Download to read offline
More Related Content
Similar to AUTOMATIC WATER PUMP CONTROL (rajan naik electrical engineering polytechnic)
![FOOT STEP BY POWER GENERATION PPT[1].pptxnew.pptx](https://cdn.slidesharecdn.com/ss_thumbnails/footstepbypowergenerationppt1-250919021928-9d77c296-thumbnail.jpg?width=640&height=640&fit=bounds)
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.