Journal
APPLIED ENERGY
Volume 149, Issue -, Pages 176-185Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.apenergy.2015.03.132
Keywords
Anaerobic digestion pretreatment; Energy feasibility; Energy self-sufficiency; Sewage sludge; Thermal hydrolysis; Waste water treatment plant
Categories
Funding
- CONSOLIDER-NOVEDAR
- Grupo de Excelencia de la Junta de Castilla y Leon
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Most of the pretreatments to sewage sludge in lab-scale studies show high potentials to be implemented in an anaerobic digester since they produce an increase in the biogas production. However, no energy assessments are usually considered in scientific reports. By making a simple evaluation of energy consumption by pretreatments, it can be stated that unfortunately not all the pretreatment technologies have an energy self-sufficiency to be implemented in a WWTP, requiring many times a continuous energy investment. Generally, pretreatments consuming electricity do not satisfy its energy demands from the biogas production in the same process, although high solubilization or biogas production increases are reached. Just ultrasounds applied in full-scale plants, with commercial technologies such as Sonix or Biosonator, provide an energetically self-sufficient pretreatment. In the case of thermal pretreatments, the potential to be implemented with full energy integration is much higher, since they can recover heat from the biogas engine as well as electrical energy in the same extent as for electric pretreatments. This way, full energy integration can be achieved in thermal hydrolysis plants; such is the case of commercial technologies such as Cambi, Exelys (Veolia) or CTH (Aqualogy). Several theoretical approaches and simulations also state that thermal hydrolysis presents a high potential to be fully integrated in WWTP with a complete energy recovery and self-sufficiency. (C) 2015 Elsevier Ltd. All rights reserved.
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