalysts by Geographic Region - France, Germany, UK
and Rest of Europe Markets Independently Analyzed with
Annual Revenues in US$ Million for Years 2013 through 2020
(includes corresponding Graph/Chart) III-22

Table 45: European Historic Review for Nanocatalysts by
Geographic Region - France, Germany, UK and Rest of Europe
Markets Independently Analyzed with Annual Revenues in US$
Million for Years 2006 through 2012 (includes corresponding
Graph/Chart) III-23

Table 46: European 15-Year Perspective for Nanocatalysts by
Geographic Region - Percentage Breakdown of Revenues for
France, Germany, UK and Rest of Europe Markets for Years
2006, 2014 and 2020 (includes corresponding Graph/Chart) III-24

Table 47: European Recent Past, Current and Future Analysis
for Nanocatalysts by End-Use Application - Refinery,
Petrochemical, Pharmaceuticals, Chemical Industry, Food
Processing, Environmental Applications, and Other Markets
Independently Analyzed with Annual Revenues in US$ Million
for Years 2013 through 2020 (includes corresponding
Graph/Chart) III-25

Table 48: European Historic Review for Nanocatalysts by
End-Use Application - Refinery, Petrochemical,
Pharmaceuticals, Chemical Industry, Food Processing,
Environmental Applications, and Other Markets Independently
Analyzed with Annual Revenues in US$ Million for Years 2006
through 2012 (includes corresponding Graph/Chart) III-26

Table 49: European 15-Year Perspective for Nanocatalysts by
End-Use Application - Percentage Breakdown of Revenues for
Refinery, Petrochemical, Pharmaceuticals, Chemical Industry,
Food Processing, Environmental Applications, and Other
Markets for Years 2006, 2014 and 2020 (includes corresponding
Graph/Chart) III-27

4. ASIA-PACIFIC III-28
A.Market Analysis III-28
Current and Future Analysis III-28
Growing Interest on Using Nanocatalysts in Coal Liquefaction
in China III-28
Product Launches/Technological Innovations III-28
Strategic Corporate Development III-29
B.Market Analytics III-30
Table 50: Asia Pacific Recent Past, Current and Future
Analysis for Nanocatalysts by Geographic Region - China and
Rest of Asia-Pacific Markets Independently Analyzed with
Annual Revenues in US$ Million for Years 2013 through 2020
(includes corresponding Graph/Chart) III-30

Table 51: Asia Pacific Historic Review for Nanocatalysts by
Geographic Region - China and Rest of Asia-Pacific Markets
Independently Analyzed with Annual Revenues in US$ Million
for Years 2006 through 2012 (includes corresponding
Graph/Chart) III-31

Table 52: Asia Pacific 15-Year Perspective for Nanocatalysts
by Geographic Region - Percentage Breakdown of Revenues for
China and Rest of Asia-Pacific Markets for Years 2006, 2014 and
2020 (includes corresponding Graph/Chart) III-32

Table 53: Asia Pacific Recent Past, Current and Future
Analysis for Nanocatalysts by End-Use Application -
Refinery, Petrochemical, Pharmaceuticals, Chemical Industry,
Food Processing, Environmental Applications, and Other
Markets Independently Analyzed with Annual Revenues in US$
Million for Years 2013 through 2020 (includes corresponding
Graph/Chart) III-33

Table 54: Asia Pacific Historic Review for Nanocatalysts by
End-Use Application - Refinery, Petrochemical,
Pharmaceuticals, Chemical Industry, Food Processing,
Environmental Applications, and Other Markets Independently
Analyzed with Annual Revenues in US$ Million for Years 2006
through 2012 (includes corresponding Graph/Chart) III-34

Table 55: Asia Pacific 15-Year Perspective for Nanocatalysts
by End-Use Application - Percentage Breakdown of Revenues
for Refinery, Petrochemical, Pharmaceuticals, Chemical
Industry, Food Processing, Environmental Applications, and
Other Markets for Years 2006, 2014 and 2020 (includes
corresponding Graph/Chart) III-35

5. REST OF WORLD III-36
A.Market Analysis III-36
Current and Future Analysis III-36
Saudi Arabia - A Major Market for Oil Refinery Nanocatalysts III-36
B.Market Analytics III-37
Table 56: Rest of World Recent Past, Current and Future
Analysis for Nanocatalysts by End-Use Application -
Refinery, Petrochemical, Pharmaceuticals, Chemical Industry,
Food Processing, Environmental Applications, and Other
Markets Independently Analyzed with Annual Revenues in US$
Million for Years 2013 through 2020 (includes corresponding
Graph/Chart) III-37

Table 57: Rest of World Historic Review for Nanocatalysts by
End-Use Application - Refinery, Petrochemical,
Pharmaceuticals, Chemical Industry, Food Processing,
Environmental Applications, and Other Markets Independently
Analyzed with Annual Revenues in US$ Million for Years 2006
through 2012 (includes corresponding Graph/Chart) III-38

Table 58: Rest of World 15-Year Perspective for
Nanocatalysts by End-Use Application - Percentage Breakdown
of Revenues for Refinery, Petrochemical, Pharmaceuticals,
Chemical Industry, Food Processing, Environmental
Applications, and Other Markets for Years 2006, 2014 and 2020
(includes corresponding Graph/Chart) III-39


IV. COMPETITIVE LANDSCAPE

Total Companies Profiled: 28 (including Divisions/Subsidiaries - 30)

The United States (20)
Canada (1)
Europe (9)
- France (1)
- Germany (3)
- The United Kingdom (2)
- Rest of Europe (3)

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When Preparing This Special Report We Relied On The Proprietary Data Of The Market Report Company As Well As Data Of The Following Global Companies: Icis, Argus, Ihs, Fertecon, Ifa, Platts. The Overall ...

Desiccant Wheel Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2016 - 2024

Desiccant Wheel Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2016 - 2024

  • $ 6995
  • Industry report
  • September 2016
  • by Transparency Market Research

Global Desiccant Wheel Market: Overview Similar to thermal wheels, desiccant wheels are used solely for dehumidifying purposes. They can do so using specialized coatings that allow them to absorb moisture ...


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ref:plp2015

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