@article{10902/7106,
year = {2015},
url = {http://hdl.handle.net/10902/7106},
abstract = {Cheese whey is considered an important pollutant in dairy wastewaters and an environmental problem to solve. This study aimed to develop a treatment process that combines the advantages of co-digesting cheese whey with manure and the short hydraulic retention time of a high-load anaerobic treatment system by using liquid fractions of dairy manure as a co-substrate. The proposed co-digestion process consists of a one-stage UASB reactor with an external settler and effluent recycling for alkalinity supplementation. Under a constant hydraulic retention time of 2.2 days and increasing proportion of cheese whey in the feed, the system demonstrated stable operation up to a 75% cheese whey fraction in the feed, with an applied organic loading rate of 19.4 kg COD m−3 d−1, obtaining a 94.7% COD removal and a volumetric methane production rate of 6.4 m3 CH4 m−3 d−1. Critical biomass washout was experienced when the cheese whey fraction in the feed was 85%. Operation at a constant 60% cheese whey fraction in the feed mixture enabled stable operation under an organic loading rate of 28.7 kg COD m−3 d−1 and 1.3 days HRT, with 95.1% COD removal and a volumetric methane production rate of 9.5 m3 CH4 m−3 d−1. This new high-load co-digestion method proposed is a promising solution for areas where cheese factories and intensive livestock farming are responsible for environmental pollution caused by unsuitable cheese whey and manure management practices.},
publisher = {Elsevier},
publisher = {Chemical Engineering Journal, Volume 262, 15 February 2015, Pages 794–802},
title = {High-load anaerobic co-digestion of cheese whey and liquid fraction of dairy manure in a one-stage UASB process: limits in co-substrates ratio and organic loading rate},
author = {Rico de la Hera, Carlos and Muñoz Soler, Noelia and Fernández Ferreras, Josefa and Rico Gutiérrez, José Luis},
}