Availability of biomass worldwide
Biomass as a renewable energy source is one of the options to secure energy supply and to reduce greenhouse gas (GHG) emissions from fossil fuels in response to the climate change threat. Biomass is the Number 1 energy resource for developing countries.
Depending on the land use scenario and technological progress, the potential contribution of biomass to satisfying the global energy demand varies greatly. Including a wide range of resources, like wastes and residues, surplus forestry, and dedicated energy crops on unrestricted land, potentials are much higher. Including biomass production on marginal and degraded land and gains from improved agricultural management could satisfy today’s global energy demand from renewable resources. It is essential to consider these global estimates in the context of the countries in question, but it appears that there are substantial underused resources which could provide beneficial renewable energy in sustainably managed scenarios. Some recommendations and points of caution are made with regard to the potential climate and ecosystem benefits and also negative impacts arising from biomass energy. Biomass is a renewable energy source because its supplies are not limited. The approaches for carbon balance and greenhouse gas (GHG) benefits, studies are generic and need adaptation to the Indian and other biomass centric countries situation. Biomass is mainly sourced from the various resources like
- Wood: Logs, chips, bark, and sawdust are all sources of biomass energy.
- Agricultural waste: Crop parts like stalks, husks, prunings, straw, and corn cobs are all sources of biomass energy.
- Solid waste: Mixed commercial and residential garbage, such as yard trimmings, paper, plastics, rubber, leather, textiles, and food wastes.
- Woody energy crops: These are sources of biomass energy.
- Algae: Microalgae is a source of biomass energy.
- Landfill gas and biogas: These are sources of biomass energy.
- Alcohol fuels: Ethanol and biodiesel are sources of biomass energy.
- Purpose-grown grasses: These are sources of biomass energy.
Biomass to Biofuel Process
Biomass is available in various forms and needs to be shredded before processing. The thermochemical reaction helps in breaking down Biomass into Biofuel. Depending on the input biomass quality, some process parameters will change.
Plant capacity depends on inputs like Biomass availability and investment. to the We are serving corporate or co-operative organizations and all government oriented/ affiliated anti-pollution organizations.
Waste generated as a result of various agricultural activities is referred to as Agricultural waste. It contains things like grass, forest waste, and crop residues. Due to its scattered nature, its proper disposal is typically crucial. In many cases, it results in burns to avoid further handling. Biofuel production from agricultural waste is a lucrative option. We developed technology to convert agricultural waste into biofuel.
Agricultural, commercial, domestic, and industrial wastes can be converted into biofuels if the corresponding waste has a biological origin. If the biomass used in biofuel production can regrow quickly, the fuel is a renewable energy form. Wood and residues from wood, for instance, spruce, birch, eucalyptus, willow, and oil palm, remain the largest biomass energy source today. It is used directly as fuel or processed into pellet fuel or other forms. Biomass also includes plant or animal matter whose conversion to fuel, fibers, or industrial chemicals is possible.
Advantages of our Technology
Modern waste as Compared to the trash incinerators that were frequently utilized until a few decades ago, modern waste to energy plants are significantly different. The majority of waste to energy facilities burn hazardous waste, industrial waste, or municipal solid waste.
Recycling and waste to energy plants can coexist in a contemporary, efficiently operated facility that classifies materials before burning them. The only things that are burned are non-hazardous and neither intentionally nor economically recyclable. Our technology directly or indirectly benefits to
- Additional income for farmers
- Employment generation in the rural region
- Use of waste for energy generation
- Possibility of power integration into the grid or use of power for local consumption.
- Possible reduction of centralized power distribution burden, very useful for remote locations.
- A key factor to reduce the pollution from the naturally grown biomass, further to control carbon emission and control pollution