Brownfield Areas Research Articles

Spatial Planning Prerequisites for the Development of Affordable Housing in the Center of the City of Zagreb

This paper analyzes the concept of affordable housing and urban planning instruments that incentivize its development, especially in city centers. Considering the shortage of affordable housing in Zagreb, the research aims to identify contemporary urban planning practices that focus on the social function of housing and the role that local urban and housing policies have in ensuring access to it. By comparing the strategic documents for the housing development of the cities of Lyon and Barcelona and models of their implementation in the local urban plans for the areas of city centers and contact brownfield areas, the provisions incentivizing the development of the affordable housing (right of pre-emption, category of subsidized housing, inclusionary zoning, density bonus, and protection of residential use) are singled out. In the context of urban renewal of the historic center of Zagreb and of brownfield redevelopment in the contact zone of the city center, inclusion of the aforementioned provisions in local urban plans is examined, demonstrating the potential that such instrument has for the development of affordable housing in the city center.

Mapping Hydrogen Initiatives in Italy: An Overview of Funding and Projects

The global momentum towards hydrogen has led to various initiatives aimed at harnessing hydrogen’s potential. In particular, low-carbon hydrogen is recognized for its crucial role in reducing greenhouse gas emissions across hard-to-abate sectors such as steel, cement and heavy-duty transport. This study focuses on the presentation of all hydrogen-related financing initiatives in Italy, providing a comprehensive overview of the various activities and their geographical locations. The examined funding comes from the National Recovery and Resilience Plan (PNRR), from projects directly funded through the Important Projects of Common European Interest (IPCEI) and from several initiatives supported by private companies or other funding sources (hydrogen valleys). Specific calls for proposals within the PNRR initiative outline the allocation of funds, focusing on hydrogen production in brownfield areas (52 expected hydrogen production plants by 2026), hydrogen use in hard-to-abate sectors and the establishment of hydrogen refuelling stations for both road (48 refuelling stations by 2026) and railway transport (10 hydrogen-based railway lines). A detailed description of the funded initiatives (150 in total) is presented, encompassing their geographical location, typology and size (when available), as well as the funding they have received. This overview sheds light on regions prioritising decarbonisation efforts in heavy-duty transport, especially along cross-border commercial routes, as evident in northern Italy. Conversely, some regions concentrate more on local transport, typically buses, or on the industrial sector, primarily steel and chemical industries. Additionally, the study presents initiatives aimed at strengthening the national manufacturing capacity for hydrogen-related technologies, alongside new regulatory and incentive schemes for hydrogen. The ultimate goal of this analysis is to foster connections among existing and planned projects, stimulate new initiatives along the entire hydrogen value chain, raise an awareness of hydrogen among stakeholders and promote cooperation and international competitiveness.

The conversion of the reinforced concrete post-war brownfield sites into greenfields: Green line buffer zone of Cyprus

Brownfield areas are hazardous areas that arise as a result of the disuse of industrial, commercial, and residential buildings, which pose an obstacle to planning and decision-making mechanisms for the regions in which they are located in terms of environment and energy, and are a global problem for settlements. In planning studies where sustainability principles are taken into account, both abandoned reinforced concrete structures and abandoned traditional structures that contribute to natural life should be considered together. Brown field structures built with traditional and reinforced concrete materials can be seen in the green line region of the island of Cyprus. Converting abandoned building areas built from concrete material remaining in the unused buffer zone after the war on the island into green corridors is important to ensure sustainability. In this context, the study was evaluated in line with the Wheeler Sustainability Principles, the weight of each marker was determined in line with the literature review and local expert reports, and a road map that could be used to transform brown areas into green areas was created. This study both contributes to the limited existing literature and reveals the effects of energy and environmental sustainability in abandoned areas.

New near-mine prospecting approach using multivariate analysis and reflectance spectroscopy to define surface footprint: A case study of the Pequizão Gold Deposit, Crixás Greenstone Belt, Central Brazil

The Pequizão gold deposit in the Crixás greenstone belt, central Brazil, is structurally-controlled mineralization hosted mainly in carbonaceous phyllite with pervasive hydrothermalized zones and large amounts of disseminated sulfides and gold. Usually, regoliths of Au deposits are either unstudied or understudied in exploration surveys because of lower Au content and the difficulty and complexity of soil profiles. However, such investigation can be beneficial in brownfield exploration to assess larger areas than drilling. In this work, results of clustering and machine learning of soil geochemistry and reflectance spectroscopy integrated with a multivariate approach to determine soil footprints and to target new deposits in the surface of the Crixás greenstone belt. Reflectance spectroscopy was applied in 939 soil samples and is a valuable tool in mineral exploration for an immediate investigation of mineral assemblage from the target. It was calibrated with X-ray diffraction, geochemical, and multivariate approaches providing consistent vectors toward mineralization, with Pequizão soil samples developing gibbsite and phengitic-white mica as minerals related to mineralized samples. Multivariate analysis reveals that the deposit has a typical orogenic gold deposit chemical signature. Principal components and factor analysis first defined samples derived from carbonaceous phyllite and dolomite as the main ore hosts. The chemical aspects of hydrothermal alteration are As, Ag, Te, Ca, and Mg, with enrichment of Sb, V, Na, Ba, and W and depletion of Zn, Ga, and Pb that, according to ensemble learning, they have significant importance in the detection of gold. Understanding surface footprints of known deposits can be an exploratory guide for finding new soil geochemical halos related to mineralization zones. The research revealed new associations of minerals and chemical elements that can be determined as exploration vectors. It was possible to clarify further the knowledge about the footprint of mineralization in soil. Combining the soil-related methods applied in this study and a broad-coverage spectral approach in soil and drill cores can enhance success in prospecting in brownfield areas and expand to greenfields.

Hydrothermal Alteration Zones’ Magnetic Susceptibility Footprints and 3D Model of Iron Oxide-Copper-Gold (IOCG) Mineralization, Carajás Mineral Province, Brazil

Brownfield areas are important targets of exploration; however, the extensive drilling present in these areas has not fully exploited their prospective potential. The appropriate use of drill hole cores in these areas can play an important role in deep exploration. We present a case study of iron oxide-copper-gold (IOCG) Furnas Southeast deposit, located in the Carajás Mineral Province, Brazil. This deposit has disseminated chalcopyrite, bornite and gold mineralization associated with a silicic (Si), potassic (K), calcic (Na), sodic-calcic (Na-Ca) hydrothermal alteration, and intense iron metasomatism with massive magnetite (Fe) alteration. Petrophysical hand-held equipment measurements were carried out on drill core samples with the purpose of studying the potential roles that magnetic susceptibility properties can play in high-grade mineralization. The results indicate that the geological complexity of the IOCG deposit is readily reflected in the extensive variation of the measurements. The statistical analysis shows how the detailed characterization of this physical property carried out for this mineral association could effectively define and describe ore, and the magnetic susceptibility footprints of hydrothermal alteration zones. Furthermore, we were able to perform a magnetic susceptibility 3D modeling of diamagnetic, paramagnetic, and ferrimagnetic responses strictly correlated with known orebody. Thus, petrophysical analyses can form a quantitative geological criterion for ore delineation.

Empirical Model of Gaseous Mercury Emissions for the Analysis of Working Conditions in Outdoor Highly Contaminated Sites

The project SUBproducts4LIFE is a LIFE-funded research project that aims to demonstrate innovative circular economy concepts by repurposing industrial subproducts/waste (coal ash and gypsum from coal power plants, blast furnace slag, and steelmaking slag from steel factories) for the remediation of contaminated soils and brownfield areas associated with Hg mining on a large scale. Within the project, one of the objectives is related to worker safety by developing protocols and elaborating a guide of good practices to work under in these highly contaminated areas. The present research aims to assess the working conditions in an abandoned mine facility in terms of gaseous mercury in the environment, evaluating the main areas of the mine to ensure the health and safety of all workers and visitors. The study developed an empirical model for estimating the gaseous mercury concentration at any temperature with the target of scheduling the work to avoid occupational hazards. The research concluded that working without restrictions for temperatures under 15 °C in all the mine’s facilities is possible.

The impact of Socio-Demographic variables on the Retirement Environment

Objective - Demands for Urban Retirement Environments have attracted much attention in the industry for senior citizens. This study aimed to examine the socio-demographic profile and antecedent factors influencing adults' decisions and preparedness toward retirement environment facilities in two urban settings. Methodology/Technique – This study uses a quantitative cross-sectional approach using the descriptive-normative survey method with a modified self-administered questionnaire. Data was collected in Greater Kuala Lumpur and Kota Kinabalu. Mail survey respondents returned 369 usable questionnaires yielding a 14.5% response rate. Hypotheses were analyzed using the structural model. Finding – The study found that the urban population was receptive to retirement preparation with financial Planning and health insurance commitments. The majority, 72%, engaged with exercise and 80% with lifelong learning activities and profited from a better health status. In addition, 69% to 72% were more well-prepared to welcome home care and daycare service packages. However, it was a natural preference to accept lower fees up to RM300, even though most hold health insurance plans, and the higher-income respondents with more than RM75,000 annual income showed a willingness to pay between RM1000 to RM5000 for institutional care services. Novelty – This study has examined significant relationships between the level of retirement preparedness, namely the three elements, financial Planning, health insurance, and lifelong Learning, with their socio-demographic profile. It also provides the gaps and potential greenfield versus brownfield areas for investment. The aged care providers and insurance companies have a potential niche market in developing and collaborating using the above elements in developing retirement insurance and investment package strategies. Together they can generate more options to build sustainable retirement environment business agenda. Type of Paper: Empirical JEL Classification: I11, I12, I13, Keywords: Retirement, Financial Planning, Health Insurance, Lifelong Learning, Technology Advancement Reference to this paper should be referred to as follows: Fung, C.S; Jaafar, S; Ismail, R.M; Rahim, A.S.A. (2022). The impact of Socio-Demographic variables on the Retirement Environment, GATR-Global J. Bus. Soc. Sci. Review, 10(3), 190–219. https://doi.org/10.35609/gjbssr.2022.10.3(8)

Redevelopment of urban brownfield sites in China: Motivation, history, policies and improved management

Rapid urbanisation in China has resulted in an increased demand for land in towns and cities. To upgrade and modernise, China has also moved many major industries from urban centres to less populated areas. With the high economic value of urban land, the transformation and utilisation of brownfield areas have become important economically and socially. The Chinese government has recognised the need for strong frameworks to safeguard soil and groundwater quality, with brownfield sites a key category for management. Strong scientific, regulatory and decision-making frameworks are needed and being adopted to ensure practical, careful and wise use of central and localised government resources, to manage the reuse and regeneration of these brownfield sites. This paper reviews the context, policies and management procedures of developing brownfield sites in countries with a history of brownfield management and discusses China’s current situation and priorities for brownfield governance and redevelopment. These include (1) clarification of brownfield site soil contamination risk control standards and risk assessment procedures, (2) the responsibilities of different national and local agencies, (3) the establishment of a national expert committee to advise on best practices, policy and process, (4) the use of registered brownfield databases at national, provincial, municipal and county levels, and (5) the set up of soil pollution prevention fund at the provincial level.

BROWNFIELD REGENERATION AS AN URBAN APPROACH RESISTING ECONOMIC RECESSION

Brownfield is a land that was used before for different purposes, then was polluted, and abandoned, this type of land is called brownfield. Brownfield regeneration consists of three main sustainable fields: economical, environmental, and social. Brownfield regeneration is a main key in sustainable urban development. Thus, suffering from an economic crisis that affected all the veins of the country and left people in a bad situation. That shortage made the citizens feel miserable, unproductive, less efficient, and unpleased. This research aims to examine the validity of using the brownfield areas to be proper lands as a tool for resisting economic recession. To achieve the main aim, this paper will apply desk research, literature review, defining brownfield and its types in addition to field work and questionnaires. Through these studies, the paper will conclude with some recommendations and suggestions to regenerate some brownfields and its impact on the economy.

Analysis of the airborne mercury and particulate arsenic levels close to an abandoned waste dump and buildings of a mercury mine and the potential risk of atmospheric pollution

The project SUBproducts4LIFE is a research project financed by the European Union within the framework of the LIFE programme which proposes to demonstrate innovative circular economy concepts by the reuse of industrial subproducts/waste (coal ash and gypsum from coal power plants, blast furnace slag and steelmaking slag from steel factories) for the remediation at a real scale of contaminated soils and brownfield areas related to Hg mining. The area it is developing includes the waste dumps and demolition waste of the metallurgical plant of the abandoned mercury mine La Soterraña in Asturias, Northern Spain. Before this restoration research project takes place, this paper aims to evaluate airborne mercury and arsenic levels in land strongly contaminated with arsenic and mercury. The goal is to evaluate the air quality and compare it with international literature under reference levels. The study sampled gaseous mercury with a high-resolution direct reading device (LUMEX RA-915) and arsenic and mercury particulates with an IOM sampler, Casella personal pump, analyzed in the laboratory, to ensure the Health and Safety of workers, visitors and pedestrians walking near the mine and near the villages. The study concludes that As and Hg levels in the air are below 1 μg/m3 for the general public and villages near the mine. For works in the rubble area in the mine, it is recommended that workers use personal protective equipment and control measures are used to keep arsenic and mercury levels as low as technically possible.Article HighlightsGaseous Hg and airborne Hg and As particulates are measured in a strongly contaminated mercury mining and metallurgy site.High concentration of gaseous Hg is present in the strongly contaminated soils; therefore protective measures must be adopted for workers.Apart from an area with demolition rubble of a metallurgical plant, airborne Hg-As contamination is not harmful to workers or the general public.

Territories in the Middle of the Ford. Mapping and Knowledge for Nature-Based Approach in the South Italy

The paper investigates a particular phenomenon of the industrialization of Southern Italy, starting from the second post-war period, and, in particular, the unsolved relationship between some large industrial areas and the territories of the medium and small cities on which such productive “plates” have been installed. The town planning policies and instruments with which the industrialization of Southern Italy was planned, on the contrary, foresaw a strong integration between urban fabric and industrial agglomerations. Through the case study of the province of Caserta, the research illustrated by the paper investigates, first of all, the policies that supported this process of industrialization and what the territorial effects of this phenomenon were. Next, the paper illustrates the method of knowledge and mapping of the territory of the case study of the industrial development area of Caserta. The data will be collected in a GIS platform that will return the following condition that is nowadays not available: analytical maps of the brownfield areas and the identification of the areas still intact, agricultural or green areas, urban areas and infrastructures, which trace a cognitive framework addressed to the project in which it will possible to experiment some possible eco-innovative and nature-based solutions.

U-Pb zircon SHRIMP dating of a protracted magmatic setting and its volcanic emplacement: Insights from the felsic volcanic rocks hosting the sulphide ore of the giant Aljustrel deposit, Iberian Pyrite Belt

• A protracted (~50 Ma) magmatic activity is suggested. • Upper Devonian subvolcanic activity (~373–365 Ma) took place before main volcanism . • Early Carboniferous long-lasting volcanism was identified (353–359 Ma) • Data suggests diachronism of sulphide deposition between different sub-basins. • Pb loss effects are attributed to the Variscan deformation and metamorphism . A geochronological study using SHRIMP U-Pb analysis of zircon grains has been conducted to date felsic volcanic rocks hosting the six massive sulphide deposits of the giant Aljustrel mining district in the Iberian Pyrite Belt. A multiple method age calculation approach was used to validate and ponder calculated Concordia ages (emplacement and inherited), which included weighted average, probability density peak(s), Tuff Zirc and Unmix functions. This approach was particularly useful to interpret the wide continuous single U-Pb ages (320–405 Ma) recorded in the Aljustrel volcanic rocks. The volcanic pile (>250 m) that hosts the Aljustrel deposits was emplaced between 359 and 353 Ma. Upper Devonian inheritance, representing subvolcanic activity, is well-represented in the volcanic rocks of Aljustrel (373–365 Ma). Older Devonian inherited zircon ages at 405 Ma, 388 Ma and 380 Ma were retrieved, hypothetically representing deep plutonism or other melting episodes, which suggests a long-lasting (~50 Ma) magmatic activity in the Aljustrel district. Older pre-Devonian inherited ages, uppermost Silurian and early to late Cambrian, and post-emplacement ages (~330–345 Ma) were also detected, with the latter reflecting Pb loss most likely driven by the main Variscan orogenic event. Maximum ages obtained for the volcanic rocks in the different deposits open the possibility that the last pulses of volcanic activity and subsequent deposition of the massive sulphides were diachronic in the different Aljustrel sub-basins. Additionally, results imply that, contrary to previously assumed, Gavião and São João-Moinho deposits are probably not the same ore lens disrupted by tardi-Variscan faults. This opens new opportunities for mining exploration and targeting in the Aljustrel district and points out the importance of high-resolution geochronological studies in mining and brownfield areas.

Eco-City: Model Concept for Transforming Brownfield into Modern Urban District

Brownfields are undoubtedly a problem in many 21st century cities. Abandoned, degraded, dangerous, overgrown and degrading the image of cities, they also have many potentials and assets. In the context of contemporary urban development trends related to sustainable development and the idea of creating a compact city with a high quality of life, post-industrial areas, especially those located in city centers, are ideal areas for new investments. Polish cities still have a tendency to urban sprawl, which is why the purpose of this article is to draw attention to the transformation of brownfield areas into modern eco and healthy urban districts as a way of creating sustainable urban space. In addition, the article deals with the topic of pro-ecological solutions, including those related to adaptation to climate change. The study uses the case study method. Five significant examples of post-industrial area transformation from Germany, Spain and France were selected. During the analyzes compared masterplans, functional schemes and location of these areas, and then the basic parameters and relationships between them were distinguished in four main categories: general data, environment, land development and attractiveness assessment. The conclusions of the comparative analysis allowed for the definition of detailed guidelines for creating a model concept for land development of the brownfields located in the city structure. The chosen location is placed in Katowice in former areas of Silesia Zinc Plant. The proposed concept presents functional solutions for connecting residential, recreational, commercial office and industrial areas. It is a template solution for the process of spatial, social and economic development. The project proposes pro-ecological solutions and technologies, including: water recycling, use of solar energy, energy storage, intelligent control and monitoring systems, sustainable mobility, building development based on natural ventilation of the city, rain gardens, reducing heat islands, etc. The transformation methods based on modern pro-ecological technologies in the context of adaptation to climate change which were presented in the article may constitute guidelines for the implementation in similar cases of transforming brownfield areas into modern urban districts.

City Space Recycling: The Example of Brownfield Redevelopment

In many parts of the world the manufacturing and mining industries have left a huge mark on the spatial structure of entire regions, as well as individual cities. Urban tissue has been growing for years around the dynamically developing industrial plants and mines during the period of intensive industrialization. As a result of industrial restructuring, abandoned and degraded post-industrial areas created problematic places in the structure of cities. Moreover, many of them are located in the direct neighbourhood of the centers of these cities, in the strict urban fabric. Nowadays, in the era of balancing urban development, creating compact, smart and eco cities, one of the important problems faced by city authorities, architects and urban planners is solving the issue of optimal shaping of city structure, including revitalization of post-industrial areas. The article deals with the subject of transforming brownfield areas into modern urban tissue, related to the surrounding areas, and at the same time referring to its industrial heritage. For this purpose, a number of studies were carried out, including comparative analyzes. Therefore, five examples of projects from Europe related to the transformation of brownfield sites for the purposes of industrial and technology parks were selected. This list includes two examples of Polish parks located in Upper Silesia and three examples of areas located in Germany in the Metropolis of the Ruhr Area. Selected areas were analyzed and evaluated in terms of a number of parameters in order to identify the most important factors positively influencing transformations and problem areas requiring the most attention. Based on the results of the case study, a model concept for post-industrial area development was prepared for the purposes of developing an industrial and technological park and recreational areas, complementing the leisure offer for the surrounding residential areas. The location in former Baildon ironworks in Katowice in Upper Silesia was chosen as the place of the conceptual design. Upper Silesia is known as one of the most urbanized and industrialized regions of Poland, which is still struggling with the negative effects of industrial restructuring. Research results indicate that the areas of former mines and production plants, thanks to their strengths, can be attractively transformed into other functions to become again a showcase of the entire city, providing an incentive to learn about the industrial history of the region. The introduction of a diversified program and giving a new character to areas with huge investor potential, helps to return the city to areas of great social, economic and spatial importance.

Implementation of Adjusted Fuzzy AHP Method in the Assessment for Reuse of Industrial Buildings

With rapid economic development and restructuring, the number of old or obsolete buildings is growing in large cities. Construction practice has actively focused in recent decades on the regeneration of brownfield areas and creating opportunities for their cost-effective and sustainable reuse. Some of the buildings could be identified as-built industrial heritage whose purpose could be modified and used differently. Adaptive reuse can make a major contribution to sustainable development by reducing construction waste and saving natural resources. In the reuse management process, the problem is how to deal with multiple criteria that are imposed as factors in assessing the reuse of a building. Using the adjusted fuzzy analytical hierarchy process (FAHP), we explore the potential for the adaptation and new use of industrial buildings in the former area of Electronic Industry Nis (EI Nis) in Serbia. The standard FAHP, in which we determine the weights of each sub-criterion based on the expert’s evaluation, we adjusted for use when no pairwise comparison of existing alternatives was available. Multiple criteria evaluation was performed by applying many criteria and sub-criteria, taking into account the different spatial and physical performance of buildings, as well as their locational indicators. A case study is used to demonstrate the application of the method and show its effectiveness.

Developing Technologies Can Lower Subsea Tieback Cost

This article, written by JPT Technology Editor Judy Feder, contains highlights of paper OTC 30667, “How Technology Enables a Lower Cost for Subsea Tiebacks,” by Fabrice Bacati, Giorgio Arcangeletti, SPE, Bruno Breuskin, Saipem, et al., prepared for the 2020 Offshore Technology Conference, originally scheduled to be held in Houston, 4-7 May. The paper has not been peer reviewed. Copyright 2020 Offshore Technology Conference. Reproduced by permission. The traditional subsea tieback model is evolving, supported by advances in flow assurance that allow tiebacks over much longer distances and by the introduction of new technologies that increase overall cost effectiveness. Paper OTC 30667 discusses several of these technologies, their maturity status, and how they can be integrated economically. Introduction During the past 15 years, operating companies have relied increasingly on effective subsea field-development solutions to eliminate the need for traditional platforms or vessels with topside processing facilities, particularly in geographically remote areas and small-pool developments of maturing brownfield areas. Technical and economic challenges include flow assurance and the cost of the umbilical and flowlines, which increase with length. These aspects, together with others independent of length, such as power and space availability, affect project economics significantly. Technologies developed recently or in their final stage of qualification can help not only in solving technical challenges but also in finding cost-effective configurations, either through reduction or re-apportioning of capital and operational expenditures, extension of reserves recoverability, or reduction of associated risks. The complete paper outlines several configurations, beginning with those enabled by conventional technologies, and compares them to those enabled by the new technologies. Each section of the complete paper discusses the subject technology’s composition, application, maturity, and impact on cost effectiveness. Subsea Boosting Subsea boosting systems that ensure pressure to enable production flow for the life of the field have matured during the last 10 years. Boosting can reduce backpressure at wellheads, and also can transport the production fluid at higher pressure to minimize flowline diameter and control possible instability issues. For gas fields, recovery can be increased by allowing the reservoir to deplete and then using compression to produce the field over a longer time. Currently, several boosting systems operate internationally. The type of pump technology used depends on the fluid to be boosted and the performance required. Single-phase pumps are used for water injection and oil boosting up to 15% of gas/volume fraction (GVF). Hybrid pumps are used for GVF up to 30%, and multiphase pumps for up to 95%. Subsea compressors are used for higher GVF.

İşlevini yitirmiş endüstriyel peyzajların yeniden işlevlendirilmesi: Sümerbank Kayseri Bez Fabrikası örneği

Son yıllarda, kent içerisinde ömrünü yitirmiş endüstriyel peyzaj alanları kentsel dönüşüm projeleri kapsamında çeşitli ölçeklerde rekreasyon, ekolojik ve ekonomik amaçları kapsayan sürdürülebilir plan kararlarıyla yeniden işlevlendirilmektedir. Yeniden işlevlendirme, kent içi çöküntü alanların korunması ve kültürel sürekliliğinin sağlanmasındaki temel taşı oluşturmaktadır. Doğru yeniden işlevlendirme çalışmaları ile endüstriyel peyzaj alanları gelecek nesillere aktarılabilir. Bu çalışmada, Cumhuriyet Dönemi’nin öncü sanayi kuruluşlarından biri olan Sümerbank Kayseri Bez Fabrikası’nın, yeniden işlevlendirme kapsamında dönüştürüldüğü Abdullah Gül Üniversitesi Sümer Kampüsü, sanayi sonrası peyzajların yeniden işlevlendirilmesinde kullanılan tasarım ilkeleri ve stratejileri çerçevesinde yapılan gözlemler sonucu analiz edilmiş, bir öneri çizelgesi oluşturulmuştur.

Ground-Borne Vibration Due to Construction Works with Respect to Brownfield Areas

Ground-borne vibration caused by mechanized construction works is the most common problem in built-up areas in general. In post-industrial cities, there are many building facilities in the category of brownfields. Parts of these buildings are often technically and culturally valuable buildings with varying degrees of decay. These are very susceptible to vibrations. The revitalization of brownfield areas employs a wide range of works and practices, among which are those that have adverse effects in the form of vibrations and shocks. This paper presents a theoretical study and original results concerning the seismic load on historical and dilapidated buildings in brownfield areas due to the ground-borne vibration caused by mechanized construction works. Original data from seismic measurements are related to the post-industrial Ostrava agglomeration, in the area of one of the biggest successfully revitalized brownfields in Central Europe. All measurements were evaluated in terms of both amplitude and frequency. The results of all measurements were processed in the form of attenuation curves.

Contribution to sustainable development: Re-development of post-mining brownfields

Abstract The transfer of limited amounts of resources to the future generations is a paramount endeavor in the perspective of sustainable development, especially considering the problems like global-scale urban population increase, scarcity of non-renewable energy resources, and global warming. Considering all of these, a sand quarry in Adilcevaz (Bitlis/Turkey) that has ended its operations has been re-purposed by the district municipality, by installing solar panels on the site in order to turn it into a solar power plant and to produce renewable energy. The aim of this study is to inspect this particular project in detail to better emphasize the benefits of reusing brownfield areas for further sustainable development, with hopes to help in the pursuit of a solution for reducing emissions and avoiding global warming. The project involved in the study has attempted to take steps towards such a solution by re-purposing the quarry area as a solar panel farm. On-site inceptions, in-depth interviews, and literature analysis regarding the area were carried out as part of the study, and it was found out that such a repurposing and reuse as a solar power plant (SPP) has only one other example throughout the world for a mining area. The stakeholders were interviewed to reveal their thoughts regarding what their expectations and needs were, and whether they were happy with the results. Findings indicate that the project was a success in every regard, as the stakeholders were satisfied, the municipality began to sell the electricity produced, and public awareness regarding sustainable development has increased. The project presents a good and frontier example of sustainable energy development, and reflects Turkey's attention and care for the subject.

Model of sustainable regional development with implementation of brownfield areas

The article highlights the potential of brownfield areas in the sense of the rules and principles of sustainable development of the regions which shows significant disparities determined by the developmental tendencies of the socio-economic and environmental spheres, whose interactions were its basic platform in the Slovak Republic in the last years. Brownfield areas, with a degree of degradation and environmental quality depending on their type and original use, have a negative impact on all mentioned spheres of regional development, since such sites are unused and represent so-called brown investments, i.e. areas from which the region has no benefit. From the explicitly defined positive and negative determinants of the actual occurrence of brownfield areas in terms of sustainable development of the regions, the article quantifies their prioritization in the process of implementation into the regional development model, accepting the principles of Saaty matrix which is objective from a process perspective of sustainable regional development. Based on the explicit quantification of the above-mentioned determinants, the categorization of brownfield areas in the process of sustainable regional development, including the model of regional development with implemented brownfield sites, whose actual occurrence supports the occurrence of diversified activities, reduces the price of the surrounding land and ultimately threatens the health of the affected population and reduces the price of surrounding lands.