Abstract
We report a passive microrheology experiment to measure the linear viscoelasticity of complex fluids at pressures of up to 200 MPa. The apparatus incorporates a sealed steel alloy sample chamber with dual sapphire windows into a diffusing wave spectroscopy (light-scattering) apparatus. We validate this high-pressure microrheology technique with 1-propanol–water mixtures and extend the measurement to hydraulic fracturing fluids containing poly(vinyl alcohol) polymer and borate as a transient, physical cross-linker. In the latter, the viscous modulus is higher than the elastic modulus at frequencies ω > 2 × 10 3 s − 1 at atmospheric pressure. The crossover of the viscous and elastic moduli shifts to lower frequencies as the storage modulus decreases with increasing pressure. The crossover shift indicates a decrease in the cross-link density, which is potentially detrimental for hydraulic fracturing fluid performance at down-hole conditions.
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