Petrographic Characteristics of Sandstones as a Basis to Evaluate Their Suitability in Construction and Energy Storage Applications. A Case Study from Klepa Nafpaktias (Central Western Greece)

Petrounias, Petros; Giannakopoulou, Panagiota P.; Rogkala, Aikaterini; Kalpogiannaki, Maria; Koutsovitis, Petros; Damoulianou, Maria-Elli; Koukouzas, Nikolaos

doi:10.3390/en13051119

Cited by 16 publications

(9 citation statements)

References 57 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The grid size is 50 m × 50 m, which is classified and assigned according to the classification standard of ecological suitability evaluation factors ( Table 2 ). In the evaluation process, in order to reflect the principle of giving priority to ecological protection, firstly, ArcGIS software is used to conduct mosaic operation on the four indicators of ecological security factors: basic farmland protection, nature reserve, protected water area and cultural landscape to obtain the scope of the reserve; The four factors are substituted into formula ( 1 ) for weighted superposition operation to obtain the ecological security factor map—use the other index layers of exaction in the scope of the reserve and substitute other indexes into formula ( 2 ) for weighted superposition operation to obtain the natural and social factor map—then mosaically add the ecological security factor map and the natural and social factor map to obtain the comprehensive suitability evaluation value of regional construction land in mountainous villages and towns with multifactor weighted superposition [ 16 ]. Using k -means clustering method, it is divided into five categories: the most suitable land, more suitable land, basically suitable land, unsuitable land, and unavailable land.…”

Section: Case Analysismentioning

confidence: 99%

GIS Multimedia Technology in Regional Construction Land Suitability Evaluation in Mountainous Villages and Towns

Zhen-hong

Zhou

2022

Computational Intelligence and Neuroscience

View full text Add to dashboard Cite

In order to explore the suitability evaluation of regional construction land in mountainous villages and towns, a method based on GIS technology is proposed. Supported by GIS and RS technology, the Delphi method is used to determine the natural, socioeconomic, and ecological security factors affecting the ecological suitability of regional construction land in mountainous villages and towns, and analytic hierarchy process is used to calculate the weight of relevant influencing factors. Following the principle of giving priority to ecological protection, a set of ecological suitability evaluation model system and method of regional construction land in mountainous villages and towns are established, based on which the basic ecological control areas of mountainous villages and towns in the study area are divided, so as to provide suggestions for rational and effective planning of land resources in mountainous villages and towns. The experimental results show that the K-means clustering method is divided into five categories: the most suitable land, the more suitable land, the basically suitable land, the unsuitable land, and the unavailable land. Finally, according to the suitability grade system of construction land, it is reclassified, the unsuitable land and unavailable land are divided into basic ecological control areas, the most suitable land and more suitable land are divided into construction control areas, and the basically suitable land is listed as ecological buffer areas. It is proved that the basic ecological control area determined by the model method is basically consistent with the current basic ecological control line of a city, which shows that the model is practical and scientific.

show abstract

Section: Case Analysismentioning

confidence: 99%

GIS Multimedia Technology in Regional Construction Land Suitability Evaluation in Mountainous Villages and Towns

Zhen-hong

Zhou

2022

Computational Intelligence and Neuroscience

View full text Add to dashboard Cite

show abstract

“…Further to this, it is expected that cement production will vastly increase by within the next 20 years due to the increasing demand in cement from developing countries. Thus, solutions must be implemented to reduce CO 2 emissions because this it may likely put the Paris Agreement's global climate targets in jeopardy (e.g., [41,42]). The production of Portland cement leaves a notable carbon footprint due to the use of fossil fuels to create the necessary intense heating but more important, from the chemical decomposition of limestone that releases large amounts of CO 2 as a byproduct.…”

Section: Suppressing Co 2 Emissions By Use Of Slag In Cement Manufactmentioning

confidence: 99%

Valorization of Slags Produced by Smelting of Metallurgical Dusts and Lateritic Ore Fines in Manufacturing of Slag Cements

et al. 2020

Self Cite

View full text Add to dashboard Cite

A pyrometallurgical process was developed for the recycling of Ni bearing dusts and laterite ore fines by direct reduction smelting in DC (direct current) arc furnace. In the course of the performed industrial trials, besides the Ni-recovery in the liquid bath, slag composition was deliberately adjusted in order to produce a series of metallurgical slags with different chemical and mineralogical composition. The aim of this study was to investigate their suitability as clinker substitute in cement manufacturing. Examined parameters were slag FeOx content, basicity and applied cooling media (air, water cooling). A series of composite Portland and slag cements were manufactured in laboratory scale incorporating 20% and 40% of each slag, respectively; the rest being clinker of OPC (ordinary Portland cement) and 5% gypsum. The extended mineralogical analysis and microstructural properties of the produced slags were examined and correlated with the properties of the produced cements. The physical and mechanical characteristics of all examined cement products were found to meet the requirements of the regulation set for cements. The present research revealed that the most critical parameter in the compressive strength development of the slag cements is the mineralogical composition of the slag. Even in cases where rapid cooling to obtain glassy matrix is not feasible, adjustment of slag analysis to obtain mineralogical phases similar to those met in clinker of OPC, even at higher FeO contents (up to ~21wt.%), can result in production of slag with considerable latent hydraulic properties. These results indicate that there is potentially space for adjustments in conventional EAF (electric arc furnace) steel slags composition to allow for their wider use in cement manufacturing with significant environmental and economic benefits resulting from the reduction of energy requirements, CO2 emissions and natural raw materials consumption.

show abstract

“…More recently, thermomechanical and hydraulic transport rock properties have become increasingly relevant for applications associated with seasonal geothermal storage systems and sensible heat storage units (e.g. [6], [13] and referenced therein, [14], [15]). Tiskatine et al (2016) [16] investigated 13 different, irregular rock samples (limestone, granite, marble, rhyolite, quartzitic sandstone) with respect to their suitability for use in high temperature thermal storage systems.…”

Section: Introductionmentioning

confidence: 99%

Experimental investigation of the effect of thermal cycling on the thermomechanical properties of three rock varieties for high temperature thermal energy storage

Fränzer

Jeskulke

Neumann

et al. 2023

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

During the past years “rock batteries” have become increasingly relevant for the storage of renewable energy sources, such as wind and solar energy, because of their economic and ecological advantages with respect to previously more common materials for thermal energy storage (TES) such as salt. In rock-based TES systems, thermal energy is stored in packed-bed rock using air as heat transfer fluid. We investigated three different rock types with respect to changes in thermomechanical properties after different numbers of thermal cycles, Ruhr sandstone (Oberste quarry in Dortmund - Germany), basalt (commercial MTV basalt) and Calanca gneiss. Cylindrical samples were heated to 800°C within 11,5 h before temperature was kept constant for another 30 min and then decreased within 11,5 h. Samples were thermomechanically investigated before thermal treatment, and again after 1, 3, 7 and 15 cycles. Additionally, two samples of each rock type were subjected to a thermal cycle with a maximum temperature of 450°C and to 1000°C, respectively, at a heating/cooling rate corresponding to that of the samples heated to 800°C. Samples were characterised with respect to ultrasound wave velocity, bulk density, thermal conductivity, thermal diffusivity, uniaxial compressive strength, splitting tensile strength, mineral content (X-ray powder diffraction) and microstructure (thin section analysis). Samples of basalt could not withstand the standard heating rate. The samples crushed into small pieces also when heating rates were reduced and at a maximum heating temperature of 800°C. For sandstone and gneiss, the ultrasound wave velocity, bulk density, thermal conductivity, thermal diffusivity, uniaxial compressive strength and splitting tensile strength decreased systematically with increasing number of cycles, while the maximum reduction occurred after the first cycle and the relative reduction was similar between both rocks. Microstructural analysis indicated an increase in crack density and minor mineralogical changes upon heating. Both rocks, Ruhr sandstone and Calanca gneiss, appear suitable for TES, but Calanca gneiss is less suitable for temperatures above 800°C due to a significant reduction in bulk density and uniaxial compressive strength when heated to 1000°C. Also, its anisotropy and anisotropic response to heating can lead to preferred flow paths of the heat transfer fluid. Ruhr sandstone maintains a high uniaxial compressive strength of about 100 MPa even after 15 cycles while thermal capacity was only slightly reduced or even increased, and can be recommended for use in high temperature TES. This study is the outcome of a research-oriented teaching program at Ruhr-University Bochum within the Geoscience curriculum for students with focus on Engineering Geology. Student authors (Fränzer to Thomas) are listed in alphabetical order.

show abstract

Petrographic Characteristics of Sandstones as a Basis to Evaluate Their Suitability in Construction and Energy Storage Applications. A Case Study from Klepa Nafpaktias (Central Western Greece)

Cited by 16 publications

References 57 publications

GIS Multimedia Technology in Regional Construction Land Suitability Evaluation in Mountainous Villages and Towns

GIS Multimedia Technology in Regional Construction Land Suitability Evaluation in Mountainous Villages and Towns

Valorization of Slags Produced by Smelting of Metallurgical Dusts and Lateritic Ore Fines in Manufacturing of Slag Cements

Experimental investigation of the effect of thermal cycling on the thermomechanical properties of three rock varieties for high temperature thermal energy storage

Contact Info

Product

Resources

About