Excess thermal noise generated during Poiseuille flow of certain polymer solutions

Abstract: Abstract:The previously reported results concerning the generation of excess thermal noise induced by capillary flow of aqueous solutions of poly(ethylene oxide) (PEO) are supplemented by measurements on the following solutions: PEO/DMF, PEO/i-PrOH, PS/THF, PVAC/cyclohexanone, and poly(acrylamide)/ water. Similarly to the previous findings, a noise level increasing with the flow rate is recorded, the noise exhibiting a 1/f~-frequency spectrum. Within a certain flow range, distinct peaks are recorded in the spe… Show more

“…The spectral distribution of the noise measured at varying values of shear rate exhibited, on the whole, features similar to those reported in [23][24][25]. At rest the noise was white, its level corresponding to the thermal noise value calculated according to Nyqvist, cf.…”

“…1.6), that depended to some extent on PEO concentration, temperature etc. In [23][24][25], the low frequency end of the spectrum was thought to be a white noise plateau, the breaking point between this and the 1/f ~ region shifting to higher frequencies with ?). Within certain y-ranges, depending on experimental conditions, a set of distinct peaks appeared in the 1/f~ region, the peaks being multiples of a fundamental frequencyf0.…”

“…The flow noise data reproduced in the earlier papers [23][24][25] were obtained with platinum electrodes. Using other electrodes materials, such as gold, did not affect the results.…”

“…The flow cell containing the capillary, and the electronic equipment for the measurement of voltage fluctuations between two electrodes placed on both sides of the capillary have been described in [23][24][25].…”

“…In a series of papers [23][24][25], the present authors have reported on electrical fluctuations generated without any external voltage during capillary flow of aqueous solutions of PEO, PAM and some other systems, including non-aqueous solutions. The fluctuations (noise) were characterized by a 1/f ~ type frequency spectrum with a plateau at its low frequency end.…”

Electrical fluctuations and entry flow instabilities during capillary flow of aqueous poly (ethylene oxide) solutions

“…The spectral distribution of the noise measured at varying values of shear rate exhibited, on the whole, features similar to those reported in [23][24][25]. At rest the noise was white, its level corresponding to the thermal noise value calculated according to Nyqvist, cf.…”

“…1.6), that depended to some extent on PEO concentration, temperature etc. In [23][24][25], the low frequency end of the spectrum was thought to be a white noise plateau, the breaking point between this and the 1/f ~ region shifting to higher frequencies with ?). Within certain y-ranges, depending on experimental conditions, a set of distinct peaks appeared in the 1/f~ region, the peaks being multiples of a fundamental frequencyf0.…”

“…The flow noise data reproduced in the earlier papers [23][24][25] were obtained with platinum electrodes. Using other electrodes materials, such as gold, did not affect the results.…”

“…The flow cell containing the capillary, and the electronic equipment for the measurement of voltage fluctuations between two electrodes placed on both sides of the capillary have been described in [23][24][25].…”

“…In a series of papers [23][24][25], the present authors have reported on electrical fluctuations generated without any external voltage during capillary flow of aqueous solutions of PEO, PAM and some other systems, including non-aqueous solutions. The fluctuations (noise) were characterized by a 1/f ~ type frequency spectrum with a plateau at its low frequency end.…”

Electrical fluctuations and entry flow instabilities during capillary flow of aqueous poly (ethylene oxide) solutions

Electrical noise generated by the capillary flow of alkalized latex dispersions carrying carboxyl groups

Excess thermal noise and low-frequency oscillations during capillary flow of aqueous solutions of poly(ethylene oxide)