Azin Fathianpour scite author profile

In this study, the effect of biochar produced from municipal sewage sludge on the stabilization of potentially toxic elements (PTEs), including lead (Pb), and zinc (Zn) in a mining polluted soil, is investigated. Biochar is produced through the pyrolysis process at three temperatures of 300, 400, and 500 C. The results of the biochar characterization shows that the pH and surface area of the samples increases with increasing pyrolysis temperature whereas the biochar yield decreases. Response surface methodology (RSM) is used to design and optimize the experiments. Three factors are considered, including biochar pyrolysis temperature, biochar/soil ratio, and time of incubation in the experimental design. The incubation time is the most effective parameter in the stabilization of both metals and shows a direct effect on the responses. However, the pyrolysis temperature has the lowest effect among the investigated parameters. The optimum conditions from RSM shows that biochar is able to stabilize each metal up to 70%, which presents the high potential of produced biochar to be used in the remediation of soils polluted with PTEs. Figure 5. Response surface and contour plot for interactive factors for Pb stabilization. a) Temperature and biochar/soil ratio (incubation time ¼ 60 days), b) biochar/soil ratio and incubation time (temperature ¼ 400 C).

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A taxonomy of pedestrian evacuation infrastructure for urban areas; an assessment of resilience towards natural hazards

Fathianpour

Jelodar

Wilkinson

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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Many people in the world live in hazardous environments and are susceptible to disasters. In the time of a destructive event, a resilient community must be prepared to mitigate the event and quickly respond. An effective mitigation plan can lead to fewer fatalities and damages. One of the most critical tasks for mitigation is the evacuation process. Wherein short notice time, overcrowding, bottlenecks in infrastructure and challenging terrain and topography may worsen the situation. Amongst other things, the evacuation process encompasses transportation infrastructures referred to as corridors, signs, pedestrian footpaths, and/or shelter infrastructures for keeping people safe. Evacuation infrastructure can also become damaged after the event; therefore, it’s imperative to have a robust assessment of different evacuation infrastructures. This study will investigate the characteristics of the available evacuation infrastructure and outline the general drawbacks. A systematic methodology for reviewing articles has been implemented to understand how vulnerable cities can be more prepared, especially for pedestrian evacuation. An evacuation scoring system for pedestrians will be developed to investigate evacuation infrastructure in terms of different resilience features, such as redundancy, safe to fail, readiness, capacity. The most practical evacuation system will be estimated, with a final output being to provide the features of a successful pedestrian evacuation system for future policy use.

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Tsunami evacuation modelling via micro-simulation model

Fathianpour

Evans

Jelodar

et al. 2023

Progress in Disaster Science

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Reducing the vulnerability of tourists to tsunami: challenges for decision-makers

et al. 2023

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A near source or local tsunami, because of its close proximity to an affected area, cannot usually be predicted soon enough to mitigate many of the risks posed. The limited notice time in local tsunamis poses greater challenges for decision-makers than distant source tsunamis. Tsunamis affect coastal regions, where many of these areas are visited by tourists who often lack adequate knowledge of the hazards of the region. This study focuses on the risks tourists face during a local tsunami and discusses how to best protect tourists. Initially, a thematic literature analysis was performed to identify research gaps. Then, a case study methodology was adopted to obtain an in-depth understanding of how emergency management officials consider the management of tourists in evacuation planning. Napier, New Zealand, was used as a case study because it is a tourist town and vulnerable to tsunamis. Key decision-makers in the disaster management and tourist management sector were interviewed. The results outline three major initiatives that could lead to better tourist management and create better tsunami awareness for tourists. First, the risks posed to tourists can be reduced if emergency management officials collaborate with tourism agencies. Second, developing accurate evacuation simulations can show what would happen to tourists in a tsunami so that emergency management officials can be better prepared, and councils can improve evacuation planning and infrastructure to evacuate tourists and local communities safely. Third, educating tourists about evacuation plans will increase their readiness and enhance their safety.

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Resilient evacuation infrastructure; an assessment of resilience toward natural hazards

Fathianpour

Jelodar

Wilkinson

et al. 2023

IJDRBE

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Purpose As evacuation is one of the most used response actions to such disasters, it is essential to understand correctly what a resilient evacuation would mean. One critical factor in evacuation resilience is the resilience level of evacuation infrastructures. Also, UN sustainable development has a goal to build resilient infrastructures. This study aims to investigate the characteristics of resilient evacuation infrastructures. Design/methodology/approach A systematic methodology for reviewing articles has been implemented to understand how vulnerable cities can be more prepared, especially for pedestrian evacuation. Findings This study has developed an evacuation scoring system framework for pedestrians to investigate evacuation infrastructure in terms of different resilience features, such as redundancy, safe-to-fail, readiness and capacity. The most practical evacuation system will be estimated. The output of this study can provide insight into a final output to provide the features of a successful pedestrian evacuation system for future policy drafting for infrastructure strategy decision-makers. Practical implications Climate change has made the risks of natural hazards such as tsunamis more intense for humans. Many people in the world live in hazardous environments and are susceptible to disasters. A community must be prepared to mitigate the destructive event and quickly respond to be called resilient. Originality/value This is an original work. The researcher has gone through a deep literature review and developed a cluster showing the features a resilient evacuation infrastructure should have.

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