Your search keyword '"Angelo P Viola"' showing total 5 results

1. Analysis of apparent amylose content of market milled rice via digital image photometry using a smartphone camera

Author

Arvin Paul P. Tuaño, Gabrielle A. Castrillo, and Gabriel Angelo V. Viola

Subjects

Apparent amylose content, Digital image photometry, ImageJ, Milled rice, Non-waxy, RGB values, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Apparent amylose content (AC) of market milled rice was analyzed through digital image photometry (DIP) utilizing a smartphone camera and a free-access software (ImageJ). The DIP-AC method was validated using seven test samples and applied to a set of 17 commercially available milled rices varying in AC. A light box was constructed to accommodate a cuvette and a smartphone while ImageJ was used for digital image analysis towards quantifying AC. Smartphone camera settings were also optimized using the red, green, and blue (RGB) values of the digital images of amylose-iodine blue solutions. ISO 100 combined with shutter speed 1/640 was the optimum and most suitable settings combination when B values were used to generate calibration curves yielding a high degree of linearity (r = 0.995–0.998). Validation showed the DIP-AC method to be accurate based on the conventional ultraviolet–visible (UV-vis) spectrophotometric AC assay. It was also found to be repeatable and precise for non-waxy rice samples only, yielding RSD values below 7% among all replications made within one day and across different days. With the optimized DIP-AC assay, limits of detection and quantitation of AC that is capable of iodine binding at alkaline pH and influencing cooked rice texture, were 0.2% and 0.4% (milled rice basis at 12–14% moisture), respectively. The reported DIP-AC method can be a reliable and accurate assay for determining AC of non-waxy milled rice alternative to UV–vis spectrophotometry. Further refinement of the DIP-AC method is warranted to improve precision in measuring AC of milled waxy rice.

Published

2021

2. Characterization of Turbulence in the Neutral and Stable Surface Layer at Jang Bogo Station, Antarctica

Author

Mauro Mazzola, Angelo Pietro Viola, Taejin Choi, and Francesco Tampieri

Subjects

turbulence, atmospheric stability, surface layer, submeso motion, Richardson number, Antarctica, Meteorology. Climatology, QC851-999

Abstract

The availability of 5-year time series of velocity and temperature data from two sonic anemometers installed at Jang Bogo Station, Antarctica, allowed a systematic investigation of the turbulence features in a stable layer affected by submeso motions and characterized by the vertical divergence of some second-order moments for a large fraction of time (quite a non-ideal surface layer). The investigation of the effect of the averaging time interval on the statistics of the second-order moments showed that this is greater for the variances of the velocity components with respect to that for the vertical fluxes. This corresponds to a greater contribution from low-frequency motions. The turbulence statistics were investigated and compared with current literature results in terms of vertical structure, share of energy between horizontal and vertical components, skewness of the vertical velocity and turbulent velocities. As a general result, all the normalized second-order moments show a clear change passing from neutral to stable conditions, passing through the range of bulk Richardson number equal to 0.1–1.

Published

2021

3. Long-Term Performance Assessment of Low-Cost Atmospheric Sensors in the Arctic Environment

Author

Federico Carotenuto, Lorenzo Brilli, Beniamino Gioli, Giovanni Gualtieri, Carolina Vagnoli, Mauro Mazzola, Angelo Pietro Viola, Vito Vitale, Mirko Severi, Rita Traversi, and Alessandro Zaldei

Subjects

low-cost sensors, Arctic environment, atmospheric composition, Chemical technology, TP1-1185

Abstract

The Arctic is an important natural laboratory that is extremely sensitive to climatic changes and its monitoring is, therefore, of great importance. Due to the environmental extremes it is often hard to deploy sensors and observations are limited to a few sparse observation points limiting the spatial and temporal coverage of the Arctic measurement. Given these constraints the possibility of deploying a rugged network of low-cost sensors remains an interesting and convenient option. The present work validates for the first time a low-cost sensor array (AIRQino) for monitoring basic meteorological parameters and atmospheric composition in the Arctic (air temperature, relative humidity, particulate matter, and CO2). AIRQino was deployed for one year in the Svalbard archipelago and its outputs compared with reference sensors. Results show good agreement with the reference meteorological parameters (air temperature (T) and relative humidity (RH)) with correlation coefficients above 0.8 and small absolute errors (≈1 °C for temperature and ≈6% for RH). Particulate matter (PM) low-cost sensors show a good linearity (r2 ≈ 0.8) and small absolute errors for both PM2.5 and PM10 (≈1 µg m−3 for PM2.5 and ≈3 µg m−3 for PM10), while overall accuracy is impacted both by the unknown composition of the local aerosol, and by high humidity conditions likely generating hygroscopic effects. CO2 exhibits a satisfying agreement with r2 around 0.70 and an absolute error of ≈23 mg m−3. Overall these results, coupled with an excellent data coverage and scarce need of maintenance make the AIRQino or similar devices integrations an interesting tool for future extended sensor networks also in the Arctic environment.

Published

2020

4. Atmospheric boundary layer characteristics based on the observations at the Climate Change Tower in Ny Alesund (Svalbard)

Author

Mario Schiavon, Mauro Mazzola, Angelo Lupi, Oxana Drofa, Francesco Tampieri, Armando Pelliccioni, Taejin Choi, Vito Vitale, and Angelo P Viola

Subjects

arctic, boundary layer

Published

2017

5. Structure of the Atmospheric Boundary Layer at Ny-Alesund: Statistics and Case Studies

Author

Angelo P. Viola (1), Francesco Tampieri (1), Mauro Mazzola (1), Taejin Choi (2), Christian Lanconelli (1), Angelo Lupi (1), Marion Maturilli, (3), and Armando Pelliccioni (1

Subjects

Atmospheric boundary layer

Abstract

The Amundsen-Nobile Climate Change Tower (CCT) at Ny Alesund - Svalbard is a 33 m high observation platform particularly suited for investigating the thermodynamic characteristics the planetary boundary layer (PBL) at multiple levels using fast and slow response instruments. A set of four conventional meteorological sensors positioned at 2, 5, 1O and 33 m and three sonic anemometers at 3.7, 7.5 and 21 m of height is the main atmospheric equipment. Radiation and snow height sensors are also installed as well as instruments to estimate the heat flux into the snow and to measure the radiation fluxes and balance at the surface. For some periods a tethered balloon equipped with meteorological sensors was operational to provide temperature, humidity and wind up to 600-700 m. Selected period with optimal data coverage, for different seasons, have been investigated to test the literature profiles based on the Monin-Obukhov Similarity Theory (MOST).,The shape of the similarity function is evaluated in different stability conditions. By using the set of three sonic anemometers, the vertical structure of the boundary layer above the surface layer is also investigated

Published

2013