In-situ, self-adjusting stability control of methane-producing anaerobic biological reactors through novel use of ion exchange fibers

The invention claimed is: 1. An anaerobic biological reactor, comprising: an anaerobic digester having a chamber configured to receive a microbial suspension; an inlet in fluid communication with the chamber, the inlet being configured to direct an organic waste stream into the anaerobic digester; and a plurality of ion-exchange fibers disposed within the chamber in position to contact and chemically react with microbial suspension received into the chamber of the anaerobic digester; wherein at least a portion of the ion exchange fibers are physically attached to the anaerobic digester. 2. An anaerobic biological reactor, comprising: an anaerobic digester having a chamber configured to receive a microbial suspension; an inlet in fluid communication with the chamber, the inlet being configured to direct an organic waste stream into the anaerobic digester; and a plurality of ion-exchange fibers disposed within the chamber in position to contact and chemically react with microbial suspension received into the chamber of the anaerobic digester; wherein the ion-exchange fibers have a diameter of about 30 μm. 3. An anaerobic biological reactor, comprising: an anaerobic digester having a chamber configured to receive a microbial suspension; an inlet in fluid communication with the chamber, the inlet being configured to direct an organic waste stream into the anaerobic digester; and a plurality of ion-exchange fibers disposed within the chamber in position to contact and chemically react with microbial suspension received into the chamber of the anaerobic digester; wherein the ion-exchange fibers have a proton adsorption capacity of about 0.49 meq-H + /g-fiber. 4. A method for treating organic waste with a methane-producing anaerobic biological reactor, comprising: providing a methane-producing anaerobic biological reactor comprising an anaerobic digester containing a microbial suspension comprising acetogenic bacteria, methanogenic bacteria and a plurality of ion exchange fibers; introducing organic waste into the anaerobic digester; maintaining the microbial suspension in contact with the organic waste and at least a portion of the plurality of ion-exchange fibers for a period of time and under conditions sufficient to treat the organic waste and produce methane; and removing the treated organic waste and methane from the anaerobic digester; wherein the ion-exchange fibers are physically attached to the anaerobic digester.