O. Kirichek
O. Kirichek
Profiel
Dr. Alex Kirichek is an assistant professor conducting multidisciplinary research in the Section of Rivers and Ports in the Departement of Hydraulic Engineering at the Faculty of Civil Engineering and Geosciences at TU Delft. His research focuses on the interaction between soil science, microbiology, geophysics, hydrodynamics, sediment dynamics, and data science to develop new tools, knowledge and interventions for port and waterways processes such as accessibility, maintenance dredging, and navigation.
Alex is one of the founders of the MUDNET network that is meant to bridge the academic and industrial worlds by initiating discussions, identifying knowledge gaps and generating new applied knowledge for the benefit of academic and scientific progress, society, government and the corporate world from the EU.
The list of selected projects where Alex acts as PI is as follows:
PAving THe way towards Zero-Emission and RObust inland shipping (PATH2ZERO): The goal of this NWO/NWA-funded project is to develop a digital twin for the inland shipping system, that can be used for assessing the efficiency of zero-emission strategies. This digital representation represents the real system with all relevant components of inland shipping and focuses on three main aspects: the individual vessels, the logistic chains and the infrastructure. Potential interventions are considered ranging from the application of new technologies for individual vessels to policy measures for an entire shipping corridor. Future scenarios can be imposed on the digital twin and their efficiency can be evaluated for the right path towards zero emission shipping.
Sustainable, smart and circular strategies for port accessibility. The main objective of this research is to develop a general methodology for evaluating the trade-offs of port accessibility and maintenance in order to facilitate the associated decision-making processes in ports worldwide. To promote worldwide applicability this project links port logistic concepts, on the one hand, with maintenance logistic strategies that are rooted in scientific knowledge of hydro- and sediment dynamics, on the other hand. By linking these two in an integral decision framework port managers should be able to make better informed decisions on port maintenance, balancing aspects like capacity and efficiency, as well as sustainability, and safety.
Equilibrium-based maintenance dredging. The objective of this research is to develop strategies for equilibrium-based maintenance dredging in the Port of Emden, Germany. In-situ analysis of key sediment characteristics is conducted to optimize the maintenance efficiency and to relate the effect of the maintenance to the short-term and long-term changes in the system. This research collects the evidence to what extent current strategies comply with circularity principles. The developed framework will be serving as a decision-making tool facilitating the analysis of the sediment maintenance strategy and required maintenance depth.
Defining nautical depth for sailing through mud. The project provides new insights into the application of the nautical bottom concept for sailing through mud. Key fundamental processes of sediment dynamics have been adapted to develop new sustainable sediment management strategies in the Port of Felixstowe, the UK. Sediment conditioning with the Tiamat system and other maintenance dredging techniques is linked to the nautical bottom applications for improved port accessibility.
Academische achtergrond
Dr. Alex Kirichek is an assistant professor in the Section of Rivers and Ports of the Department of Hydraulic Engineering at the Faculty of Civil Engineering and Geosciences at TU Delft. Alex has a MSc degree in Civil Engineering. He defended his PhD title in Applied Geophysics at TU Delft in 2018. After his PhD study, he conducted postdoctoral research on rheological characterization of sediment for developing new maintenance dredging strategies in the group of Port and Waterways (TU Delft). Alex worked as Researcher/Advisor the Department of Ecosystems and Sediment Dynamics in the Unit of Marine and Coastal Systems.
Publicaties
-
2024
Agitation dredging of silt and fine sand with Water Injection Dredging, Tiamat and Underwater Plough
a case study in the Port of Rotterdam
Sterre Neumann / Alex Kirichek / Andre van Hassent -
2024
Analyzing the interaction between maintenance dredging and seagoing vessels: a case study in the Port of Rotterdam
Arash Sepehri / Alex Kirichek / Solange van der Werff / Fedor Baart / Marcel van den Heuvel / Mark van Koningsveld
-
2024
Bridging the depth
lessons learned from deep-sea mining for better predicting turbidity plumes
W. Ali / A. Kirichek / R. Helmons / C. Chassagne -
2024
CFD analysis of the full-scale resistance of an oil tanker in presence of a mud–water interface
S. Lovato / S.L. Toxopeus / J.W. Settels / G.H. Keetels / A. Kirichek
-
2024
Collective effects on the settling of clay flocs
W. Ali / A. Kirichek / C. Chassagne
-
Onderwijs 2024
Onderwijs 2023
Media
-
2022-07-08
Alex Kirichek in de media 2022
Verscheen in: Topsector Logistiek
Prijzen
-
2021
NWO Science Awards 2021
The Team Science Award rewards the most inspiring and successful team of researchers from various disciplinary fields, who jointly take on a scientific challenge in which their individual strengths and expertise demonstrably reinforce each other.
Nevenwerkzaamheden
-
2023-01-02 - 2025-01-02
Landbouw, bosbouw en visserij
-
2023-01-02 - 2025-01-02
Advisering/onderzoek en overig