Your search keyword '"Dariusz Popielarczyk"' showing total 2 results

1. Analysis of the remediation of coal tar-contaminated groundwater using ex situ remediation

Author

Marian Marschalko, Tomas Kempa, Dariusz Popielarczyk, Miroslav Cernik, Michaela Vicherkova, Petr Vicherek, and Dominik Niemiec

Subjects

coal tar-contamination, remediation dugout, groundwater decontamination, contaminated soil excavation, ex situ remediation, Geography, Planning and Development, alluvial sediments, Aquatic Science, Moravian–Silesian Region, Biochemistry, Water Science and Technology, Czech Republic

Abstract

The article describes the remediation of contaminated groundwater during the ex situ remediation of coal tar contamination following the closure of a coking plant in the Moravian-Silesian Region (Czech Republic). The aim of the article is to point out the advantages of ex situ soil remediation via the excavation of the contaminated geological environment combined with thermal desorption, a method of removing contaminants both from soil and groundwater. Its advantage is the absolute qualitative and quantitative control over the contaminated soil with the possibility of precise segmentation into contaminated and non-contaminated soils. Next, all contaminated groundwater may be pumped off upon the construction of sealing walls to control groundwater flows. To excavate the soil, it is necessary to reduce the contaminated groundwater level inside the sealing walls and thus create conditions for the extraction of contaminated soils using standard machinery. In detail, the article describes the removal of the contaminated groundwater and compares the quality of the pumped and inflowing water before and after the remediation. The locality is characteristic of a high horizontal and vertical grain-size heterogeneity of gravel-sand, which led to a varying filtration coefficient affecting the capacities of pumped groundwater quantity during the remediation. At the start of the remediation process, the contaminant levels exceeded the limits by the Czech Environmental Inspectorate several times. The post-remediation monitoring showed that all the contaminant levels were below the limit. Surprisingly, the overall groundwater contamination amounted to 232.86 t of contaminants as non-aqueous phase liquids, and 6872.9 kg of dissolved contaminants. As much as 12,200 t of contaminants were removed from the soil. Web of Science 14 14 art. no. 2182

Published

2022

2. The Use of Low-Cost Unmanned Aerial Vehicles in the Process of Building Models for Cultural Tourism, 3D Web and Augmented/Mixed Reality Applications

Author

Tomasz Templin and Dariusz Popielarczyk

Subjects

Architectural engineering, Process (engineering), Computer science, 02 engineering and technology, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, smart tourism, Smart city, tourism services, 0202 electrical engineering, electronic engineering, information engineering, UAV/UAS, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, 3D Web, business.industry, 010401 analytical chemistry, Information technology, 020207 software engineering, cultural heritage, MR, Atomic and Molecular Physics, and Optics, Cultural tourism, Mixed reality, 0104 chemical sciences, Visualization, Cultural heritage, smart city, Augmented reality, business, Tourism, AR

Abstract

Unmanned Aerial Systems (UAS) are widely used in low-cost photogrammetry. Even small Unmanned Aerial Vehicles (UAV) can deliver valuable data for the inventory of inaccessible and dangerous areas or objects. The acquisition of data for 3D object modeling is a complicated, time-consuming, and cost-intensive process. It requires the use of expensive equipment and often manual work as well as professional software. These are major barriers limiting the development of modern tourist platforms that promote local attractions. Information technologies offer new opportunities for the development of the services market, including the development of smart tourism services, as an integral part of the smart city concept. 3D models are an important element of this process as they form the basis for the use of new visualization technologies, such as Virtual, Mixed, and Augmented Reality (VR/MR/AR). 3D modeling provides a new opportunity to use AR/MR technology to present information about objects, virtual tours of the historic buildings, and their promotion. It also creates an opportunity to preserve the architectural heritage and preventive maintenance of buildings. Despite the increasing use of new measuring platforms and computer modeling techniques, the implementation of 3D building models in smart tourism services is still limited, focusing more on the results of scientific projects rather than on the implementation of the new ones. The paper presents an universal methodology for the inventory of historical buildings using low-cost UAVs. It describes the most important aspects related to the process of planning UAV measurement missions and photogrammetric data acquisition. The construction of 3D models and the possibilities of their further use to build smart tourism services based on Web/AR/MR/VR technology was also presented.

Published

2020