Nano Fluid Detection for HPHE System Using Different Lasers

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Aysar A. Alamery
Hussein A. Jawad
Zainab F. Mahdi

Abstract

Among the different passive techniques heat pipe heat exchanger (HPHE) seems to be the most effective one for energy saving in heating ventilation and air conditioning system (HVAC). The applications for nanofluids with high conductivity are favorable to increase the thermal performance in HPHE. Even though the nanofluid has the higher heat conduction coefficient that dispels more heat theoretically but the higher concentration will make clustering .Clustering is a problem that must be solved before nanofluids can be considered for long-term practical uses. Results showed that the maximum value of relative power is 0.13 mW at nanofluid compared with other concentrations due to the low density of nanofluid at this concentration. For higher concentration, the agglomeration can occur so the scattering of laser light was increased resulting in the decrement of output power. Laser with longer wavelength (650nm) at visible spectral region was more sensing compared with 532 nm laser for low concentration of Ag inside deionized water. The starting sensing powers of 532nm CW diode laser is 0.1W of these concentrations for this type of nanofluid while the ending detection power is 1W.

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[1]
A. A. Alamery, H. A. Jawad, and Z. F. Mahdi, “Nano Fluid Detection for HPHE System Using Different Lasers”, IJL, vol. 14, no. A, pp. 7–11, Feb. 2019, doi: 10.31900/ijl.v14iA.61.
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How to Cite

[1]
A. A. Alamery, H. A. Jawad, and Z. F. Mahdi, “Nano Fluid Detection for HPHE System Using Different Lasers”, IJL, vol. 14, no. A, pp. 7–11, Feb. 2019, doi: 10.31900/ijl.v14iA.61.

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