Green Hydrogen

  • 0
  • 3109
Font size:
Print

Green Hydrogen

What is Green Hydrogen?

  • Green hydrogen is defined as hydrogen produced by splitting water into hydrogen and oxygen using renewable electricity.

Green HydrogenTypes of Hydrogen: 

Hydrogen is an invisible gas. So, there is no visible difference between the different types of hydrogen.

Green Hydrogen

 

India’s Energy Transition and Economic Growth:

  • In India, demand for green hydrogen is growing beyond traditional sectors like refineries, ammonia, and methanol production.
  • India has taken firm and steady actions for energy transition, including:
    • Leading the announcement of Nationally Determined Contributions (NDCs) under the Paris Climate Deal.
    • Expanding renewable capacity.
    • Easing climate financing.
    • Announcing the goal of achieving net-zero emissions.
  • India has set its sight on becoming energy independent by 2047.
  • Country’s demand for Green Hydrogen is expected to grow more than fourfold by 2050. To meet this demand Steps have been taken by the government.

 

Challenges for Green Hydrogen: 

  • High cost of green hydrogen production. 
  • It is hard to storage and transported requiring specialised cylinders and infrastructure
  • Hydrogen is extremely flammable, necessitating robust handling and safety standards to ensure safe use.
  • Advancements in battery technology could challenge the viability of hydrogen-powered vehicles.

 

India’s Initiatives toward Green Hydrogen:

  • National Green Hydrogen Policy, 2022: 
    • Aim: Achieve 5 million metric tonnes of annual green hydrogen production and reduce fossil fuel imports by over ₹1 trillion.
    • Prevent 50 million metric tonnes of annual greenhouse gas emissions.
  • Green Hydrogen Mission: 
      • Launched in January 2023, with an outlay of Rs. 19,744 crores up to FY 2029-30.
      • Aim: Contribute to India’s Atma Nirbhar (self-reliant) through clean energy. 
  • Components of the Mission:
    • Strategic Interventions for Green Hydrogen Transition (SIGHT), Incentives for manufacturing electrolysers and production of green hydrogen.
    • Development of Green Hydrogen Hubs.
    • Establishing a robust framework of regulations and standards.
  • Expected Outcomes by 2030:
    • Production Capacity: 5 MMT per annum of Green Hydrogen.
    • Economic Impact: Reduction of ₹1 lakh crore worth of fossil fuel imports.
    • Environmental Impact: Nearly 50 MMT per annum of CO2 emissions expected to be averted.

 

Panchamrit:  five nectar elements (Panchamrit) of India’s climate action.

  •  India presented Panchamrit at the 26th session of the Conference of the Parties (COP26) held in Glasgow, United Kingdom.
  • The goal is to reach 500GW non-fossil energy capacity by 2030.
  • Meet 50% of energy requirements from renewable energy by 2030.
  • Reduce total projected carbon emissions by one billion tonnes by 2030.
  • Reduce carbon intensity of the economy by 45% by 2030 (over 2005 levels).

Achieve net zero emissions by 2070.

Cutting Edge Innovations in Green Hydrogen:

  • High-temperature electrolysis promises increased efficiency.
  • Photoelectrochemical (PEC) water splitting uses sunlight to split water into hydrogen and oxygen.

 

 

Conclusion: 

  • Green Hydrogen is poised to play a crucial role in India’s energy transition, especially in decarbonizing hard-to-abate sectors. 
  • The National Green Hydrogen Mission aims to develop a Green Hydrogen ecosystem, fostering innovation, investments, job creation, and economic growth. 
  • Government interventions will catalyse this process, unlocking market potential across various sectors through cost reduction and economies of scale.

 

 

 

 

 

 

Share:
Print
Apply What You've Learned.
Previous Post Paradiplomacy
Next Post International Labour Organisation (ILO) Working Paper on Universal Social Protection
0 0 votes
Article Rating
Subscribe
Notify of
guest
0 Comments
Oldest
Newest Most Voted
Inline Feedbacks
View all comments
0
Would love your thoughts, please comment.x
()
x