@article{Klius_Chetveryk_2017, title={Anaerobic digestion of mixture of manure with condensate from syngas plant}, url={https://ve.org.ua/index.php/journal/article/view/45}, abstractNote={<p>Recently, gasification of solid fuels, in particular, biomass,<br>is beginning to revive in Ukraine. Condensate from syngas<br>plants needs to be cleaned before being released to the reservoirs<br>and watercourses. Usually, condensate is first purified by physical-<br>chemical, and then, if necessary, by biological methods. The<br>problem of cleaning condensate from syngas plants is relevant<br>and requires new technical solutions.<br>A new way to biological utilize condensate from syngas<br>plant has been developed. According to this method, the syngas<br>is bubbled through the layer of a liquid substrate and cooled down,<br>resulting in condensation of the tar, phenolic compounds, methyl<br>alcohol, fatty acids, water vapor, etc., which are part of the syngas.<br>Condensed organic matter serves as an additional nutrient<br>medium for microbial populations.<br>The purpose of the work is to investigate the effect of condensation<br>concentration in the substrate’s moisture the process of gas<br>formation and to find out what maximum amount of condensate can<br>be processed together with manure in anaerobic conditions.<br>As a result of the research, a regularity was found, namely,<br>with an increase in the concentration of condensate in the substrate,<br>the degree of destruction of organic manure decreases,<br>and the output of biogas increases. Thus, an increase in the output<br>of biogas occurs due to the processing of organic matter,<br>dissolved in the condensate. Summing up the obtained results it can<br>be concluded that it is possible to utilize the condensate in an<br>anaerobic reactor in a mesophilic regime, and thus the concentration<br>of condensation in the substrate’s moisture should be up to<br>8%, and the processing time from 30 to 50 days.</p&gt;}, number={3 (50)}, journal={Vidnovluvana energetika }, author={Klius, V. and Chetveryk, H.}, year={2017}, month={Sep.}, pages={80-86} }