Novel biological solution for biogas production; bioactive marine algae which feeds & protects microbes;

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.