Feasibility of hybrid in-stream generator-photovoltaic systems for Amazonian off-grid communities.
Erik BrownIgor Cavallini JohansenAna Paula BortoletoYadu PokhrelSuyog ChaudhariAnthony CakSamer SulaemanLaura Castro-DiazMaria Claudia LopezAdam MayerJudith WalgrenNorbert MüllerEmilio F MoranPublished in: PNAS nexus (2022)
While there have been efforts to supply off-grid energy in the Amazon, these attempts have focused on low upfront costs and deployment rates. These "get-energy-quick" methods have almost solely adopted diesel generators, ignoring the environmental and social risks associated with the known noise and pollution of combustion engines. Alternatively, it is recommended, herein, to supply off-grid needs with renewable, distributed microgrids comprised of photovoltaics (PV) and in-stream generators (ISG). Utilization of a hybrid combination of renewable generators can provide an energetically, environmentally, and financially feasible alternative to typical electrification methods, depending on available solar irradiation and riverine characteristics, that with community engagement allows for a participatory codesign process that takes into consideration people's needs. A convergent solution development framework that includes designers-a team of social scientists, engineers, and communication specialists-and communities as well as the local industry is examined here, by which the future negative impacts at the human-machine-environment nexus can be minimized by iterative, continuous interaction between these key actors.
Keyphrases
- particulate matter
- human health
- mental health
- healthcare
- air pollution
- risk assessment
- endothelial cells
- quality improvement
- palliative care
- deep learning
- current status
- pluripotent stem cells
- induced pluripotent stem cells
- climate change
- computed tomography
- magnetic resonance
- radiation therapy
- magnetic resonance imaging
- machine learning
- solar cells