37,99 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in 6-10 Tagen
payback
19 °P sammeln
  • Gebundenes Buch

This book explores the benefits of using risk analysis techniques in the evaluation of flood protection structures, and examines the results of the environmental impact assessment for selected planned flood protection projects. The objective of the book is to propose a methodology for environmental impact assessment in water management. In more detail, flood mitigation measures are investigated with the aim of selecting the best option for the approval process. This methodology is intended to streamline the process of environmental impact assessment for structures in the field of the water…mehr

Produktbeschreibung
This book explores the benefits of using risk analysis techniques in the evaluation of flood protection structures, and examines the results of the environmental impact assessment for selected planned flood protection projects.
The objective of the book is to propose a methodology for environmental impact assessment in water management. In more detail, flood mitigation measures are investigated with the aim of selecting the best option for the approval process. This methodology is intended to streamline the process of environmental impact assessment for structures in the field of the water management.
The book's environmental impact assessment system for water management structures analyzes the respective risks for different options. The results are intended to support the selection of future projects that pose minimum risks to the environment. Comparison of alternatives and designation of the optimal variant are implemented on the basis of selected criteria that objectively describe the characteristics of the planned alternatives and their respective impacts on the environment. The proposed Guideline for environmental impact assessment of flood protection objects employs multi-parametric risk analysis, a method intended to not only enhance the transparency and sensitivity of the evaluation process, but also successfully addresses the requirements of environmental impact assessment systems in the European Union. These modifications are intended to improve the outcomes of the environmental impact assessment, but may also be applied to other infrastructure projects. The case study proves that the primary aim - to improve transparency and minimize subjectivity in the environmental impact assessment process specific to flood protection structure projects - is met for the planned project in Kruzlov, Slovakia.
Autorenporträt
Martina Zele¿áková currently serves as an Associate Professor at the Institute of Environmental Engineering, Faculty of Civil Engineering at the Technical University of Koice. In the context of her scientific research activities she has focused on environmental impact assessment, water management, and the assessment of environmental risks in river basins in relation to flood events, drought and sources of pollution. The results of her work have been published in books, national and international journals, and national and international conferences proceedings. She has engaged in national and international projects, also as the principal investigator.    Lenka Zvijáková received her degree in Environmental Engineering from the Faculty of Civil Engineering at the Technical University of Koice. The topic of her thesis was the application of risk analysis methods to the environmental impact assessment of water structures. The results of her work have been published in journals and proceedings. She has also cooperated in the preparation of environmental impact assessment reports on flood protection structures.