What Are The Drone Anti-jamming Systems Technology?
Why Eko Gea Is Effective In Biogas Production
1. Why EKO GEA is effective
In Biogas Production
EKO GEA Product Mechanism(s) Mechanism Outcome Biogas Production
Feature Outcome
Highly nutritious Contains full range of nutrients Microbes are more robust = increased microbial proliferation in more methane production
(oligosaccharides & trace elements, of each biogas stage = more workers
Feeds
particular use to microbes)
Microbes Bio-available nutrition Naturally-occurring, colloidal, chelated Microbes are more robust = increased microbial proliferation in more methane production
each biogas stage = more workers
Contains alginates Physical gel-like barrier for Microbes are protected = less toxicity = less microbial more methane production
coagulation/protection from toxins inhibition/die-off = microbes are more robust =more proliferation
in each biogas stage = more workers
Negatively charged Biological ion-exchange Immediate bio-chemical H2S reduction = less toxicity = less more methane production
Protects (biochemically) microbial inhibition/die-off = microbes are more robust = more
Microbes proliferation in each biogas stage = more workers
Negatively charged Biological ion-exchange Sequesters heavy metals, reduces other chemical compounds = more methane production
(biochemically) less toxicity = less microbial inhibition/die-off = microbes are
more robust = more proliferation in each biogas stage = more
workers
Negatively charged Biological ion-exchange Immediate bio-chemical reduction of H2S & NH3 Odour reduction
(biochemically)
Provides process Stability Feeding and protecting microbes Stability * = no Stable biogas production
* Almost any technical/scientific article about biogas production will highlight the challenge of stabilizing the process
Simply put, EKO GEA is and provides a superior “bacterial culture media” for microbes – a technological leap in biogas production.