Talking Climate Change with Yash Negi
Talking Climate Change with Yash Negi
Welcome to a journey where one voice echoes the urgency of our planet's cry—mine. I'm Yash Negi, a Computer Science student with a heart set on understanding and combating climate change since 2018. In this solo podcast, I delve deep into the complexities of our environment, bringing to you not just data but stories, solutions, and the raw truth of what climate change means for each of us.
"Talking Climate Change with Yash Negi" isn't just another podcast; it's your personal window into the world of climate science. Here, you'll find no guests, no distractions—just me and occasionally, AI-generated voices crafted to enhance the storytelling experience. Together, we'll navigate the maze of climate change with passion, clarity, and a dash of tech-savvy insights. Each episode is crafted to resonate with you, whether you're a climate activist, a curious mind, or someone seeking to make a difference.
Join me for:
- In-depth Analysis: Unpacking the science behind headlines, from melting glaciers to rising sea levels.
- Personal Stories: My journey in this field, the challenges, the victories, and the everyday actions we can take.
- Tech and Innovation: How technology can be our ally in this battle for Earth's future.
Stay connected for more:
- Follow me on X for daily updates and quick insights into climate news: @realyashnegi
- Share your thoughts, questions, or podcast enhancement ideas via email at (yashnegi492@gmail.com).
Talking Climate Change with Yash Negi
Episode 22: BioEnergy
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In this episode of podcast I have talked about BioEnergy or Biomass Energy.
Topics:
- Bioenergy and emissions reduction
- Xiao Yang Zhang research
- Competing with low oil prices
Additional Info:
Lignocellulose is the most abundant biopolymer available on earth as waste biomass. Lignocellulose-degrading enzymes, namely, cellulases, hemicellulases, and ligninases, play a crucial role in converting lignocellulose into sugars and biofuels. Lignocellulose concentration in agricultural plant residues (which are frequently used as bulking agents) typically composes of 50%–90% of total organic matter: grass and maize have a relative low concentration of lignocellulose and straw stover, wood, and tea waste a high concentration.
Twitter: https://twitter.com/realyashnegi
Email: yashnegi@climatology.in
Keep sharing and keep supporting the channel. It helps me a lot. God Bless Everyone.