On-Site Hydrogen Generator Market - U.S. Industry Analysis, Size, Share, Growth, Trends and Forecast 2015 - 2023

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Research
On-Site Hydrogen Generator Market - U.S. Industry Analysis, Size,
Share, Growth, Trends and Forecast 2015 - 2023
Published Date
11-Feb-2016
78 Page Report
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U.S. On-Site Hydrogen Generator Market to Expand at CAGR of
5.0% till 2023: Transparency Market Research
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U.S. On-Site Hydrogen Generator Market
REPORT DESCRIPTION
On-Site Hydrogen Generator Market - U.S. Industry Analysis, Size, Share, Growth, Trends and
Forecast 2015 - 2023
Transparency Market Research has released a new market report titled “U.S. On-Site Hydrogen Generator
Market, by Category [Alkaline and Non-Alkaline (Proton Exchange Membrane)] and by Flow Rate
(<100Nm3/h, 100-2,000Nm3/h, and >2,000Nm3/h) – U.S. Industry Analysis, Size, Share, Growth, Trends
and Forecast, 2015–2023.” According to this report, the U.S. on-site hydrogen generator market was
valued at US$99 mn in 2014 and is projected to reach US$154 mn by 2023 at a CAGR of 5.0% from 2015
to 2023.
Complete Report On-Site Hydrogen Generator Market with TOC :
http://www.transparencymarketresearch.com/us-onsite-hydrogen-generator-market.html
On-site hydrogen generators utilize platinum catalyst and proton exchange membrane (PEM) technology to
fragment deionized water into its constituent parts. Hydrogen is generated at 13.8 bar/200 psi pressure
without a compressor and with a purity of 99.9995% constantly and without operator intervention. On-site
hydrogen generators provide reliable and low-cost hydrogen and increase security and safety by
eliminating cylinder handling, hydrogen storage, and routine hydrogen delivery. Steam reforming, cracking,
gasification, and electrolysis are some of the major technologies used to produce hydrogen. Additionally,
steam reforming is one of the most dominant technology employed in large-scale hydrogen production
using natural gas, naphtha, kerosene, or LPG as a feedstock.
Steam methane reforming is the most economical way to produce hydrogen. It involves two primary
reactions: the reforming reaction and the water gas shift reaction. In the reforming reaction, natural gas is
mixed with steam and is heated at very high temperatures to produce carbon monoxide and hydrogen. In
order to produce additional hydrogen, carbon monoxide from the reforming reaction interacts with steam
in the water gas shift reactor. Commonly utilized feedstocks in steam reformers are natural gas and
naphtha. Steam reformers are segmented based on the type such as pre-reformers, primary reformers,
compact reformers, and secondary reformers.
Hydrogen is used in a large number of applications ranging from petroleum recovery, chemical processing,
and refining to fuel cells and metal production. However, petroleum recovery and ammonia production are
the major markets for hydrogen. The global transportation industry is growing at a high rate and is
considered to be one of the most attractive markets for hydrogen in the future. Category and flow rate
segments are likely to be the major markets for on-site hydrogen generators in the near future. Increasing
application of fuel cells is likely to stimulate the market demand for on-site hydrogen generators during the
forecast period. The industry trend is likely to show preference toward smaller sized hydrogen generators
in the future. However, majority of such hydrogen generators are still in the development and prototyping
phase.
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With the increasing number of refineries and petrochemical complexes coming up in the U.S., the on-site
hydrogen generator market is likely to grow at a high rate in the future. Large populations in the U.S. also
significantly boost the demand for hydrogen in ammonia production capacities, further increasing the
demand for on-site hydrogen generators.
The on-site hydrogen generator market has been segmented on the basis of category and flow rate. In
2014, 100-2,000Nm3/h flow rate segment accounted for nearly 44% of the overall market share in the U.S.
Additionally, flow rate segments lesser than 100Nm3/h and greater than 2,000Nm3/h occupied the market
shares of nearly 32% and 24%, respectively, in the same year. On-site hydrogen generators with a flow
rate of <100Nm3/h are high in demand due to their compactness and efficient operation. Considering the
fact that the on-site hydrogen generators ranging 100-2,000Nm3/h are used mostly in all types of
industrial applications, demand for these generators is anticipated to be high during the forecast period.
The on-site hydrogen generator market has been segmented as follows:
U.S. On-Site Hydrogen Generator Market: By Category
•
Alkaline
•
Non-Alkaline (Proton Exchange Membrane)
U.S. On-Site Hydrogen Generator Market: By Flow Rate
•
<100Nm3/h
•
100-2,000Nm3/h
•
>2,000Nm3/h
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TABLE OF CONTENT
Section 1 Preface
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Report Description
Market Segmentation
Research Scope
Research Methodology
Section 2 Executive Summary
Executive Summary
Section 3 Industry Analysis
Introduction
Value Chain Analysis
Market Dynamics
Market Drivers
Market Restrains
Market Opportunities
Porter’s Five Forces Analysis
Bargaining Power of Suppliers
Bargaining Power of Buyers
Threat of Substitutes
Threat of New Entrants
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Degree of Competition
Company Market Share- On-Site Hydrogen Generator Market, 2014
Market Attractiveness Analysis- On-Site Hydrogen Generator Market, By States
Section 4 U.S. On-Site Hydrogen Generator Market – Category Segment, by Volume and
Revenue, 2014 – 2023 (Units) (US$ Mn)
Overview
Alkaline
Non Alkaline (Proton Exchange Membrane)
Section 5 U.S. On-Site Hydrogen Generator Market – Flow Rate Segment, by Volume and
Revenue, 2014 – 2023 (Units) (US$ Mn)
Overview
<100Nm3/h
100-2,000Nm3/h
>2,000Nm3/h
Section 7 Company Profiles
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Air Liquide
Air Products and Chemicals, Inc.
Praxair Technology, Inc.
Proton OnSite, Inc.
Hy9 Corporation
Hydrogenics
Nuvera Fuel Cells, Inc.
Linde AG
Complete Report On-Site Hydrogen Generator Market with TOC :
http://www.transparencymarketresearch.com/us-onsite-hydrogen-generator-market.html
About Us
Transparency Market Research is a market intelligence company providing global business information
reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forwardlooking insight for thousands of decision makers.
We are privileged with highly experienced team of Analysts, Researchers and Consultants, who use
proprietary data sources and various tools and techniques to gather, and analyze information. Our
business offerings represent the latest and the most reliable information indispensable for businesses to
sustain a competitive edge.
Contact
Transparency Market Research
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USA - Canada Toll Free 866-552-3453
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Website: http://www.transparencymarketresearch.com/
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Transparency Market Research has released a new market report titled “U.S. On-Site Hydrogen Generator Market, by Category [Alkaline and Non-Alkaline (Proton Exchange Membrane)] and by Flow Rate (<100Nm3/h, 100-2,000Nm3/h, and >2,000Nm3/h) – U.S. Industry Analysis, Size, Share, Growth, Trends and Forecast, 2015–2023.” According to this report, the U.S. on-site hydrogen generator market was valued at US$99 mn in 2014 and is projected to reach US$154 mn by 2023 at a CAGR of 5.0% from 2015 to 2023. Complete Report On-Site Hydrogen Generator Market with TOC : http://www.transparencymarketresearch.com/us-onsite-hydrogen-generator-market.html On-site hydrogen generators utilize platinum catalyst and proton exchange membrane (PEM) technology to fragment deionized water into its constituent parts. Hydrogen is generated at 13.8 bar/200 psi pressure without a compressor and with a purity of 99.9995% constantly and without operator intervention. On-site hydrogen generators provide reliable and low-cost hydrogen and increase security and safety by eliminating cylinder handling, hydrogen storage, and routine hydrogen delivery. Steam reforming, cracking, gasification, and electrolysis are some of the major technologies used to produce hydrogen. Additionally, steam reforming is one of the most dominant technology employed in large-scale hydrogen production using natural gas, naphtha, kerosene, or LPG as a feedstock.