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Frost Radar™: Hydrogen Production Technologies, 2021

Frost Radar™: Hydrogen Production Technologies, 2021

A Benchmarking System to Spark Companies to Action - Innovation That Fuels New Deal Flow and Growth Pipelines

RELEASE DATE
26-May-2021
REGION
Global
Deliverable Type
Technology Research
Research Code: D9EF-01-00-00-00
SKU: EG02156-GL-TR_25458
$4,950.00
In stock
SKU
EG02156-GL-TR_25458
$4,950.00
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Description

Driven by increasingly stringent environmental norms, growing environmental awareness, and policy-level initiatives, multiple stakeholders throughout the energy and power industry has begun adopting technology solutions adhering to zero-emission protocols. Among the several solutions, Hydrogen Production Technologies are garnering special interest due to their clean-combustion property (end products are just water and energy) and high energy density, when compared with traditional fossil fuel alternatives. Hydrogen Production Technologies can be categorized as grey, blue, and green hydrogen. Grey hydrogen is produced via fossil fuel utilization or by steam methane reforming of natural gas, blue hydrogen is produced via the fossil fuel route coupled with carbon capture and storage technology, and green hydrogen (the ultimate goal for hydrogen economy) is the cleanest possible hydrogen produced using electrolysis processes coupled with renewable energy. Grey hydrogen accounts for nearly 6% of global natural gas consumption and its production process is the most cost-effective. However, the process emits carbon dioxide and hence defies the idea of a clean energy source. To make the hydrogen production process environment friendly, industry participants have begun integrating carbon capture and storage technologies to grey hydrogen, i.e., blue hydrogen. The transition from grey to blue hydrogen is expected to continue until green hydrogen technologies become cost competitive. Green hydrogen enables emission-free production of hydrogen that is potentially applicable for a wide array of end-use sectors, industries, and applications: industrial heating, automotive, steel manufacturing, chemical industries, refineries, fertilizer manufacturing, and energy generation. Frost & Sullivan independently plotted the top 12 companies in this Frost Radar™ analysis. This includes – Siemens AG, Cummins Inc., Linde plc, Air Liquide, Nel Hydrogen, Asahi Kasei, Air Products, ITM Power, GHS, Mahler, HyGear, and HOELLER.

Table of Contents

Strategic Imperative

Strategic Imperative (Continued)

The Growth Environment

The Growth Environment (Continued)

The Growth Environment (Continued)

Frost Radar™: Hydrogen Production Technologies

Frost Radar™

Air Liquide

Air Products

Asahi Kasei

Cummins Inc.

Green Hydrogen Systems

HOELLER Electrolyzer GmbH

HyGear

ITM Power

Linde plc

Mahler AGS

Nel Hydrogen

Siemens AG

Strategic Insights

Significance of Being on the Frost Radar™

Frost Radar™ Empowers the CEO’s Growth Team

Frost Radar™ Empowers Investors

Frost Radar™ Empowers Customers

Frost Radar™ Empowers the Board of Directors

Frost Radar™: Benchmarking Future Growth Potential

Frost Radar™: Benchmarking Future Growth Potential

Legal Disclaimer

Driven by increasingly stringent environmental norms, growing environmental awareness, and policy-level initiatives, multiple stakeholders throughout the energy and power industry has begun adopting technology solutions adhering to zero-emission protocols. Among the several solutions, Hydrogen Production Technologies are garnering special interest due to their clean-combustion property (end products are just water and energy) and high energy density, when compared with traditional fossil fuel alternatives. Hydrogen Production Technologies can be categorized as grey, blue, and green hydrogen. Grey hydrogen is produced via fossil fuel utilization or by steam methane reforming of natural gas, blue hydrogen is produced via the fossil fuel route coupled with carbon capture and storage technology, and green hydrogen (the ultimate goal for hydrogen economy) is the cleanest possible hydrogen produced using electrolysis processes coupled with renewable energy. Grey hydrogen accounts for nearly 6% of global natural gas consumption and its production process is the most cost-effective. However, the process emits carbon dioxide and hence defies the idea of a clean energy source. To make the hydrogen production process environment friendly, industry participants have begun integrating carbon capture and storage technologies to grey hydrogen, i.e., blue hydrogen. The transition from grey to blue hydrogen is expected to continue until green hydrogen technologies become cost competitive. Green hydrogen enables emission-free production of hydrogen that is potentially applicable for a wide array of end-use sectors, industries, and applications: industrial heating, automotive, steel manufacturing, chemical industries, refineries, fertilizer manufacturing, and energy generation. Frost & Sullivan independently plotted the top 12 companies in this Frost Radar™ analysis. This includes – Siemens AG, Cummins Inc., Linde plc, Air Liquide, Nel Hydrogen, Asahi Kasei, Air Products, ITM Power, GHS, Mahler, HyGear, and HOELLER.
More Information
Deliverable Types Technology Research
No Index No
Podcast No
Author Vijay Wilfred
Industries Energy
WIP Number D9EF-01-00-00-00
Is Prebook No