Optimization of spray drying of an innovative functional food: Fermented mixed juice of carrot and watermelon

10.1080/07373937.2011.566968Drying Technology29101121-1131DRTE

Hydrodynamic characteristics of a pilot-scale screw conveyor dryer

10.1080/07373930701250120Drying Technology254609-616DRTE

Flow pattern and heat transfer in agitated thin film dryer

10.1016/j.cep.2011.04.005Chemical Engineering and Processing: Process Intensification507687-693CENP

Screw conveyor dryer: Process and equipment design

10.1080/07373930601161112Drying Technology251241-247DRTE

Design of an efficient gas distribution system for a fluidized bed dryer

10.1080/07373930903266700Drying Technology27111217-1228DRTE

Study of residence time distribution in a pilot-Scale screw conveyor dryer

10.1080/07373930601161120Drying Technology251249-259DRTE

Advances and recent developments in thermal drying for bio-origin and agricultural products

10.2212/spr.2008.1.1Stewart Postharvest Review41

Sensibility of polyaniline nanofibers to biomarker of benzene recognized as a carcinogen

Alarming situation of toxic substances such as benzene and its analogs in the environment and workplaces, making it important to monitor these chemicals and their metabolites in order to evaluate risk hazards and potential problems caused by exposure to toxic compounds. Benzene is omnipresent in usage across industries. International Agency for Research on Cancer (IARC) which is a part of World Health Organization (WHO) has classified Benzene as a human carcinogen. trans-trans Muconic acid (ttMA) is the most important biomarker of benzene for biomonitoring of its low level exposure. In this paper the sensing ability of polyaniline (PANI) to ttMA is investigated for development of cheap, portable and effective electrochemical biosensor. To take this ahead for biosensor device application, successful self-assembling of PANI nanofibers of 40–70 nm range on SS 304 working electrode was achieved. Fourier transform infrared spectroscopy and X-ray diffraction was used to characterize the chemical structure of PANI. Morphology of sample was observed by field emission gun scanning electron microscopy (FEG-SEM). The detection potential of ttMA in phosphate buffer solution of pH 5.8 acting as a supporting electrolyte was found to be at 0.26 V by linear sweep voltammetry

Infrared-convective drying of organic pigments

10.1080/07373930801898042Drying Technology263315-322DRTE

Mathematical modeling of agitated thin-film dryer

10.1080/07373937.2010.526732Drying Technology296719-728DRTE