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Literature DB >> 27358585

In situ production of titanium dioxide nanoparticles in molten salt phase for thermal energy storage and heat-transfer fluid applications.

Mathieu Lasfargues¹, Andrew Bell¹, Yulong Ding².

Abstract

In this study, TiO2 nanoparticles (average particle size 16 nm) were successfully produced in molten salt phase and were showed to significantly enhance the specific heat capacity of a binary eutectic mixture of sodium and potassium nitrate (60/40) by 5.4 % at 390 °C and 7.5 % at 445 °C for 3.0 wt% of precursors used. The objective of this research was to develop a cost-effective alternate method of production which is potentially scalable, as current techniques utilized are not economically viable for large quantities. Enhancing the specific heat capacity of molten salt would promote more competitive pricing for electricity production by concentrating solar power plant. Here, a simple precursor (TiOSO4) was added to a binary eutectic mixture of potassium and sodium nitrate, heated to 450 °C, and cooled to witness the production of nanoparticles.

Entities: Chemical Disease Species

Keywords: Heat-transfer fluid; Molten salt; Nanoparticle production; Nanoparticles; Nitrate salt; Specific heat capacity

Year: 2016 PMID： 27358585 PMCID： PMC4896972 DOI： 10.1007/s11051-016-3460-8

Source DB: PubMed Journal: J Nanopart Res ISSN： 1388-0764 Impact factor: 2.253

11 in total

1. Thermo-physical property measurement of nano-gold dispersed water based nanofluids prepared by chemical precipitation technique.

Authors: G Paul; T Pal; I Manna
Journal: J Colloid Interface Sci Date: 2010-06-01 Impact factor: 8.128

2. Ordered liquid aluminum at the interface with sapphire.

Authors: S H Oh; Y Kauffmann; C Scheu; W D Kaplan; M Rühle
Journal: Science Date: 2005-10-06 Impact factor: 47.728

3. A new parameter to control heat transport in nanofluids: surface charge state of the particle in suspension.

Authors: Donggeun Lee; Jae-Won Kim; Bog G Kim
Journal: J Phys Chem B Date: 2006-03-09 Impact factor: 2.991

4. Effect of aggregation kinetics on the thermal conductivity of nanoscale colloidal solutions (nanofluid).

Authors: Ravi Prasher; Patrick E Phelan; Prajesh Bhattacharya
Journal: Nano Lett Date: 2006-07 Impact factor: 11.189

5. A kind of nanofluid consisting of surface-functionalized nanoparticles.

Authors: Xuefei Yang; Zhen-Hua Liu
Journal: Nanoscale Res Lett Date: 2010-05-25 Impact factor: 4.703

6. Synthesis and Photocatalytic Activity of Anatase TiO2 Nanoparticles-coated Carbon Nanotubes.

Authors: Yi Xie; Sunghwan Heo; Seunghwa Yoo; Ghafar Ali; Sungoh Cho
Journal: Nanoscale Res Lett Date: 2009-12-24 Impact factor: 4.703

7. Preparation of Highly Crystalline TiO(2) Nanostructures by Acid-assisted Hydrothermal Treatment of Hexagonal-structured Nanocrystalline Titania/Cetyltrimethyammonium Bromide Nanoskeleton.

Authors: Shuxi Dai; Yanqiang Wu; Toshio Sakai; Zuliang Du; Hideki Sakai; Masahiko Abe
Journal: Nanoscale Res Lett Date: 2010-08-11 Impact factor: 4.703

8. A New Phase Change Material Based on Potassium Nitrate with Silica and Alumina Nanoparticles for Thermal Energy Storage.

Authors: Manila Chieruzzi; Adio Miliozzi; Tommaso Crescenzi; Luigi Torre; José M Kenny
Journal: Nanoscale Res Lett Date: 2015-06-28 Impact factor: 4.703

3. In Situ Production of Copper Oxide Nanoparticles in a Binary Molten Salt for Concentrated Solar Power Plant Applications.

Authors: Mathieu Lasfargues; Graham Stead; Muhammad Amjad; Yulong Ding; Dongsheng Wen
Journal: Materials (Basel) Date: 2017-05-19 Impact factor: 3.623

3 in total

In situ production of titanium dioxide nanoparticles in molten salt phase for thermal energy storage and heat-transfer fluid applications.

1. Thermo-physical property measurement of nano-gold dispersed water based nanofluids prepared by chemical precipitation technique.

2. Ordered liquid aluminum at the interface with sapphire.

3. A new parameter to control heat transport in nanofluids: surface charge state of the particle in suspension.

4. Effect of aggregation kinetics on the thermal conductivity of nanoscale colloidal solutions (nanofluid).

5. A kind of nanofluid consisting of surface-functionalized nanoparticles.

6. Synthesis and Photocatalytic Activity of Anatase TiO2 Nanoparticles-coated Carbon Nanotubes.

7. Preparation of Highly Crystalline TiO(2) Nanostructures by Acid-assisted Hydrothermal Treatment of Hexagonal-structured Nanocrystalline Titania/Cetyltrimethyammonium Bromide Nanoskeleton.

8. A New Phase Change Material Based on Potassium Nitrate with Silica and Alumina Nanoparticles for Thermal Energy Storage.

9. Increment of specific heat capacity of solar salt with SiO2 nanoparticles.

10. Effect of nanoparticles on heat capacity of nanofluids based on molten salts as PCM for thermal energy storage.

1. Enhanced thermophysical properties via PAO superstructure.

Review 2. Toward TiO₂ Nanofluids-Part 2: Applications and Challenges.

3. In Situ Production of Copper Oxide Nanoparticles in a Binary Molten Salt for Concentrated Solar Power Plant Applications.

Review 2. Toward TiO2 Nanofluids-Part 2: Applications and Challenges.

Review 2. Toward TiO₂ Nanofluids-Part 2: Applications and Challenges.