Treatment technologies for urban solid biowaste to create value products: a review with focus on low- and middle-income settings

Lohri, Christian Riuji; Diener, Stefan; Zabaleta, Imanol; Mertenat, Adeline; Zurbrügg, Christian

doi:10.1007/s11157-017-9422-5

Cited by 235 publications

(157 citation statements)

References 305 publications

(442 reference statements)

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“…The objectives and their attributes as provided by the SOWATT tool are presented in Table 1. The performance data (Table 2) were obtained from the SOWATT tool [13], which was established based on an extensive literature study [6,[20][21][22][23][24][25], and through interviews with experts in Malawi. Table 1.…”

Section: Biowaste Technology Optionsmentioning

confidence: 99%

“…Biowaste can be treated to recover valuable resources like energy and nutrients, thus presenting economic opportunities while reducing the negative environmental effects of open dumping and/or decomposition [6]. Biowaste management can also act as a driving force for overall waste management when, for instance, the economic value of biowaste-derived products incentivizes waste collection or new revenue opportunities enhance the financial sustainability of the waste management system [7].…”

Section: Introductionmentioning

confidence: 99%

“…Besides the tangible physical elements, waste management also comprises an array of "soft aspects", also referred to as governance aspects including stakeholder preferences, financial mechanisms, policies, and institutional capabilities [8,9]. Many biowaste treatment initiatives have been unsuccessful, as such issues were not sufficiently considered [6,7]. To better evaluate the advantages and disadvantages of different biowaste treatment technologies with regard to set objectives, a decision support structure can significantly help take informed decisions.…”

Section: Introductionmentioning

confidence: 99%

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A Biowaste Treatment Technology Assessment in Malawi

et al. 2018

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In the city of Blantyre, much of the generated municipal waste is biowaste, typically mixed with other waste fractions and disposed at the city’s dumpsite. Energy and nutrients could be recovered; however, with many biowaste options available, choosing what technology to implement is difficult. Selecting Organic Waste Treatment Technology (SOWATT) is a tool that supports decision making for selecting a biowaste treatment option considering social, technical, and environmental aspects. SOWATT was used to evaluate options for Blantyre’s Limbe Market. Anaerobic digestion, black soldier fly processing, slow pyrolysis, in-vessel composting, windrow composting, vermicomposting, and wet-biomass-briquetting were considered as options. The performance of each alternative was assessed based on five objectives by government, NGO, and market-based stakeholders in order to determine the most acceptable option for the greatest number of people: something that is rarely done, or if it is the preferences are not rigorously quantified (e.g., stakeholder workshops) and/or weighted against specific objectives. However, given the novelty of the ranking-solicitation process, some participants struggled with the variety of options presented, and further iterations of SOWATT will address this limitation. Ultimately, vermicomposting scored highest of all alternatives and could best achieve the five objectives as prioritized by the stakeholders when implemented.

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Section: Biowaste Technology Optionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A Biowaste Treatment Technology Assessment in Malawi

et al. 2018

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“…These factors include Carbon-to-Nitrogen ratio, shredding of materials, blending of materials, temperature, reaction or pH level, moisture and aeration, and microorganisms involved [20]. Otherwise, when the best condition is not met, the process may be slowed or may not happen at all [17]. Among the existing methods of composting, based on how the residents described their method where a hole is dug and the organic wastes are buried, this is known as pit composting according to Martin and Gershuny (1992) [21] description in their book.…”

Section: Traditional Compostingmentioning

confidence: 99%

“…Composting, by definition, is a biological degradation process of organic waste where microorganisms convert the organic waste into humus-like substance which can be used to enhance soil properties [16]. This can be done at different scale using different technology and mechanization [17]. Proper handling of this method gives various advantages such as production of biofertilizer, relatively low air and water pollution, low operational cost and income generation, making it sustainable process.…”

Section: Introductionmentioning

confidence: 99%

Perception of the Selected Residents on Household Composting in a Highly Urbanized Area, Manila, Philippines

B¹

2018

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Solid waste is one of the major problems in any congested urbanized area. Metro Manila, one of the highly-urbanized cities in Southeast Asia, generated 3.596 million tons of solid waste in 2014. Generally, this study determined the perception of the selected residents on household composting in a highly urbanized area. Specifically, this investigation was able to learn the knowledge of the residents on composting and solid waste management; described the discouraging factors they encountered concerning composting activity; and identified the perceived benefits of the said environmental action. The researchers gathered data through a series of in-depth interviews that were conducted in Barangay 521, Zone 52, District IV, Sampaloc, Manila. Twenty (20) respondents were selected through random sampling technique. Thematic analysis was used to interpret the data collected. Findings of the study showed that the residents were knowledgeable about segregation and traditional composting. They were willing to do composting activity but they were not able to implement it effectively because of several discouraging factors such as the lack of space, time constraint, and unsystematic collection of waste. The residents perceived composting as a beneficial activity because it can produce compost for agriculture, improve sanitary condition, and reduce the risk of flooding. Consequently, if these discouraging factors would be eliminated, then they would be able to perform proper ways of composting. The Local Government Units should provide appropriate trainings on how to conduct composting activity properly using advanced technologies and scientific techniques.

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