Production of Thermal Insulating Material  Using Scoria

Tochukwu, Okonkwo Emmanuel; Mudiare, E.; Okonkwo, Chikezie Onyeka

doi:10.24940/ijird/2019/v8/i7/jul19050

Cited by 1 publication

(2 citation statements)

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“…If basaltic rocks would exist with the chemical composition similar to the Hashemiah area basalt rocks (low ferromagnesium-Al oxides content), but with highest porosity (considering the insulating effect of air in the pores), this basalt would have better insulating properties. It is known that at same Hashemiah area, there is volcanic material with high porosity, also called volcanic scoria, that in principle would have the same composition as the basalt of this area (Okonkwo et al, 2019). Geotechnical analysis sources of the volcanic scoria from this place reveal that there are samples of scoria that could achieve porosity up 80% (Sharadqah et al, 2020).…”

Section: Notementioning

confidence: 99%

“…E loss = R overall without insulation / R overall with insulation = Q with insulation /Q without insulation (11) So, defining: R = Δx/K (12) where: R -resistance, Δx -gradient of distance in x direction, K -thermal conductivity, E loss -energy loss (100 -%E save ); R overall without insulation -total resistance does not include the isolating material; R overall with insulation -total resistance included the isolating material.…”

Section: Introductionmentioning

confidence: 99%

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Evaluation of Jordanian Basalt as a Thermal Insulation Material

Pérez

2024

J. Ecol. Eng.

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Finding a thermal insulation material that is naturally available, cheap, and effective for minimising energy losses is a challenge for geotechnical engineers in Jordan. Previous research suggests the use of mineral wool, polyurethane, or air layers as an insulation material but so far, the basalt has not been used as an insulation material in Jordan. The objective of this study was to measure and compare the thermal conductivity (K), bulk density (ρ B ), porosity (ɛ) and chemical composition of the basalt from Hashemiah area and Hulial mountain in Jordan in order to evaluate the rock as a thermal insulation material. A total of fourteen samples, seven for each zone, were evaluated. The thermal conductivity was measured using transient plane source technique (TPS) at ambient temperature. Porosity and density were measured by the standards of the American Society of Testing Materials (ASTM). The chemical composition of the samples was analysed by X-Ray diffraction to include the effect of aluminium oxide on thermal conductivity analysis. Experimental values covered the range of ɛ between 0.008-8.7%; ρ B between 2.54-2.93 g/cm 3 and K between 1.62-2.98 W/mK. The experimental K values were compared with allometric fit and theoretical prediction models. In general, thermal conductivity tends to decrease with porosity in basalt samples. This study found increasing conductivity values with ɛ when ferromagnesian-aluminium oxide concentration reached levels above 38% and porosity less than 4% indicating that high percentages of these oxides decrease the insulating effect of the air in the empty spaces of the basalt at reduced porosity levels. Low values of conductivity and percentage of ferromagnesianaluminium oxides characterise the Jordanian basalt in the Hashemiah area and makes it better for insulation than the Hulial mountain basalt. The experimental values presented in this work are important for predicting the optimum insulation thickness and predicting energy losses in construction buildings where basaltic rocks are used.

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Section: Notementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%