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DEPARTMENT OF ELECTRICAL ENGINEERING
KARMAYOGI INSTITUTE OF TECHNOLOGY ( POLYTECHNIC) ,
SHELVE-PANDHARPUR.
Presentation on.
“GREEN HYDROGEN AS A FUTURE FUEL ”
PRESENTED BY :
Mr. KONDUBHAIRI. D.T
CONTENTS
1) Introduction.
2) Literature Review.
3) Information.
4) Advantages.
5) Application.
6) Disadvantages.
7) Conclusion.
INTRODUCTION
•What is Green Hydrogen?
•Hydrogen produced using renewable energy (solar, wind) through electrolysis.
•Why is it important?
•Clean energy alternative, no greenhouse gas emissions.
•Global energy crisis & climate change context.
•Role in achieving net-zero carbon emissions.
INFORMATION
•Production: Electrolysis using renewable energy.
•Storage: Compressed gas, liquefied hydrogen, metal hydrides.
•Transportation: Pipelines, high-pressure tanks, ammonia conversion.
•Global initiatives:
•Hydrogen valleys (EU)
•National Hydrogen Mission (India)
•U.S. Hydrogen Shot Initiative
Solar Energy
Solar Energy – From sunlight, used for
electricity and heating.
Wind Energy
Wind Energy – Captured by wind turbines to
generate power.
Hydropower Energy
•Hydropower – Energy from flowing water
(rivers or dams).
Biomass Energy
•Biomass – Organic material used for heat,
electricity, or fuel.
Geothermal Energy
•Geothermal – Heat from inside the Earth
used for power and heating.
ADVANTAGES
•Zero carbon emissions during use.
•Can be stored and transported.
•High energy density.
•Versatile: Use in transport, industry, power generation.
•Supports energy transition and reduces dependence on fossil fuels.
DISADVANTAGES
•High production cost (especially from renewables).
•Energy loss during electrolysis and conversion.
•Infrastructure challenges – pipelines, fueling stations.
•Storage issues: Safety and efficiency.
•Currently limited commercial adoption.
APPLICATION
•Transportation: Fuel cell electric vehicles (FCEVs) – cars, buses, trains.
•Industry: Steel production, ammonia synthesis, refining.
•Power Generation: Backup power, grid balancing, hydrogen turbines.
•Residential/Commercial: Hydrogen boilers, combined heat and power (CHP).
LITERATURE REVIEW
• Historical development of hydrogen as a fuel.
• Key studies and research on hydrogen production via electrolysis.
• Reports by IEA, IRENA on future projections for hydrogen economy.
• Comparison with grey and blue hydrogen.
• Innovations in hydrogen storage and transportation.
CONCLUSION
•Green hydrogen holds great promise as a clean, sustainable fuel.
•Significant investment and innovation are needed to overcome current limitations.
•Collaboration among governments, industries, and academia is crucial.
•Green hydrogen is a key pillar of the future low-carbon economy.
Any Questions
Thank you

AUTOMATIC WATER PUMP CONTROL (rajan naik electrical engineering polytechnic)

  • 1.
    1 DEPARTMENT OF ELECTRICALENGINEERING KARMAYOGI INSTITUTE OF TECHNOLOGY ( POLYTECHNIC) , SHELVE-PANDHARPUR. Presentation on. “GREEN HYDROGEN AS A FUTURE FUEL ” PRESENTED BY : Mr. KONDUBHAIRI. D.T
  • 2.
    CONTENTS 1) Introduction. 2) LiteratureReview. 3) Information. 4) Advantages. 5) Application. 6) Disadvantages. 7) Conclusion.
  • 3.
    INTRODUCTION •What is GreenHydrogen? •Hydrogen produced using renewable energy (solar, wind) through electrolysis. •Why is it important? •Clean energy alternative, no greenhouse gas emissions. •Global energy crisis & climate change context. •Role in achieving net-zero carbon emissions.
  • 4.
    INFORMATION •Production: Electrolysis usingrenewable energy. •Storage: Compressed gas, liquefied hydrogen, metal hydrides. •Transportation: Pipelines, high-pressure tanks, ammonia conversion. •Global initiatives: •Hydrogen valleys (EU) •National Hydrogen Mission (India) •U.S. Hydrogen Shot Initiative
  • 5.
    Solar Energy Solar Energy– From sunlight, used for electricity and heating.
  • 6.
    Wind Energy Wind Energy– Captured by wind turbines to generate power.
  • 7.
    Hydropower Energy •Hydropower –Energy from flowing water (rivers or dams).
  • 8.
    Biomass Energy •Biomass –Organic material used for heat, electricity, or fuel.
  • 9.
    Geothermal Energy •Geothermal –Heat from inside the Earth used for power and heating.
  • 10.
    ADVANTAGES •Zero carbon emissionsduring use. •Can be stored and transported. •High energy density. •Versatile: Use in transport, industry, power generation. •Supports energy transition and reduces dependence on fossil fuels.
  • 11.
    DISADVANTAGES •High production cost(especially from renewables). •Energy loss during electrolysis and conversion. •Infrastructure challenges – pipelines, fueling stations. •Storage issues: Safety and efficiency. •Currently limited commercial adoption.
  • 12.
    APPLICATION •Transportation: Fuel cellelectric vehicles (FCEVs) – cars, buses, trains. •Industry: Steel production, ammonia synthesis, refining. •Power Generation: Backup power, grid balancing, hydrogen turbines. •Residential/Commercial: Hydrogen boilers, combined heat and power (CHP).
  • 13.
    LITERATURE REVIEW • Historicaldevelopment of hydrogen as a fuel. • Key studies and research on hydrogen production via electrolysis. • Reports by IEA, IRENA on future projections for hydrogen economy. • Comparison with grey and blue hydrogen. • Innovations in hydrogen storage and transportation.
  • 14.
    CONCLUSION •Green hydrogen holdsgreat promise as a clean, sustainable fuel. •Significant investment and innovation are needed to overcome current limitations. •Collaboration among governments, industries, and academia is crucial. •Green hydrogen is a key pillar of the future low-carbon economy.
  • 15.
  • 16.