Compressed Biogas (CBG)
UFIPL envisaged CBG to be produced from various biomass & bio waste sources including sugarcane press mud, distillery spentwash, agricultural residues, cow dung & sewage treatment, plant waste, municipal solid waste.
CBG is also be generated from other waste streams like rotten potatoes, rotten vegetables chicken/poultry litter, food waste, horticulture waste, forest tree residues slotter house waste etc.
UFIPL has technology to process & degrade organic matters by an anaerobic bacterial digestion this process is conducted through four biochemical reactions i.e.
- Hydrolysis reaction,
- Acidogenesis reaction,
- Acetogenesis reaction,
- Metanogenesis reaction.
CBG is also be generated from other waste streams like rotten potatoes, rotten vegetables chicken/poultry litter, food waste, horticulture waste, forest tree residues slotter house waste etc.
UFIPL has technology to process & degrade organic matters by an anaerobic bacterial digestion this process is conducted through four biochemical reactions i.e.
- Hydrolysis reaction,
- Acidogenesis reaction,
- Acetogenesis reaction,
- Metanogenesis reaction.
Anaerobic methanogenic hydrolysis reaction decomposes organic molecules, acedogenesis converts into organic molecules to volatile organic acids & acetogensis process bacteria in the acetic group digests volatile oraganic acid & relies acetic acid. Anaerobic bacteria complete the methanogenesis process by converting acetic acid to methane gas, carbon dioxide & hydrogen sulphide.
UFIPL CBG Plant consists three main stages:
1. Biogas generation/ Biomethanation plant.
2. Biogas Purification unit.
3. Biogas Compression unit.
UFIPL CBG Plant consists three main stages:
1. Biogas generation/ Biomethanation plant.
2. Biogas Purification unit.
3. Biogas Compression unit.
Biogas Plant
Biogas Plants utilize anaerobic digestion technology to convert organic matter into bio energy (Methane). UFIPL biogas plants efficiently process various organic feedstocks, including agricultural waste, food waste and sewage sludge to produce:
● Biogas (CH₄ and CO₂)
● Biofertilizer (digestate)
● Bioenergy (electricity and heat)
The anaerobic digestion process involves:
● Pre-treatment of feedstocks to optimize digestion
● Anaerobic digestion in specially designed reactors
● Biogas upgrading to produce high-purity biomethane (optional)
● Biogas (CH₄ and CO₂)
● Biofertilizer (digestate)
● Bioenergy (electricity and heat)
The anaerobic digestion process involves:
● Pre-treatment of feedstocks to optimize digestion
● Anaerobic digestion in specially designed reactors
● Biogas upgrading to produce high-purity biomethane (optional)
UFIPL biogas plants feature:
● Advanced process control and monitoring systems
● High-efficiency digestion and biogas production
● Flexibility in feedstock utilization and energy output
● Minimal environmental impact and odor control
● Advanced process control and monitoring systems
● High-efficiency digestion and biogas production
● Flexibility in feedstock utilization and energy output
● Minimal environmental impact and odor control