Jatropha is a resilient, drought-tolerant oilseed crop known for its high oil content and ability to grow in marginal soils. It thrives in warm climates but is sensitive to frost and prolonged cold temperatures.
SAF: Jatropha oil is a promising feedstock for producing (SAF) sustainable aviation fuel. It offers a significant reduction in carbon emissions and can be integrated seamlessly with existing jet fuel infrastructure.
Marine/Shipping: Jatropha-based biofuel provides a clean alternative for marine engines, reducing sulfur and nitrogen oxide emissions, and helping the industry meet stringent environmental regulations.
Trucking: Jatropha biofuel enhances engine performance, reduces greenhouse gas emissions, and decreases dependency on fossil fuels, making it a viable option for long-haul trucking fleets.
Heavy Equipment: Heavy machinery can benefit from Jatropha biofuel’s high energy density and cleaner combustion, leading to lower emissions and operational costs.
Small Equipment: Small diesel engines, including generators and farm equipment, can use Jatropha biofuel to achieve efficient, low-emission operation.
Small Diesel Engines: Jatropha biofuel offers excellent lubrication properties and high cetane numbers, improving engine performance and longevity.
After oil extraction, the remaining seed cake can be used as organic fertilizer due to its high nutrient content.
A byproduct of biodiesel production, glycerol has various industrial applications, including in pharmaceuticals and cosmetics.
Pongamia is a leguminous tree that produces oil-rich seeds. It can tolerate mild cold but is not frost-resistant, thriving in subtropical to tropical climates.
SAF: Pongamia oil is a viable feedstock for SAF, offering substantial greenhouse gas
reductions and sustainability benefits for the aviation industry.
Marine/Shipping: The shipping industry can benefit from Pongamia-based biofuel, which provides a renewable and low-emission alternative to conventional marine fuels.
Trucking: Pongamia biofuel helps trucking companies lower their carbon emissions and achieve greater fuel efficiency, contributing to more sustainable logistics operations.
Heavy Equipment: Utilizing Pongamia biofuel in heavy equipment reduces
environmental impact and improves operational efficiency through cleaner combustion.
Small Equipment: Pongamia biofuel ensures consistent and reliable performance for small equipment, promoting eco-friendly operation.
Small Diesel Engines: Pongamia biofuel’s high energy content and excellent combustion characteristics make it suitable for small diesel engines, enhancing performance and
reducing emissions.
After oil extraction, the press cake can be used as organic fertilizer or as feed
for livestock due to its protein content.
Aside from biodiesel, Pongamia oil has medicinal and insecticidal properties, used in traditional medicine and agriculture.
Castor is an oilseed crop known for its versatility and high oil yield. It thrives in warm, temperate, and tropical climates but is sensitive to frost and severe winters.
SAF: Castor oil can be processed into bio jet fuel, providing a renewable alternative for the aviation sector and helping reduce carbon emissions.
Marine/Shipping: Castor-based biofuel offers a sustainable option for marine engines, reducing harmful emissions and supporting compliance with environmental standards.
Trucking: Castor biofuel enhances fuel efficiency and reduces emissions in trucking operations, contributing to a greener transportation sector.
Heavy Equipment: Heavy machinery can benefit from the high lubricity and energy
content of castor biofuel, leading to better performance and lower environmental impact.
Small Equipment: Castor biofuel is suitable for use in small engines, offering a reliable and clean-burning fuel option.
Small Diesel Engines: The high cetane number and excellent combustion properties of castor biofuel improves the efficiency and lifespan of small diesel engines.
After oil extraction, the meal can be used as organic fertilizer due to its
nitrogen content.
A protein extracted from castor beans, used in various industrial applications such as lubricants and bio-based plastics.
Neem is a tropical tree that produces oil with various industrial applications. It is highly sensitive to frost and thrives in hot and arid climates.
SAF: Neem oil can be refined into bio jet fuel, providing an eco-friendly alternative for the aviation industry with reduced carbon footprint.
Marine/Shipping: Neem-based biofuel offers a sustainable solution for marine
transportation, helping to lower sulfur and nitrogen oxide emissions.
Trucking: Neem biofuel supports cleaner combustion and lower emissions in trucking, contributing to environmental sustainability.
Heavy Equipment: The use of neem biofuel in heavy equipment reduces environmental impact and supports efficient operations.
Small Equipment: Neem biofuel is an effective and eco-friendly option for small
equipment, ensuring consistent performance.
Small Diesel Engines: Neem biofuel’s excellent combustion characteristics and high energy content make it suitable for small diesel engines, enhancing performance and reducing emissions.
Niger Seed Description: Niger seed is a resilient crop with oil-rich seeds, used for biofuel and birdseed production.
After oil extraction, the cake can be used as organic fertilizer or pesticide due
to its pesticidal properties.
Apart from biodiesel, neem oil has medicinal properties and is used in cosmetics, soaps, and pharmaceuticals.
Mahua is an oilseed native to the Indian subcontinent, known for its high oil yield. It
prefers warm climates and is not well-adapted to cold or frost-prone areas.
SAF: Mahua oil is a potential feedstock for sustainable aviation fuel, offering significant reductions in greenhouse gas emissions.
Marine/Shipping: Mahua-based biofuel provides a renewable alternative for marine engines, supporting lower emissions and compliance with environmental regulations.
Trucking: Mahua biofuel enhances fuel efficiency and reduces emissions in trucking operations, promoting greener transportation.
Heavy Equipment: The use of Mahua biofuel in heavy machinery supports cleaner combustion and reduces environmental impact.
Small Equipment: Mahua biofuel is suitable for small engines, offering reliable and eco-friendly performance.
Small Diesel Engines: Mahua biofuel’s high cetane number and good lubrication
properties improve the efficiency and longevity of small diesel engines.
After oil extraction, the cake can be used as organic fertilizer or animal feed
due to its protein content.
A byproduct with culinary and cosmetic applications, providing additional
value beyond biofuel.