BDB India Private Limited is a leading global business strategy consulting and market research company in India. Since 1989, BDB has been providing clients with solutions to expand their businesses in the Indian and international marketplace. We are an ISO certified company. BDB India is the leading global business strategy consulting and market research firm for automotive industry. BDB is a Best Customer Feedback Research Companies in India.

1. BDB is a Best Customer Feedback Research
Companies in India
BDB India Private Limited is a leading global business strategy
consulting and market research company in India. Since 1989, BDB has
been providing clients with solutions to expand their businesses in the
Indian and international marketplace. We are an ISO certified company.
BDB India is the leading global business strategy consulting and market
research firm for automotive industry. BDB is a Best Customer
Feedback Research Companies in India.
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Green Hydrogen
Green hydrogen refers to hydrogen produced through a process that uses
renewable energy sources, such as wind, solar, or hydroelectric power,
to power the electrolysis of water. The electrolysis process involves
splitting water molecules (H2O) into hydrogen (H2) and oxygen (O2),
without generating carbon emissions. This method contrasts with
traditional hydrogen production, such as steam methane reforming,
which relies on fossil fuels and generates greenhouse gas emissions.
In India, the green hydrogen market is expected to be worth $30-35
billion by 2035-2040 (assuming optimistic demand). In India, the green
hydrogen market (sales) is expected to reach $10 billion by 2030 and
$35 billion by 2040 (per annum estimates). Major industries like as
transportation and industrial production rely heavily on imported fossil
fuels. Today, hydrogen is required for a variety of reasons. Green
hydrogen production using renewable energy can play a critical part in
low-carbon and self-sufficient economic routes. The use of Green
Hydrogen and its derivatives, the machinery and technology used, and

2. the infrastructure development associated with it in many new programs
in the country, such as green fuel, green energy, green mobility, green
farming, green buildings and equipment, and policies for efficient use of
this energy source in various economic sectors, will mean that the
industry is bound to see exponential growth in the demand for Green
Hydrogen and its derivatives, the machinery and technology used, and
the infrastructure development associated with it[/vc_column_text]
The key steps in green hydrogen production
1. lectrolysis: Renewable electricity (from sources like solar or wind
power) powers an electrolyzer, which splits water into hydrogen and
oxygen. The process separates hydrogen from water, generating
‘green’ hydrogen without producing greenhouse gases or other
harmful emissions.
2. Renewable Energy Sources: The renewable energy sources used for
electrolysis are crucial in making the overall process
environmentally friendly. By utilizing solar, wind, or hydroelectric
power, the entire hydrogen production cycle becomes sustainable
and emission-free. Green hydrogen holds immense promise as a
clean, sustainable energy carrier. It can be used in various sectors
and industries, including transportation, power generation, industrial
processes, and energy storage. The widespread adoption of green
hydrogen is integral to reducing carbon emissions and mitigating
climate change by providing a versatile and low-carbon energy
source.
Green Hydrogen Manufacturing
Green hydrogen manufacturing involves the production of hydrogen
through an environmentally sustainable process using renewable energy
sources. The process typically involves the following steps:
1. ELECTROLYSIS
Electrolysis is the core process used to produce green hydrogen.
Water (H2O) is separated into its components—hydrogen (H2) and
oxygen (O2)—through the application of an electric current. This

3. occurs within an electrolyzer, a device that contains an anode and a
cathode separated by an electrolyte.
2. RENEWABLE ENERGY INPUT
The electricity used in the electrolysis process comes from
renewable sources such as solar, wind, or hydroelectric power.
These sources ensure that the overall hydrogen production cycle is
environmentally friendly and does not generate carbon emissions
3. TYPES OF ELECTROLYZERS
There are different types of electrolyzers used for hydrogen
production, including alkaline electrolyzers, polymer electrolyte
membrane (PEM) electrolyzers, and solid oxide electrolyzers.
Each type has its advantages in terms of efficiency, scalability, and
operating conditions.
4. SCALING UP PRODUCTION
Green hydrogen manufacturing involves setting up electrolysis
plants that can scale up production to meet demand. These plants
may range from small-scale installations to large industrial
facilities.
5. STORAGE AND DISTRIBUTION
Once produced, green hydrogen needs to be stored and distributed.
Storage methods
can include compressed gas, liquefaction, or conversion into other
forms such as ammonia for easier transport. Infrastructure for
transporting and utilizing hydrogen as an energy carrier also needs
to be developed.
Challenges in Green Hydrogen Manufacturing
 Cost: One of the primary challenges is the cost of production.
Currently, green hydrogen is more expensive to produce compared
to hydrogen generated from fossil fuel-based processes.
 Efficiency: Improving the efficiency of electrolysis processes and
reducing energy losses is crucial to make green hydrogen more
cost-effective.

4.  Infrastructure: Developing infrastructure for large-scale hydrogen
production, storage, and distribution is essential for its widespread
adoption.
 Technological Advancements: Research and development are
ongoing to improve the performance and reduce the costs of
electrolyzers and associated technologies
The future of green hydrogen manufacturing in India and worldwide
largely depends on advancements in technology, reduced production
costs, supportive government policies, and collaborative efforts among
various stakeholders to drive sustainable and efficient production
processes. As technology advances and economies of scale are achieved,
green hydrogen manufacturing is poised to play a pivotal role in
transitioning towards a more sustainable and low-carbon energy future.
Components of the Green Hydrogen Mission
 Facilitating demand creation through exports and domestic
utilization
 Strategic Interventions for Green Hydrogen Transition (SIGHT)
programme to support
domestic manufacturing of electrolysers and production of Green
Hydrogen
 Pilot Projects for green steel, mobility, shipping, decentralized
energy applications, hydrogen
production from biomass, hydrogen storage, etc.
 Development of Green Hydrogen Hubs
 Support for infrastructure developments
 Establishing a robust framework of regulations and standards
 Research & Development programme
 Skill development programme
 Public awareness and outreach programme
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