Abstract
Crude oil transportation through pipelines presents danger to communities along its path. In the Niger Delta region of Nigeria for instance, pipeline vandalism occurs indiscriminately and regularly, such that every segment of a pipeline network becomes a potential target and possibly source of oil spill hazard. In terms of pipeline hazard and risk distribution, the oil plume’s ability to migrate freely in wetlands and encroachment on pipeline right of ways by people increases chances of wider contact and exposure opportunities to inhabitants and the environment. Despite several efforts to mitigate pipeline hazards in the oil and gas sector, none has been effective in Nigeria partly due to paucity of data in public domain and poor public participation. Therefore considering the environmental and human health challenges associated with oil spills, an alternative method was developed using multi-criteria decision analysis to model 1) pipeline hazard zones, 2) potential pipeline impact radius, and 3) high consequence areas with four attribute layers, i.e. land cover, population, river and pipeline to encourage public participation. The model identified land use areas, communities and rivers likely to be susceptible to pipeline hazards and areas requiring regular monitoring and possible intervention. Meanwhile the model sensitivity test indicated that the river layer was most sensitive, while transferability was limited to similar criteria variables. The model can stimulate public participation in pipeline hazard management while policy makers and regulators would find it relevant in oil spill impact mitigation.
Highlights
Pipeline accidents are caused by mechanical and operational failure, natural hazard and third party interference [1] [2]
In order to mitigate the impact of oil pipeline spills on human health and the environment, the concept of pipeline impact radius (PIR) and high consequence area (HCA) was developed to delineate areas likely to be affected by pipeline hazards [7] [8]
An automated tool that can be used to monitor human susceptibility to pipeline hazards in wetland areas has been developed for public participation and collaboration in pipeline hazard management and
Summary
Pipeline accidents are caused by mechanical and operational failure, natural hazard and third party interference [1] [2]. Pipelines are important components of crude oil transportation and even play significant role in shaping political and economic landscape of global energy supply and transmission [2] [6]. To this end, extensive network of pipelines has been constructed to facilitate transportation of oil and gas across political boundaries. In order to mitigate the impact of oil pipeline spills on human health and the environment, the concept of pipeline impact radius (PIR) and high consequence area (HCA) was developed to delineate areas likely to be affected by pipeline hazards [7] [8]
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