Error propagation in open respirometric assays

Lobo, Cintia Cecilia; Bertola, Nora Cristina; Contreras, Edgardo Martin

Artículos de revistas

Fecha

2014-04

Registro en:

Contreras, Edgardo Martin; Bertola, Nora Cristina; Lobo, Cintia Cecilia; Error propagation in open respirometric assays; Brazilian Society of Chemical Engineering; Brazilian Journal of Chemical Engineering; 31; 02; 4-2014; 303-312

0104-6632

http://hdl.handle.net/11336/32396

1678-4383

CONICET Digital

CONICET

http://repositorioslatinoamericanos.uchile.cl/handle/2250/1907344

Autor

Lobo, Cintia Cecilia

Bertola, Nora Cristina

Contreras, Edgardo Martin

Institución

Consejo Nacional de Investigaciones Científicas y Tecnológicas (Argentina)

Resumen

This work deals with the calculation of the uncertainty of the exogenous respiration rate (Rex) and the total oxygen consumed (OCT) derived from a single open respirometric profile. Uncertainties were evaluated by applying a linear error propagation method. Results show that standard deviations (SD) of Rexand OCT depend not only on the SD of the dissolved oxygen (σC) and kLa (σkLa), but also on the SD of the derivative term (dC/dt) of the oxygen mass balance equation (σb). A Monte Carlo technique was employed to assess σb; a power law expression for the dependence of σb as a function of σC, the time window (tw) and the sampling rate (Δt) was proposed. The equations obtained in the present work are useful to calculate suitable conditions (e.g., biomass concentration, kLa) that minimize the coefficient of variation corresponding to Rexand OCT.

Materias

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