Résumé
Objective: To establish a real-time moisture monitoring model for the fluidized bed drying process of Guizhi Fuling Capsules (GFC) by using online near-infrared spectroscopy (NIRS). Methods: A total of 176 samples from 16 production batches were collected by NIRS diffuse reflection probe for modeling. The moving window average smoothing method was used for spectral preprocessing. The characteristic variables were 4 759.45—5 338.00 cm−1, 5 503.84—6 101.67 cm−1, and 8 512.25—8 809.24 cm−1, which were screened by the interval partial least squares method (siPLS) combined with the moving window partial least squares (mwPLS). The partial variable least squares (PLS) method was used to build a multivariate correction model for moisture. Results: The root mean square error of cross-validation (RMSECV) of predicted moisture was 0.243%, the ratio of predicton to deviation (RPD) was 13.384, and the relative standard error of prediction (RSEP ) was 0.270%. The reliability of the online monitoring method was continuously verified by eight production batches. The relative error of 40 samples was less than 4.7%, indicating that the PLS quantitative model prediction performance was robust and accurate. The real-time monitoring trend chart of the moisture in the drying process can accurately determine the drying end point, and the moisture content of the end sample was within the control limit. Conclusion: The quantitative model established by online NIRS combined with PLS can be applied to the on-line monitoring of moisture content in the fluidized bed drying process of production scale GFC and the prediction performance was robust and accurate.
Résumé
RESUMO Os processos de tratamento de lodo de esgoto visam reduzir o teor de material orgânico biodegradável, a concentração de organismos patogênicos e a umidade a fim de se obter um material que não constitui risco à saúde ambiental e que possa ser utilizado para fins agrícolas. Nesse sentido, este trabalho teve como objetivo avaliar o efeito da secagem em leito nas características microbiológicas e físico-químicas de lodo de esgoto doméstico de reator anaeróbico de fluxo ascendente (UASB). As amostras de lodo foram retiradas a 4,8 m de profundidade (lodo A) e a 3,1 m (lodo B) do reator UASB, totalizando 3 coletas, com intervalo de 1 mês. As amostras coletadas foram submetidas ao processo de secagem em células de leitos de secagem (1,00 x 2,00 x 0,50 m). De cada célula foram coletadas 6 amostras nos tempos 0, 7, 15, 30, 60 e 90 dias. Foram determinados os parâmetros: sólidos totais, sólidos voláteis, temperatura, pH, umidade, carbono orgânico total, N, P, K, Mg, Na, Ca, Mn, Cd, Co, Cu, Ni, Pb, Zn, lipídios, coliformes totais e termotolerantes, Salmonella e ovos viáveis de helmintos. Não houve diferença físico-química, microbiológica e parasitológica entre o lodo A e o B após o período de secagem. As concentrações finais dos nutrientes, metais pesados e a relação C/N conferem aos lodos um potencial agronômico. Entretanto, a baixa inativação dos microrganismos permite concluir que o processo de secagem em leito é ineficiente para redução de patógenos. Os biossólidos gerados em ambos os tratamentos são classificados como tipo B (CONAMA 375/06).
ABSTRACT The sludge treatment process intended to reduce the content of biodegradable organic material, the concentration of pathogens and moisture in order to obtain a solid and stable material, which is not hazardous to the environment health and useful for agricultural purposes. This study aims to evaluate the effects of bed drying on physicochemical and microbiological characteristics of domestic sewage sludge samples taken from an upflow anaerobic sludge blanket (UASB) reactor. Sludge samples were collected at 4.8 m from the bottom (sludge A) and 3.1 m (sludge B) of an UASB reactor, totaling 3 collections, with an interval of 1 month. Each collected sample was subjected to the sludge drying process in cells of drying beds (1.00 x 2.00 x 0.50 m). In each cell, 6 samples were collected at 0, 7, 15, 30, 60 and 90 days. The following parameters were evaluated: total solids, volatile solids, temperature, pH, moisture content, total organic carbon, N, P, K, Mg, Na, Ca, Mn, Cd, Co, Cu, Ni, Pb, Zn, lipids, total and fecal coliforms, Salmonella and viable helminth eggs. No physical-chemical, microbiological and parasitological differences between sludge A and sludge B were detected after the period of bed drying. The final concentrations of nutrients and heavy metals as well as the C/N ratio were considered adequate for agricultural purposes. However, the low inactivation of microorganisms indicated the inefficiency of drying beds regarding the removal of pathogen microorganisms. The generated biosolids in both treatments are classified as type B (CONAMA 375/06).
Résumé
AIM@#To improve the absorption and bioavailability of baicalin using a nanocrystal (or nanosuspension) drug delivery system.@*METHODS@#A tandem, ultrasonic-homogenization-fluid bed drying technology was applied to prepare baicalin-nanocrystal dried powders, and the physicochemical properties of baicalin-nanocrystals were characterized by scanning electron microscopy, photon correlation spectroscopy, powder X-ray diffraction, physical stability, and solubility experiments. Furthermore, in situ intestine single-pass perfusion experiments and pharmacokinetics in rats were performed to make a comparison between the microcrystals of baicalin and pure baicalin in their absorption properties and bioavailability in vivo.@*RESULTS@#The mean particle size of baicalin-nanocrystals was 236 nm, with a polydispersity index of 0.173, and a zeta potential value of -34.8 mV, which provided a guarantee for the stability of the reconstituted nanosuspension. X-Ray diffraction results indicated that the crystallinity of baicalin was decreased through the ultrasonic-homogenization process. Physical stability experiments showed that the prepared baicalin-nanocrystals were sufficiently stable. It was shown that the solubility of baicalin in the form of nanocrystals, at 495 μg·mL(-1), was much higher than the baicalin-microcrystals and the physical mixture (135 and 86.4 μg·mL(-1), respectively). In situ intestine perfusion experiments demonstrated a clear advantage in the dissolution and absorption characteristics for baicalin-nanocrystals compared to the other formulations. In addition, after oral administration to rats, the particle size decrease from the micron to nanometer range exhibited much higher in vivo bioavailability (with the AUC(0-t) value of 206.96 ± 21.23 and 127.95 ± 14.41 mg·L(-1)·h(-1), respectively).@*CONCLUSION@#The nanocrystal drug delivery system using an ultrasonic-homogenization-fluid bed drying process is able to improve the absorption and in vivo bioavailability of baicalin, compared with pure baicalin coarse powder and micronized baicalin.