Abstract
This manuscript deals with the detailed design of a small digestion prototype intended as a commercial unit fully operational to cover the demand for decentralized treatment of wastes. These plants are highly affected by the complex nature of wastes giving rise to different operating problems that should be considered in detail. This paper describes the design and start-up strategy of a small-scale digestion plant with a volume of 8 m3 designed to operate with a hydrolysis pretreatment unit. The plant was designed to treat fruit and vegetable wastes as substrates derived from a local processing food factory. The performance of the plant during fed-batch operation was reported. The strategy of inoculating the reactor only to a third of its original volume and subsequently increasing the volume of the reactor by using the fed-batch mode was inadequate. The acid pH of the feeding substrate resulted in the application of a low organic loading rate with a volumetric variation of just 19.7 L/d. The performance of the plant was evaluated at non-steady state conditions and resulted in excessive destruction of volatile solids due to the low nitrogen content of the feeding substrate. The prototype reported a specific methane production of 232 L/kg volatile solids despite the low feeding rate supplemented.
Highlights
Anaerobic digestion has been demonstrated to be a suitable technology for the treatment of organic wastes
The pretreatment unit 2200 was designed to receive fruit and vegetable wastes derived from a local for reducin company located near Toledo (Spain) which was dedicated to the production of fruit and salads ready cle size of the feeding material
The description of a small-scale digestion plant intended for decentralized operation was reported, along with the strategies for the prototype start-up and performance of the plant during the fed-batch mode
Summary
Anaerobic digestion has been demonstrated to be a suitable technology for the treatment of organic wastes. Several other technologies are available for transforming organic materials; the degradation process of biodegradable compounds using anaerobic digestion results in biogas which can be further valorized for producing energy. This process translates into significant advantages over other management strategies, such as landfilling and waste-to-energy incineration [1]. The description of a flexible decentralized treatment unit dedicated to the degradation of fruit and vegetable wastes is performed giving detailed indications of its components and operating conditions with the aim of becoming a guide for implementing small digestion units in developing countries. The pretreatment unitUnit consisted of a receiving hopper which was made of a 4 mm thick s
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