With increase in human population and need of fuel increase day by day, even the most cost-effective method for the removal of waste is found to be bizarre. As a result, concerned authorities started searching for suitable solutions which may provide solutions without any performance decline. Researchers over a past two decade started searching for alternate to fossil fuels. The present study focuses on biomass valorisation and their socio-economic significance. Since all the traditional methods implied failed to meet up the standards due to their negative impacts after treatment process. Hence a better method with synergic effect in the process outcome was researched and found that through modern synthetic methods, the outcome will be more reliable handling all serious threats to the humans. These emerging techniques in near future will not only be a game-changer but also lead to us to better lives with biofuel, production of bioenergy, pharmaceuticals and bio-chemicals at cheaper price. For instance electricity generation from bio-waste using bio-augmentation technique directly depends on the quality and measure of the biomass. Integrated techniques in the industrial sector emphasize green energy production and the creation of sustainable, industry-specific products. However, current technological advancements face limitations in efficiently handling biomass and waste. Addressing these challenges requires innovative solutions that integrate advanced detection, classification, and separation methods, fostering more effective resource management and promoting sustainable practices. Proposed methods are reviewed to address the growing volume of biomass and waste at various operational levels.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Comparative Analysis of Biomass Valorization Methods: Environmental Impact Assessment

  • Selvaraj Dinesh Kirupha,
  • Mayakrishnan Muthukrishnan,
  • Selvaganapathi Anbazhagan

摘要

With increase in human population and need of fuel increase day by day, even the most cost-effective method for the removal of waste is found to be bizarre. As a result, concerned authorities started searching for suitable solutions which may provide solutions without any performance decline. Researchers over a past two decade started searching for alternate to fossil fuels. The present study focuses on biomass valorisation and their socio-economic significance. Since all the traditional methods implied failed to meet up the standards due to their negative impacts after treatment process. Hence a better method with synergic effect in the process outcome was researched and found that through modern synthetic methods, the outcome will be more reliable handling all serious threats to the humans. These emerging techniques in near future will not only be a game-changer but also lead to us to better lives with biofuel, production of bioenergy, pharmaceuticals and bio-chemicals at cheaper price. For instance electricity generation from bio-waste using bio-augmentation technique directly depends on the quality and measure of the biomass. Integrated techniques in the industrial sector emphasize green energy production and the creation of sustainable, industry-specific products. However, current technological advancements face limitations in efficiently handling biomass and waste. Addressing these challenges requires innovative solutions that integrate advanced detection, classification, and separation methods, fostering more effective resource management and promoting sustainable practices. Proposed methods are reviewed to address the growing volume of biomass and waste at various operational levels.