Pilot-scale production of poly-3-hydroxybutyrate-co-3-hydroxyvalerate from fermented dairy manure: Process performance, polymer characterization, and scale-up implications

Guho, Nicholas M.; Pokhrel, Dikshya; Abbasi, Maryam; McDonald, Armando G.; Alfaro, Maribel; Brinkman, Cynthia K.; Coats, Erik R.

doi:10.1016/j.biteb.2020.100588

ABSTRACT We use the small scales of the Dark Energy Survey (DES) Year-3 cosmic shear measurements, which are excluded from the DES Year-3 cosmological analysis, to constrain the baryonic feedback. To model the baryonic feedback, we adopt a baryonic correction model and use the numerical package baccoemu to accelerate the evaluation of the baryonic non-linear matter power spectrum. We design our analysis pipeline to focus on the constraints of the baryonic suppression effects, utilizing the implication given by a principal component analysis on the Fisher forecasts. Our constraint on the baryonic effects can then be used to better model and ameliorate the effects of baryons in producing cosmological constraints from the next-generation large-scale structure surveys. We detect the baryonic suppression on the cosmic shear measurements with a ∼2σ significance. The characteristic halo mass for which half of the gas is ejected by baryonic feedback is constrained to be $$M_c \gt 10^{13.2} \, h^{-1} \, \mathrm{M}_{\odot }$$ (95 per cent C.L.). The best-fitting baryonic suppression is $$\sim 5{{\ \rm per\ cent}}$$ at $$k=1.0 \, {\rm Mpc}\ h^{-1}$$ and $$\sim 15{{\ \rm per\ cent}}$$ at $$k=5.0 \, {\rm Mpc} \ h^{-1}$$. Our findings are robust with respect to the assumptions about the cosmological parameters, specifics of the baryonic model, and intrinsic alignments.

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