Hydrogen Fuel Cell Technology is Revolutionizing Energy - PowerPoint PPT Presentation

About This Presentation
Title:

Hydrogen Fuel Cell Technology is Revolutionizing Energy

Description:

Hydrogen is a clean, adaptable energy source that has a wide range of uses. The most prevalent and lightest chemical element in the universe is hydrogen. – PowerPoint PPT presentation

Number of Views:1
Slides: 5
Provided by: Rmarkets
Category: Other
Tags:

less

Transcript and Presenter's Notes

Title: Hydrogen Fuel Cell Technology is Revolutionizing Energy


1
Hydrogen Fuel Cell Technology is Revolutionizing
Energy
  • Hydrogen is a clean, adaptable energy source that
    has a wide range of uses. The most prevalent and
    lightest chemical element in the universe is
    hydrogen. The fundamental component of the
    universe, hydrogen is also an essential component
    of many chemical processes and reactions.
  • Download- https//www.marketsandmarkets.com/indust
    ry-practice/RequestForm.asp
  • These are some of the most widely utilized
    hydrogen technologies, along with a comparison of
    the benefits and drawbacks of each
  • Steam Methane Reforming (SMR) Approximately 95
    of hydrogen produced worldwide is produced via
    SMR, the most widely used technology. In the
    presence of a catalyst, methane and steam are
    reacted to form carbon dioxide and hydrogen.
  • Electrolysis Water may be split into hydrogen
    and oxygen using an electrical process called
    electrolysis. Both alkaline and proton exchange
    membrane (PEM) electrolysis are forms of the
    process. Although producing hydrogen carbon-free
    by electrolysis calls for a large amount of
    electricity, which can originate from
    non-renewable sources, it is nevertheless
    possible.

2
  • Biomass Gasification Burning organic materials,
    like wood or agricultural waste, without oxygen
    creates a gas that can be refined into hydrogen.
    This process is known as biomass gasification.
    Carbon neutral hydrogen can be produced
    renewablely using biomass gasification, although
    the process is not cheap and needs a large volume
    of biomass feedstock.
  • Nuclear Water is divided using high-temperature
    nuclear reactors in the nuclear hydrogen
    generation process. Though costly and raising
    questions about the security and safety of
    nuclear reactors, this technology produces
    hydrogen without emitting carbon.
  • Photobiological The process of producing
    hydrogen by photosynthetic microorganisms,
    including algae, is known as photobiological
    hydrogen generation. Although still in the
    research and development stage, this technique
    has the potential to be carbon-neutral and
    renewable for the production of hydrogen.
  • Solid Oxide Electrolysis Cells (SOEC) Water is
    divided into hydrogen and oxygen in SOECs using a
    ceramic electrolyte. Despite being in its early
    stages of research and development, this
    technology is effective.
  • Thermochemical Thermochemical hydrogen
    production is the process of generating hydrogen
    from fossil fuels or other sources by means of
    chemical processes and heat. Although this
    technique is currently in the research and
    development stage, it has the potential to be
    carbon neutral.

3
  • Explanation of Hydrogen Technologies
  • The term "hydrogen technologies" refers to a
    group of methods and systems for producing,
    storing, distributing, and using hydrogen as a
    source of energy. The most plentiful element in
    the universe, hydrogen, may be captured and used
    in a variety of ways to meet energy needs with
    the least amount of negative environmental
    effects.
  • Key components of hydrogen technologies
  • Hydrogen Production Many techniques are
    available for producing hydrogen, such as
  • Steam Methane Reforming (SMR) This is the most
    used process, in which steam is chemically
    reacted to produce hydrogen from natural gas.
  • Electrolysis In this process, electricity is
    used to split water (H2O) into hydrogen (H2) and
    oxygen (O2). Renewable energy sources, such as
    solar or wind power, can be used to power
    electrolysis, producing "green hydrogen" that
    emits no greenhouse gases.
  • Thermochemical Processes Hydrogen can be
    produced from a variety of feedstocks, including
    waste and biomass, using high-temperature
    processes including gasification and pyrolysis.

4
  • Hydrogen Storage Although it is a very adaptable
    energy carrier, storage of hydrogen is difficult
    due to its low density. Various ways of storage
    consist include
  • Compressed Hydrogen Gas For industrial and
    transit purposes, hydrogen is compressed and kept
    in high-pressure tanks, usually at 350700 bar.
  • Liquid Hydrogen Hydrogen is mostly employed in
    space exploration and certain industrial uses. It
    may be liquefied at extremely low temperatures
    (-253C) and kept in insulated tanks.
  • Hydrogen Carriers Certain substances, including
    chemical compounds or metal hydrides, have the
    ability to collect and release hydrogen, making
    them useful for both hydrogen transit and
    storage.
  • Hydrogen Distribution With the right changes,
    pipelines and other existing infrastructure can
    be used to distribute hydrogen. Alternatively, it
    can be shipped via tankers or specialized
    transport systems in liquid or compressed gas
    form. Enabling the widespread deployment of
    hydrogen technologies requires the establishment
    of an effective hydrogen distribution network.
  • Read More - https//www.marketsandmarkets.com/indu
    stry-practice/hydrogen/hydrogen-technologies-compa
    rison
Write a Comment
User Comments (0)
About PowerShow.com