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Online since: April 2015
Authors: S.M. Lawan, W.A.W.Z. Abidin, W.Y. Chai, Azhaili Baharun, Thelaha Masri
Anwari et al. [8] reported a survey carried out by a team of expert at Universiti Sains Malaysia (USM).
Masseran et al. [10] examined the statistical distribution of wind speed and noted that out of the 60 areas selected for the research, 50 locations seem to satisfy the Gamma distribution function.
Moreover, Darus et al. [13] described the potential of wind energy for the sustainable production in Pulau Perhentian (Perhentian Island).
Daut el al. [3] confirmed the possibility of using VAWTs, Darrieus and Savonius wind turbines in Perlis.
While, Sapuan et al. [15] conducted a comprehensive wind speed forecast and mapped out the wind energy potential in some locations of the West Malaysia.
Masseran et al. [10] examined the statistical distribution of wind speed and noted that out of the 60 areas selected for the research, 50 locations seem to satisfy the Gamma distribution function.
Moreover, Darus et al. [13] described the potential of wind energy for the sustainable production in Pulau Perhentian (Perhentian Island).
Daut el al. [3] confirmed the possibility of using VAWTs, Darrieus and Savonius wind turbines in Perlis.
While, Sapuan et al. [15] conducted a comprehensive wind speed forecast and mapped out the wind energy potential in some locations of the West Malaysia.
Online since: February 2012
Authors: Johanna M. Galloway, Jonathan P. Bramble, Andrea E. Rawlings, Gavin Burnell, Stephen D. Evans, Sarah S. Staniland
This is also supported by Sidhu et al. [65], as they found that the formation of magnetite occurs very rapidly after the oxidation of ferrous iron to ferric iron for this POFHK method.
These MNPs are of a similar size and size distribution to those synthesized via a high temperature method by Kim et al. [66] (their 160 ± 40 nm edge length cubes are ~280 nm ± 70 nm on the diagonal).
The MNPs formed by Mms6 immobilized on the surface are much larger than MNPs formed by Amemiya et al. [33] when Mms6 templated MNPs in the bulk solution for the POFHK method.
Lu, E.L.
English, E.L.
These MNPs are of a similar size and size distribution to those synthesized via a high temperature method by Kim et al. [66] (their 160 ± 40 nm edge length cubes are ~280 nm ± 70 nm on the diagonal).
The MNPs formed by Mms6 immobilized on the surface are much larger than MNPs formed by Amemiya et al. [33] when Mms6 templated MNPs in the bulk solution for the POFHK method.
Lu, E.L.
English, E.L.
Online since: August 2019
Authors: Azuraien Jaafar, Harvin Kaur
Liyana Nadirah et al.
Al-sabagh, N.
Banat et al.
Idris et al.
Li et al.
Al-sabagh, N.
Banat et al.
Idris et al.
Li et al.
Online since: April 2022
Authors: Nadhir Attaf, Labidi Herissi, Zahra Moussa, Lazhar Hadjeris, Nadjet Moussa
A variety of ions have been used such as Cr, Mn, Ni , Ti, Al, Co, Ga, Rh, Zr and Zn [19,20].
Suman et al. showed that zinc-doped hematite (α Fe2O3:Zn) nanoparticles had an effective photocatalytic degradation against the rose Bengal dye [22].
Joseph et al. found that the photocatalytic test of Zn doped α Fe2O3 against methyl blue increased considerably with increasing doping rate [19].
ZnO: Al Methyl green 90 34 [5] Fe2O3:Zn Methyl blue 180 73 [19] Fe2O3:Zn Methyl orange 140 87 [21] Fe2O3:Zn Rose bengal 75 58 [22] Fe2O3:Al Methylene blue 180 56 [36] Another possibility is that Fe3+ form Fe2+ and therefore it reacts with H2O2 (Fenton's reagent reaction) which in turn oxidizes the MG dye.
AL-Shomar, Synthesis and characterization of Eu3+ doped TiO2 thin films deposited by spray pyrolysis technique for photocatalytic application, Mater.
Suman et al. showed that zinc-doped hematite (α Fe2O3:Zn) nanoparticles had an effective photocatalytic degradation against the rose Bengal dye [22].
Joseph et al. found that the photocatalytic test of Zn doped α Fe2O3 against methyl blue increased considerably with increasing doping rate [19].
ZnO: Al Methyl green 90 34 [5] Fe2O3:Zn Methyl blue 180 73 [19] Fe2O3:Zn Methyl orange 140 87 [21] Fe2O3:Zn Rose bengal 75 58 [22] Fe2O3:Al Methylene blue 180 56 [36] Another possibility is that Fe3+ form Fe2+ and therefore it reacts with H2O2 (Fenton's reagent reaction) which in turn oxidizes the MG dye.
AL-Shomar, Synthesis and characterization of Eu3+ doped TiO2 thin films deposited by spray pyrolysis technique for photocatalytic application, Mater.
Online since: September 2013
Authors: Diosdado De La Pena Jose Angel, Plascencia Mora Hector, Mondragon Sanchez Maria de Lourdes, Torres Cisneros Miguel
Wang et al. [6] posed an analytic model for a two-dimensional cell under compression, such geometry is a rhombus.
Czekanski et al. [8] proposed a finite element (FE) model with multiple cells for aluminum foams.
Mills et al. [11] built a finite element model for a cell arrangement with symmetry conditions in ABAQUS®, where they used the Kelvin cell.
El-Abbasi, FE modeling of deformation localization in metallic foams.
Leonowicz, Mechanical properties of closed-cell Al foams based on tetrakaidecahedronal model of structure.
Czekanski et al. [8] proposed a finite element (FE) model with multiple cells for aluminum foams.
Mills et al. [11] built a finite element model for a cell arrangement with symmetry conditions in ABAQUS®, where they used the Kelvin cell.
El-Abbasi, FE modeling of deformation localization in metallic foams.
Leonowicz, Mechanical properties of closed-cell Al foams based on tetrakaidecahedronal model of structure.
Online since: November 2018
Authors: Ralf Tautenhahn, Jürgen Weber
Agarwal et al.
Augustin et al., eds.
Helton et al.
Möller et al.
Simpson et al.
Augustin et al., eds.
Helton et al.
Möller et al.
Simpson et al.
Online since: January 2022
Authors: David Bulteel, Arnaud Day, Boubker Laidoudi, Frederic Becquart, Mariann Chaussy, Morgan Chabannes
%RH)) (Viel et al., 2018).
Higher temperatures are visible in the case of hydrothermal treatments where pressure conditions occur (IFP et al., 2018; Li et al., 2020; Singh et al., 2018; Yuan et al., 2019, 2020).
Alkali treatment is also a widely used method for extracting and removing organic impurities, thus improving the plant interface in the composite matrix (Arumugam et al., 2018; Chen et al., 2020; Farooqi and Ali, 2019; Li et al., 2016; Singh et al., 2018; Yuan et al., 2020).
WO 2018/015227 Al
[42] Rajha, H.N., Abi-Khattar, A.M., El Kantar, S., Boussetta, N., Lebovka, N., Maroun, R.G., Louka, N., Vorobiev, E., 2019.
Higher temperatures are visible in the case of hydrothermal treatments where pressure conditions occur (IFP et al., 2018; Li et al., 2020; Singh et al., 2018; Yuan et al., 2019, 2020).
Alkali treatment is also a widely used method for extracting and removing organic impurities, thus improving the plant interface in the composite matrix (Arumugam et al., 2018; Chen et al., 2020; Farooqi and Ali, 2019; Li et al., 2016; Singh et al., 2018; Yuan et al., 2020).
WO 2018/015227 Al
[42] Rajha, H.N., Abi-Khattar, A.M., El Kantar, S., Boussetta, N., Lebovka, N., Maroun, R.G., Louka, N., Vorobiev, E., 2019.
Online since: November 2018
Authors: Shin Ichi Furusawa, Yohei Minami
Synthesis and Ionic Conductivity of MAlSi3O8 (M = Li, Na, K)
Shin-Ichi Furusawa* and Yohei Minami
Graduate School of Science and Technology, Gunma University
1-5-1 Tenjin-cho, Kiryu 376-8515, Japan
*furusawa@el.gunma-u.ac.jp
Keywords: lithium aluminium silicate, sodium aluminium silicate, potassium aluminium silicate, ionic conductivity
Abstract: MAlSi3O8 (M = Li, Na, K) was synthesized by solid-phase reaction at 1000 °C using M2CO3 (M = Li, Na, K), Al2O3, and SiO2 as the starting materials, and its ionic conduction was studied in the temperature range 475–800 K.
Online since: April 2016
Authors: Lutz Krüger, Marcel Mandel, Volodymyr Kietov
Higher corrosion sensibility of the martensitic phase is also found by Vignal et al., who test a stainless steel in a 0.1 M sodium chloride solution [10].
The formation of the martensite phase was predominantly attributed to the surface preparation process, which is in good agreement with the findings of Alvarez et al. [9].
As suggested by Li et al. [28], the oxygen evolution reaction is defined by Eq. 4 and Eq. 5. 2H2O → 2O-ad + 4H+ + 2e-
The higher corrosion sensitivity observed for the martensitic phase is in good agreement with the results presented by Alvarez et al. and Vignal et al. [9, 10].
El-Basiouny, S.
The formation of the martensite phase was predominantly attributed to the surface preparation process, which is in good agreement with the findings of Alvarez et al. [9].
As suggested by Li et al. [28], the oxygen evolution reaction is defined by Eq. 4 and Eq. 5. 2H2O → 2O-ad + 4H+ + 2e-
The higher corrosion sensitivity observed for the martensitic phase is in good agreement with the results presented by Alvarez et al. and Vignal et al. [9, 10].
El-Basiouny, S.
Online since: March 2025
Authors: Rajagopalan Parameshwaran, Lingampally Swetha, Deshmukh Sandip
The prospective advantages of dispersing copper nanoparticles in RT24 PCM were examined by Zhenjun et al. [11].
Suresh et al. [16] noted a reduction in latent heat of solidification in palmitic acid with cupric oxide nanoparticles at mass proportions of 0.3% to 0.8%.
Gharbi et al. [23] investigated pure PCM and PCM-embedded silicone-graphite matrices integrated into fin structures, revealing their potential in temperature mitigation.
Chintakrinda et al. [24] conducted experiments with PCM infused with thermal conductivity enhancers to evaluate the PCM thermal performance.
El-Nagar, and H.
Suresh et al. [16] noted a reduction in latent heat of solidification in palmitic acid with cupric oxide nanoparticles at mass proportions of 0.3% to 0.8%.
Gharbi et al. [23] investigated pure PCM and PCM-embedded silicone-graphite matrices integrated into fin structures, revealing their potential in temperature mitigation.
Chintakrinda et al. [24] conducted experiments with PCM infused with thermal conductivity enhancers to evaluate the PCM thermal performance.
El-Nagar, and H.