Abstract
The most appropriate method to protect settlements and economically important sites from flood hazard, is the implementation of flood protection measures in stream catchments and protected localities, which contribute to reduce the peak flow and distribution of the flood wave over a longer period of time. If such measures are not realistic or ineffective, it is necessary to focus on flood protection directly on the area of the protected side or its vicinity. Where the lag time between the flood threat detection and actual flood onset is short, one possible measure is to increase the capacity of the watercourse, very often in combination with other flood mitigation measures in the protected area. The engineering approach to flood protection is the subject of many scientific research studies. Permission for flood protection structures depends on their environmental impact assessment (EIA), according to Law no. 24/2002 Coll. on Environmental Impact Assessment in the Slovak Republic, annex no. 8 (list of activities subject to EIA). Based on the EIA, it is possible to select the best alternative of flood protection, i.e., the alternative with the lowest risk impact on the environment. This paper aims to analyse the flood protection measures along the Lukavica stream (central Slovakia), applying hydraulic models. The best alternative with the lowest impact on the environment, assessed using the risk analysis method, consists of detention reservoir construction. An effective combination of environmental impact assessment and hydraulic modelling contribute to the selection of an effective flood protection measure in the territory.
Highlights
An environmental impact assessment (EIA) is an important process, which is applied prior to approving the implementation of an investment plan [1]
Wang et al [13] used these methods for flood risk assessment in the Dongting Lake Region in Central China; Romanescu [14] applied multicriteria analysis (MCA) methods for flood vulnerability assessment at Marginea village in north-east Romania; Blišt’anová [15] applied Geographical information systems (GIS) and MCA methods for flood vulnerability assessment in the Bodva stream catchment in south-east Slovakia; Zelenáková et al [16] assessed flood damages based on BIM; and Pintilie et al [17] applied 2D streamflow hydraulic modelling to improve urban flood hazard maps
The first part of this study presents the design of individual alternatives of flood protection, which subsequently will be evaluated using the proposed universal matrix of risk analysis (UMRA) method
Summary
An environmental impact assessment (EIA) is an important process, which is applied prior to approving the implementation of an investment plan [1]. An EIA is based on detailed analysis of the expected and other potential impacts on individual components of the environment and the population, such as the water, soil, air, climate, flora and fauna, including the landscape and cultural and historical heritage [3]. An EIA is an ancillary planning activity aims to identify, predict and assess the impacts of the proposed actions and development projects on the environment and especially the population [4,5,6]. Numerous EIA approaches have been designed as tools for identifying, predicting and assessing the impacts of a proposed project and for preparing an Environmental Impact Statement [7,8]. RA is currently widely used for predicting the dangers arising from various stressors: physical and chemical (for example, natural disasters, climate change, pollution and contaminants in food and water); biological (human, plant and animal pathogens, pests affecting plants and animals and invasive species); social and economic (unemployment, financial losses and public safety, including the risk of terrorism); construction and engineering (building safety, fire safety and military applications); and trade (project activities, insurance, litigation and credit) [19]
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