Solid waste open dumping is a big issue in the developing world. Environmental and social impacts due to this practice affect population health, increasing the spread of diseases and child mortality. The safe collection of waste is the first step for reducing these impacts. This research assesses households' waste collection in a Bolivian developing city with the aim to find a solution to fostering waste safe disposal and recycling. The novelty of the study consists in implementing field analysis together with the use of geographic information systems and the life cycle assessment approach where the lack of data is challenging. Following the results of the research, the system optimization, compared to the current scenario, implies that: (1) collection distances increase by 8%, while the selective collection increases them by 27.8%; (2) the collection coverage increase from 51% to 94% and selective collection switch from zero to 6.7%; (3) about 75% of CO2-eq emissions are reduced, as well as the eutrophication potential (about 55%); (4) recycling reduces the human toxicity potential of 260% and depletion of abiotic resources of 30%; (5) finally, the cost per ton of waste collected reduces from 36.2USD t-1 to 26.5USD t-1, and rises to 39.7USD t-1 if the selective collection is applied. The research demonstrates how waste collection optimization can be implemented obtaining enormous benefits in developing cities. The methods and outcomes presented can be of reference for policymakers and stakeholders of the developing world for addressing safe collection toward sustainable development.

Assessment of municipal solid waste collection in Bolivia: Perspectives for avoiding uncontrolled disposal and boosting waste recycling options

Ferronato, Navarro
;
Torretta, Vincenzo
Supervision
2021-01-01

Abstract

Solid waste open dumping is a big issue in the developing world. Environmental and social impacts due to this practice affect population health, increasing the spread of diseases and child mortality. The safe collection of waste is the first step for reducing these impacts. This research assesses households' waste collection in a Bolivian developing city with the aim to find a solution to fostering waste safe disposal and recycling. The novelty of the study consists in implementing field analysis together with the use of geographic information systems and the life cycle assessment approach where the lack of data is challenging. Following the results of the research, the system optimization, compared to the current scenario, implies that: (1) collection distances increase by 8%, while the selective collection increases them by 27.8%; (2) the collection coverage increase from 51% to 94% and selective collection switch from zero to 6.7%; (3) about 75% of CO2-eq emissions are reduced, as well as the eutrophication potential (about 55%); (4) recycling reduces the human toxicity potential of 260% and depletion of abiotic resources of 30%; (5) finally, the cost per ton of waste collected reduces from 36.2USD t-1 to 26.5USD t-1, and rises to 39.7USD t-1 if the selective collection is applied. The research demonstrates how waste collection optimization can be implemented obtaining enormous benefits in developing cities. The methods and outcomes presented can be of reference for policymakers and stakeholders of the developing world for addressing safe collection toward sustainable development.
2021
developing countries; LCA; geographic information systems; waste mismanagement; selective collection; open dumps
Ferronato, Navarro; Portugal Alarcón, Grecia Paola; Guisbert Lizarazu, Edith Gabriela; Torretta, Vincenzo
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2100029
 Attenzione

L'Ateneo sottopone a validazione solo i file PDF allegati

Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 31
  • ???jsp.display-item.citation.isi??? 21
social impact