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3. Performance Evaluation of a Commercially Available Desiccant-Based Seed Drying System

Author

Alice Dien, Md Abdul Momin, Tianyu Ying, Edward S. Spang, Kurt Kornbluth, and Irwin R. Donis-González

Abstract

HighlightsDesiccant-based convective drying systems can remove moisture from agricultural commodities.More than 85% of FlexiDry system’s energy consumption was used for desiccant regeneration.Desiccant regeneration provides an opportunity to switch from natural gas or propane combustion to electricity.Greenhouse gas emissions can be reduced in desiccant drying systems by the increased use of renewable electricity.Abstract. FlexiDry® is a commercially available desiccant-based drying system designed to reduce seed moisture content and promote seed preservation. The purpose of this study was to evaluate FlexiDry in drying 130 kg of whole yellow corn kernels (Zea mays) for large-scale human and animal consumption. FlexiDry was tested in two treatments, using heated (HA) and unheated (UA) air, and compared to conventional heated-air (CHA) drying. The desiccant (Drying Beads) was regenerated (moisture removed) at 250°C using a furnace within the FlexiDry system. All treatments properly dried the corn below the target value of 15% dry basis moisture content (MD). The CHA and HA treatments yielded an average moisture extraction rate (MER) of 1.42 kg h-1, compared to 0.58 kg h-1 for the UA treatment. In terms of energy consumption, the specific moisture extraction rate (SMER) was 0.20, 0.44, and 1.11 kg kWh-1 for the UA, HA, and CHA treatments, respectively. The coefficient of performance (COP), i.e., the ratio between the theoretical heat delivered and the total energy consumed, was 0.14, 0.30, and 0.75 for the UA, HA, and CHA treatments, respectively. The FlexiDry treatments (HA and UA) consumed more energy than the CHA treatment, with more than 85% of the energy consumption used to regenerate the Drying Beads. The system yielded a global warming potential (GWP) of 0.931 and 0.425 kg CO2-eq kg-1 of water removed for the UA and HA treatments, respectively. These values are higher than the GWP of the U.S. corn industry drying standard, which is reported as 0.383 kg CO2-eq kg-1 water. Thus, if the regeneration process can be optimized, there is potential for reductions in energy intensity and GWP with large-scale, desiccant-based drying of agricultural commodities. Keywords: ,Dehydration, Energy, Food safety, Moisture, Regeneration.

Published
2022
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4. An Improved YOLO Model for Vehicle Recognition System in Aerial Imagery

Author

Md Abdul Momin, Mohamad Haniff Junos, Anis Salwa Binti Mohd Khairuddin, Mohamad Sofian Abu Talip, and Akira Taguchi

Abstract

The modern development in unmanned aerial vehicles (UAV) providing aerial imagery attracts researchers to improve the object detection algorithms to be used in various applications. Lightweight object detection models are required for low computational resource devices. This study developed a lightweight object detection model by improving the architecture of YOLOv4 Tiny to detect vehicles from the VEDAI dataset. In the developed model, one additional scale feature map is added to the architecture. Besides that, the sizes of output images for the second and third prediction boxes are upscaled with the aim of detecting the small pixels of vehicles in the aerial imagery with better accuracy. The experimental results showed an improvement in the detection accuracy and precision when compared with several state-of-the-art methods to detect small objects such as vehicles in aerial imagery.

Published
2022
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5. Evaluation of Drying Performance, Energy Consumption, and Quality of Two-Stage Dried Maize Grain

Author

Mrityunjoy Biswas, Anwara Akter Khatun, Md. Hasan Tarek Mondal, Akhtaruzzaman, Md. Abdul Momin Sheikh, and Md. Sazzat Hossain Sarker

Subjects
Air velocity, Materials science, Moisture, Mechanical Engineering, Specific energy consumption, Energy consumption, Pulp and paper industry, Agricultural and Biological Sciences (miscellaneous), Computer Science Applications, Drying time, Fluidized bed drying, Stage (hydrology), Control sample, Engineering (miscellaneous)
Abstract

In this paper, the effect of two options (first option: fluidized bed drying (120–160 °C) + sun drying; second option: fluidized bed drying (120–160 °C) + again fluidized bed drying (65 ± 2 °C)) of two-stage drying on kinetics, energy consumption, quality of dried maize as color, nutritional properties, and hardness was evaluated to assess the drying performance. First stage drying for both options was executed by FBD at 7.0 cm bed thickness within the temperature range of 120–160 °C for 1.5–4 min. Then, the samples were tempered for 45 min in a closed container after completion of first stage drying. Second stage drying was then done by sun drying method (temperature: 33–36°C, RH: 52–65%, air velocity 0.4–0.6 m/s) for first option while for second option, it was accomplished again by FBD (65 ± 2°C). Drying time was shorter in the case of second option (2.23 h) than first option (4.98 h). Effective moisture diffusivity was found higher in both options of two-stage drying (10.5 × 10−09 m2/s to 63 × 10−09 m2/s) than control drying. Specific energy consumption was lower in first option compared to second option. Color of dried maize in two-stage options deteriorated markedly. However, nutritional qualities of dried grain for two-stage drying technique were similar to control sample. Hardness of the two-stage dried maize was lesser than control product. The two-stage drying options of maize drying instead of conventional sun drying method can be considered an alternative drying technique for the commercial maize drying industries.

Published
2021
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6. Energy, exergy, and milling performance of parboiled paddy: an industrial LSU dryer

Author

Md. Sazzat Hossain Sarker, Md. Amdadul Haque, Md. Mofizul Islam, Md. Akhtaruzzaman, Md. Hasan Tarek Mondal, Md. Azadul Islam, and Md. Abdul Momin Sheikh

Subjects
Exergy, 0404 agricultural biotechnology, 020401 chemical engineering, General Chemical Engineering, Environmental science, 04 agricultural and veterinary sciences, 02 engineering and technology, Energy consumption, Agricultural engineering, 0204 chemical engineering, Physical and Theoretical Chemistry, 040401 food science, Energy (signal processing)
Abstract

Drying is an important issue for all paddy-producing countries in the world. Paddy drying facts and figures in industrial LSU (Louisiana State University) dryer for the major rice processing areas ...

Published
2021
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7. GIS and Remote Sensing-Based Multi-Criteria Analysis for Delineation of Groundwater Potential Zones: A Case Study for Industrial Zones in Bangladesh

Author

Md. Mizanur Rahman, Faisal AlThobiani, Shamsuddin Shahid, Salvatore Gonario Pasquale Virdis, Mohammad Kamruzzaman, Hafijur Rahaman, Md. Abdul Momin, Md. Belal Hossain, and Emad Ismat Ghandourah

Subjects
Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, AHP, remote sensing, GIS, groundwater potential zone, Bangladesh, Management, Monitoring, Policy and Law
Abstract

Groundwater is a crucial natural resource that varies in quality and quantity across Bangladesh. Increased population and urbanization place enormous demands on groundwater supplies, reducing both their quality and quantity. This research aimed to delineate the groundwater potential zone in the Gazipur district, Bangladesh, by integrating eleven thematic layers. Data and information were gathered from Landsat 8, the digital elevation model, the google earth engine, and several ancillary sources. A multi-criterion decision-making (MCDM) based analytical hierarchy process (AHP) was used in a GIS platform to estimate the groundwater potential index. The potential index values were finally classified into five sub-groups: very low, low, moderate, high, and very high to generate a groundwater water potential zone (GWPZ) map. The results show that groundwater potential in about 0.002% (0.026 km2) of the area is very low, 3.83% (63.18 km2) of the area is low, 56.2% (927.05 km2) of the area is medium, 39.25% (647.46 km2) of the area is high, and the rest 0.72% (11.82 km2) of the area is very high. The validation of GWPZ maps based on the groundwater level data at 20 observation wells showed an overall accuracy of 80%. In addition, the ROC curve showed 84% accuracy of GWPZ maps when validated with water inventory points across the study region. Overall, this study presents an easy and practical approach for identifying groundwater potential zones, which may help improve planning and sustainable groundwater resource management.

Published
2022
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8. Effect of dye bath pH in dyeing of cotton knitted fabric with reactive dye (Remazol Yellow RR) in exhaust method: impact on color strength, chromatic values and fastness properties

Author

A.T.M. Gulam Moula, Md. Dulal Hosen, Md. Abu Bakar Siddiquee, Md. Abdul Momin, Zihan Kaisar, Md. Abdullah Al Mamun, and Md. Azharul Islam

Subjects
Multidisciplinary
Abstract

The significance of textile coloration is inevitable as coloration is a critical process and it can be affected by several parameters i. e. time, temperature, pH, and liquor ratio (M:L). This research reveals the behavior of different dye bath pH (2 to 12) on the basis of spectrophotometric characteristics and colorfastness using the most useable brand of reactive dye in Bangladesh i. e. Remazol Yellow RR. Earlier researches were performed on the basis of other coloration controlling factors i. e. temperature, time and liquor ratio (M:L) where pH acts as the dependent variable. However in this study, pH was taken as an independent variable where lower pH (2, 4 and 6), medium pH (8 and 10) and higher pH (12) were taken into consideration for verifying the dyeing performance. Meanwhile, the mentioned pH was achieved by adding acetic acid, soda ash and caustic soda respectively. In this study, the impact of pH is analyzed on the basis of color strength, chromaticity, hue angle, CIELAB color space, spectrophotometric image, reflectance percentage and color fastness tests i. e color fastness to rubbing, color fastness to wash, color fastness to perspiration, color fastness to light. Gradually elevated pH boosts up the color strength and chromaticity, at the same time downgrades of hue angle results orangish tone in the dyed fabric. Even more, the lightness of dyed fabric decreases and redness rises with the increment of dyebath pH which results in orangish red darker tone of dyed fabric. Consequently, fabric dyed at acidic dye bath pH exhibits higher resistance in case of color change and color staining from the dyed fabric and multifiber fabric respectively and vice versa.

Published
2022

9. Energetic and exergetic investigation of a mixed flow dryer: A case study of maize grain drying

Author

Md. Sazzat Hossain Sarker, Md. Hasan Tarek Mondal, M. A Hossain, Md. Akhtaruzzaman, and Md. Abdul Momin Sheikh

Subjects
business.industry, General Chemical Engineering, 04 agricultural and veterinary sciences, 02 engineering and technology, 040401 food science, 0404 agricultural biotechnology, Mixed flow, 020401 chemical engineering, Scientific method, Environmental science, 0204 chemical engineering, Physical and Theoretical Chemistry, Grain drying, Process engineering, business
Abstract

Evolution of energetic and exergetic performance is an important concern for selecting suitable dryer for any drying process. This paper attempts to observe performance evaluation in terms of energ...

Published
2020
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12. Influence on structural, electronic and optical properties of Fe doped <scp>ZnS</scp> quantum dot: A density functional theory based study

Author

Abhijit Majumdar, Md. Aminul Islam, and Md. Abdul Momin

Subjects
Materials science, Infrared, Doping, Condensed Matter Physics, Molecular physics, Atomic and Molecular Physics, and Optics, Condensed Matter::Materials Science, Tetragonal crystal system, Transition metal, Quantum dot, Density functional theory, Physical and Theoretical Chemistry, Local-density approximation, Luminescence
Abstract

In this paper, the tunability of the fluorescence capacity of ZnS quantum dot (QD) after the effective doping of transition metal iron (Fe) have been studied. The structural, electronic, and optical properties have been optimized for pure and Fe doped ZnS QDs by using local density approximation in density functional theory framework. The optimized lattice volumes show a reasonable agreement with previously obtained experimental and theoretical data for both the doped and un-doped system. As Fe is doped to ZnS, the crystal system transforms from cubic to tetragonal structure with an increased lattice volume compared to the pure system and exhibits a narrow band gap with a negative value. Moreover, the absorption peak is broadened in the ultraviolet to the blue (visible) region and it shows a low intense peak in the infrared region. These results indicate the increase of fluorescence capacity that may be expected to apply for rapid detection of virus-like as SARS CoV-2. © 2021 Wiley Periodicals LLC.

Published
2021
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13. Effect of Fe doping on the structural, optical and electronic properties of BaTiO3: DFT based calculation

Author

Md. Aminul Islam, Meherun Nesa, and Md. Abdul Momin

Subjects
Materials science, Condensed matter physics, Fermi level, Doping, General Physics and Astronomy, Electronic structure, 01 natural sciences, Optical conductivity, 010305 fluids & plasmas, Condensed Matter::Materials Science, symbols.namesake, chemistry.chemical_compound, Tetragonal crystal system, chemistry, 0103 physical sciences, Barium titanate, symbols, Condensed Matter::Strongly Correlated Electrons, Density functional theory, 010306 general physics, Electronic band structure
Abstract

In this paper, the effect of high concentrated Iron (Fe) doping on the structural, electronic and optical properties of Barium Titanate (BaTiO3) based on density functional theory (DFT) are reported. The calculated lattice parameters show that the phase of BaTiO3 transformed into tetragonal from cubic phase after Fe doping. The electronic structure shows that Fe creates some defect states in the energy band which create weak coordinate covalent bond because of metal-metal interaction. The complex dielectric function, absorption, reflectivity, refractive index, optical conductivity and energy-loss spectrum for BaTiO3 and Fe doped BaTiO3 are calculated, and the results show a dramatic behavior near Fermi level after Fe doping.

Published
2019
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14. Development of Compact Load Cell Using Multiwall Carbon Nanotube/Cotton Composites and Its Application to Human Health and Activity Monitoring

Author

Mohammad Jellur Rahman, Tetsu Mieno, and Md. Abdul Momin

Subjects
Reproducibility, Materials science, Article Subject, Composite number, 02 engineering and technology, Carbon nanotube, 010402 general chemistry, 021001 nanoscience & nanotechnology, Compression (physics), 01 natural sciences, Load cell, 0104 chemical sciences, law.invention, Human health, Electrical resistance and conductance, law, lcsh:Technology (General), lcsh:T1-995, General Materials Science, Composite material, 0210 nano-technology, Sensitivity (electronics)
Abstract

Compact load cells have been developed using multiwall carbon nanotube/cotton (MWCNT/cotton) composites, whose performance has been optimized by varying the concentration of MWCNTs and the thickness of the composite. The sensitivity of the load cell, which is defined as the ratio of the change in the relative electric resistance to the change in applied pressure, is measured to be in the range of 180-0.20 kPa-1 for applied pressures of 8.84 Pa-884 kPa (F=1.0 mN-100 N). The load cells show a rapid response in situations with a frequently changing force, with response times τ1/2 of 4.5 and 5.0 ms for the application and release of load, respectively. The load cell demonstrates high reproducibility in tests involving more than 11,200 compression/relaxation cycles. It also has high reproducibility in different harsh environments and has a good electric-conductance recovery property. The load cell is successfully used to monitor the time-varying center of gravity of a human foot, which can be applied to the diagnosis of sick and healthy people. The MWCNT/cotton load cells can be used as wearable and flexible devices for monitoring human health.

Published
2019

15. Molecular dynamics, transport property, and surface stoichiometry of plasma polymerized cyclohexane thin films

Author

Md. Abdul Momin, Meherun Nesa, Monir Uzzaman, Abhijit Majumdar, and A. H. Bhuiyan

Subjects
General Physics and Astronomy
Abstract

The properties of cyclohexane (CHex) and plasma polymerized cyclohexane (PPCHex) thin films are studied, and the results are compared with those obtained using a computing model (under the density functional theory framework). Quantum chemical calculations are performed to calculate their molecular electrostatic potential (MEP), highest occupied molecular orbital (HOMO) and lowest unoccupied molecular orbital (LUMO) gaps, thermodynamic stability, chemical reactivity, and vibrational properties. The HOMO–LUMO energy gap sharply decreased in the case of the PPCHex thin film compared to that of CHex. Gibbs free energy shows a similar phenomenon where the enthalpy of PPCHex (formation) is almost six times higher than that of CHex. The computed FTIR spectra indicate good agreement with the experimental results. RMS roughness shows a smooth surface, and it is compared with the FESEM image. Moreover, the dielectric constant and electrical conductivity of the PPCHex thin films are also studied.

Published
2022
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18. Optical and Electronic Structural Properties of Cu

Author

Arun K, Mukhopadhyay, Md Abdul, Momin, Avishek, Roy, Sadhan C, Das, and Abhijit, Majumdar

Subjects
Condensed Matter::Materials Science, Article
Abstract

A comprehensive study on the electronic structure and optical properties of a Cu3N film is performed by the first-principles study using density functional theory. The Hubbard (U) term is added in the local density approximation approach for improvement of the theoretical band gap energy. The band structure of the Cu3N unit cell shows a strong hybridization of Cu 3d and N 2p orbitals in the near-valence band region (M) because of their antibonding states which are also observed by molecular orbitals (HOMO–LUMO). The conduction band is dominated by a very small amount of Cu 3p and N 2p orbitals. The density of states exhibits a negligible deformation in Cu–N bonding. The Cu3N thin film deposited by the DC magnetron-sputtering technique shows a polycrystalline structure with a nonstoichiometric Cu3N phase. The experimentally obtained optical band gap and refractive index of the Cu3N film are 1.44 eV and 2.14, respectively, which are comparable with those from the theoretical approximation.

Published
2020

19. An SDN-Enabled IoT Architecture with Fog Computing and Edge Encryption Support

Author

Md. Abdul Momin, Md. Rashid Al Asif, and Nagib Mahfuz

Subjects
business.industry, Computer science, Computation, The Internet, Cloud computing, Use case, Enhanced Data Rates for GSM Evolution, Layer (object-oriented design), business, Encryption, Heterogeneous network, Computer network
Abstract

Internet of Things (IoT) is supposed to be the future form of communication where objects can communicate with each other via the Internet. Due to heterogeneous network technologies and infrastructures, the overall IoT system is getting more complex than the traditional system. This research discusses about integrating SDN in IoT system for better network functionalities in terms of optimization, controlling, dynamic resource management, etc., whereas fog computing provides quick time response for real-time applications with security where computation is done at the edge of the network. Also, adding edge encryption provides better security, privacy, and sharing of sensitive data where data is encrypted before sending to the cloud. Thus, a four-layered IoT architecture is proposed and explained here with two use cases where each layer is capable to respond to specific security requirements as well as open for adding new security frameworks.

Published
2020
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21. Effects of Four Base Cutter Blade Designs on Sugarcane Stem Cut Quality

Author

P. A. Wempe, Alan C. Hansen, Md. Abdul Momin, and Tony E. Grift

Subjects
0106 biological sciences, animal structures, business.industry, Biomedical Engineering, Base (geometry), food and beverages, Soil Science, Forestry, 04 agricultural and veterinary sciences, Root system, Structural engineering, 01 natural sciences, Ratooning, Horticulture, stomatognathic system, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Blade (archaeology), business, Agronomy and Crop Science, 010606 plant biology & botany, Food Science, Mathematics
Abstract

The cut quality of sugarcane stems during harvesting is of considerable importance, as any damage inflicted on the stems and root systems affects ratooning and reduces yield. In current conventional cutting systems for sugarcane, relatively little attention has been paid to optimizing the cutting dynamics by investigating various blade designs and configurations. One limitation of impact cutting methods is the relatively rapid blunting of the blade edges through wear, leading to stem damage. This study aimed at investigating the effects on sugarcane cut quality of four base cutter blade designs: a conventional straight blade, a 30° angled blade, a serrated blade, and a straight blade with laser cladding on its underside. Blades of each type were installed at a 45° angle on a base cutter fitted to a John Deere 3520 sugarcane harvester. Stem damage, root system damage, and stubble height were considered as cut quality indicators, and blade wear was evaluated as the percentage of metal mass loss after completing each harvesting operation. In this study, the extent of stem and root system damage was classified into nine categories: (1) undamaged stem, not uprooted, (2) undamaged stem, partially uprooted, (3) undamaged stem, uprooted, (4) partially damaged stem, not uprooted, (5) partially damaged stem, partially uprooted, (6) partially damaged stem, uprooted, (7) severely damaged stem, not uprooted, (8) severely damaged stem, partially uprooted, and (9) severely damaged stem, uprooted. The highest percentage of stems damaged during harvesting (approx. 38%) and the highest percentage of root systems damaged (approx. 36%) occurred with the angled blade. The percentages of undamaged stems for the straight, angled, serrated, and laser clad blades were 76.9%, 62.1%, 83.1%, and 72.3%, respectively; partially damaged stems were 11.25%, 21.97%, 11.29%, and 17.73%, respectively; and severely damaged stems were 11.9%, 15.9%, 5.65%, and 9.9%, respectively. Except for the angled blade, all the blades cut almost 80% of stems without affecting the root system, and only 5% of stems were uprooted. Indices for stem damage and uprooting damage were calculated to evaluate the cut quality on a scale from -1.00 (least damage) to +1.00 (greatest damage). For both indices, the serrated blade had values closest to the target value of -1.00, implying the least damage to stems and root systems. Greater stubble heights (110 mm) were observed for the angled blade, with 76% of cut stems above the target 75 mm threshold, which was selected based on the farmer’s suggestion. Comparatively less stubble height was obtained with the serrated and laser clad blades, and roughly 60% of stems were cut in the ideal range (

Published
2017
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22. Prototype Implementation of Edge Encryption in IoT Architecture

Author

Md. Abdul Momin, Md. Rashid Al Asif, Md. Alam Hossain, Saumendu Roy, and Nagib Mahfuz

Subjects
Computer science, business.industry, Node (networking), 05 social sciences, Control (management), 0507 social and economic geography, Data security, 020206 networking & telecommunications, Plaintext, Cloud computing, 02 engineering and technology, Computer security, computer.software_genre, Encryption, Information sensitivity, 0202 electrical engineering, electronic engineering, information engineering, Enhanced Data Rates for GSM Evolution, business, 050703 geography, computer
Abstract

In the IoT system, captured plaintext data is sent to the cloud for storing, computing and further processing. But it is a potential concern to secure sensitive information like personal, financial, business, medical, etc. A certain number of researchers established IoT architecture with distinctive layers where data security is solely dependent on cloud service providers (CSPs) which make potential security threats. In this paper, an edge encryption support in the IoT architecture is implemented where the involvement of CSPs for security purposes becomes nullified. As the data become encrypted before it gets sent to the cloud, it becomes more secure and reliable for both the owner and shared users. Additionally, only the IoT node owner and shared users can access those data which provides better security, privacy, and control of data.

Published
2019
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23. Microstructural, compositional, topological and optical properties of plasma polymerized cyclohexane amorphous thin films

Author

Khandker S. Hossain, A.H. Bhuiyan, and Md. Abdul Momin

Subjects
Glow discharge, Materials science, Polymers and Plastics, Cyclohexane, Band gap, Scanning electron microscope, Organic Chemistry, 02 engineering and technology, Surface finish, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Plasma polymerization, 0104 chemical sciences, Amorphous solid, chemistry.chemical_compound, chemistry, Materials Chemistry, Thin film, Composite material, 0210 nano-technology
Abstract

Synthesis of plasma polymerized cyclohexane (PPCHex) thin films on to glass substrates has been done using a capacitively coupled parallel plate low-pressure glow discharge technique from cyclohexane at room temperature. From scanning electron microscopy, smooth and homogeneous surface of PPCHex thin films is observed and atomic force microscopic micrographs show the roughness of 0.815 to 0.364 nm which also confirm the smooth, homogenous, pinhole free and uniform surface of the PPCHex thin films. The presence of 73.1 and 74.7 percentage of carbon in PPCHex thin films of thicknesses 220 and 350 nm with a small percentage of oxygen is confirmed by the energy dispersive x-ray analysis. The PPCHex thin film is thermally stable up to about 510 K. The structure of PPCHex thin films is observed to vary with film’s thickness by forming new chemical bonds such as O-H stretching, C=C stretching, C≡C stretching, C-O stretching compared to that of the monomer. Allowed direct band gaps of PPCHex thin films are found between 2.97 and 3.61 eV for different thicknesses and allowed indirect band gaps are found to be 1.83 to 2.31 eV. Therefore, the PPCHex could be used in different type of optoelectronic devices.

Published
2019
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25. Effect of M (Ni, Cu, Zn) doping on the structural, electronic, optical, and thermal properties of CdI2: DFT based theoretical studies

Author

A.H. Bhuiyan, Md. Abdul Momin, Mehnaz Sharmin, Mohammad Jellur Rahman, Meherun Nesa, and Md. Aminul Islam

Subjects
010302 applied physics, Materials science, Band gap, Physics, QC1-999, Doping, Analytical chemistry, General Physics and Astronomy, 02 engineering and technology, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Metal, chemistry.chemical_compound, Lattice constant, Cadmium iodide, chemistry, Quantum dot, visual_art, 0103 physical sciences, visual_art.visual_art_medium, Density functional theory, 0210 nano-technology
Abstract

Structural, electronic, optical, and thermal properties of undoped and metal, M (Ni, Cu, and Zn), doped cadmium iodide (CdI2) were studied using a generalized gradient approximation of density functional theory. Lattice constants found from the theoretical studies of the structure of the undoped and doped CdI2 are in good agreement with those found in the available experimental and theoretical investigations. A strong mixing of I 5p and M 3d states is found after the doping of 3d M in CdI2, which alters the bandgap from positive to negative. Among all M (Ni, Cu, and Zn), Ni doped CdI2 with a narrow negative bandgap evolve the quantum dot level. Due to interactions between the Cd 4d and M 3d states, the measured optical and thermal properties of the doped system assessed with pure CdI2 indicate unusual behaviors, which suggest that the material can be used in different nano-electronic and electrochemical applications and in biological levels such as detection of COVID-19 pathogens.

Published
2021

26. Foot pressure sensor system made from MWCNT coated cotton fibers to monitor human activities

Author

Tetsu Mieno, Mohammad Jellur Rahman, and Md. Abdul Momin

Subjects
Sensor system, Materials science, Wearable, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Pressure sensor, 0104 chemical sciences, Surfaces, Coatings and Films, Highly sensitive, Locus of center of gravity, Foot pressure sensors, Sensitivity, Materials Chemistry, Sensing mechanism, Foot pressure, 0210 nano-technology, Contact area, Knee injuries, Biomedical engineering
Abstract

Highly sensitive pressure sensors have been developed from multiwall carbon nanotube (MWCNT) coated cotton fibers to utilize them in monitoring of human activities. The sensing mechanism is discussed through experimental and theoretical explanations. The principle of the sensing mechanism is related with the number of contacts among the MWCNT coated fibers and contact area among the fibers when a force is applied. Using the three sensors a foot pressure sensor system has been developed, which can detect the exerted force of human foot during standing, walking, running, jumping, and other activities. The locus of the center of gravity is also measured by these sensors during these human activities. The exerted force increases instantaneously when a person jumps from an upper step of a ladder onto a floor, which is clearly recorded. The foot pressure sensors can be used to monitor the real-time sporting performances. To prevent the ankle and knee injury of sportsmen and to monitor the activities of the patients, and old persons, the foot pressure sensors can be utilized.

Published
2020

27. Topological properties and direct current electrical charge transport mechanism of plasma polymerized cyclohexane thin films

Author

Md. Abdul Momin and A.H. Bhuiyan

Subjects
010302 applied physics, Glow discharge, Materials science, Cyclohexane, Direct current, Metals and Alloys, Analytical chemistry, Schottky diode, 02 engineering and technology, Surfaces and Interfaces, Activation energy, 021001 nanoscience & nanotechnology, Thermal conduction, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, 0103 physical sciences, Materials Chemistry, Thin film, 0210 nano-technology, Current density
Abstract

High-performance plasma polymerized organic thin films have been synthesized by employing a capacitively coupled glow discharge technique and cyclohexane is used as a precursor material. The surface of the plasma polymerized cyclohexane (PPCHex) thin films observed to be smooth, pinhole free and uniform. It is observed from thermal analysis that the rate of loss of mass is very low in air atmosphere below 510 K and the films are thermally stable. Above 510 K weight loss takes place in different stages in air. The current density of the PPCHex thin films is increased when the thicknesses is decreased and that is increased with increasing temperatures. The conduction mechanism of carrier transport operative in these PPCHex thin film is dominated by Schottky type conduction mechanism. The activation energy of the PPCHex thin films for applied voltage 10 V is found 0.14 ± 0.05 eV near room temperature region and that in the higher temperature region is 0.57 ± 0.04 eV. The activation energy in the Schottky region for the applied voltage 50 V is about 0.16 ± 0.06 eV near the room temperature region and that is 0.83 ± 0.05 eV at the higher temperature region.

Published
2020
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28. Structural, optical and electronic properties of CuO and Zn doped CuO: DFT based First-principles calculations

Author

A.H. Bhuiyan, Mehnaz Sharmin, Md. Abdul Momin, and Meherun Nesa

Subjects
010304 chemical physics, Condensed matter physics, Band gap, Infrared, Chemistry, General Physics and Astronomy, Electronic structure, Photon energy, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Condensed Matter::Superconductivity, 0103 physical sciences, CASTEP, Condensed Matter::Strongly Correlated Electrons, Density functional theory, Physical and Theoretical Chemistry, Electronic band structure, Refractive index
Abstract

Density functional theory based First-principles calculations have been performed to investigate the structural, optical and electronic properties of CuO and Zn doped CuO and compared with experimental results. Calculations are demonstrated by Cambridge Serial Total Energy Package. Calculated values of lattice parameters matched 80% with experimental data of CuO and for Zn doped CuO, there was a 55% match. Figures of electronic band structure, TDOS and PDOS have been computed from the electronic structure of CuO and Zn doped CuO. Significant transition occurs in band gap after Zn doping. Optical properties showed that CuO and Zn doped CuO were transparent, having a small energy gap and maximum reflectivity at infrared region. The real part of refractive index was higher at lower energy region and imaginary part of refractive index was zero at 28 eV photon energy. The calculated value of band gap was in good agreement with the experimental value.

Published
2020
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29. A study on Volumetric and Viscometric Properties for the Mixtures of DMF and Other Alcohols from Temperatures ranges 303.15K to 323.15K

Author

Md. Abdul Momin, Shahinur Rahman, Shahrul Islam, Jannatul Ferdaus, Md. Abdullah Al Muhit, Md. Zaved Hossain Khan, Helal Uddin, and G. M. Arifuzzaman Khan

Subjects
Formamide, chemistry.chemical_compound, Viscosity, Chain length, Molar volume, chemistry, Butanol, Analytical chemistry, Organic chemistry, Alcohol, Flory–Huggins solution theory
Abstract

Densities, p, and viscosities, ?, of four binary systems: N,N-dimethyl formamide (DMF) + 1-propanol, DMF + 2-propanol, DMF + butanol and DMF + 1-pentanol have been measured at five different temperatures ranging form 303.15K to 323.15K at an interval of 5K. Excess molar volumes were found to be negative over the entire concentration ranges. The negative excess molar volume decreases with the increase of chain length of alcohol, the magnitude follows the order DMF+ 1-propanol >, + 2-propanol >, +butanol >, + 1-pentanol. The change of viscosity has been found to be sensitive to the chain length of alcohols. Excess viscosities and Grunberg- Nissan interaction parameters have been found to be positive for DMF + 1-propanol and DMF + 2-propanol systems, and negative for other two systems DMF + butanol and DMF + 1-pentanol. The thermodynamic energy of activation; such as, positive ?G#E each also compatible with the observation.

Published
2015
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30. Geometry-based mass grading of mango fruits using image processing

Author

Md. Abdul Momin, C. Igathinathane, M. S. Sultana, A.T.M. Ziauddin, Tony E. Grift, and M.T. Rahman

Subjects
Image processing, Geometry, Aquatic Science, Perimeter, 0404 agricultural biotechnology, Median filter, Computer vision, lcsh:Agriculture (General), Grading (education), lcsh:T58.5-58.64, lcsh:Information technology, business.industry, Sorting, Forestry, Feret diameter, 04 agricultural and veterinary sciences, Quality, lcsh:S1-972, 040401 food science, Thresholding, Roundness (object), Computer Science Applications, Geography, Projected area, Animal Science and Zoology, Artificial intelligence, business, Agronomy and Crop Science, Horticultural crops
Abstract

Mango (Mangifera indica) is an important, and popular fruit in Bangladesh. However, the post-harvest processing of it is still mostly performed manually, a situation far from satisfactory, in terms of accuracy and throughput. To automate the grading of mangos (geometry and shape), we developed an image acquisition and processing system to extract projected area, perimeter, and roundness features. In this system, images were acquired using a XGA format color camera of 8-bit gray levels using fluorescent lighting. An image processing algorithm based on region based global thresholding color binarization, combined with median filter and morphological analysis was developed to classify mangos into one of three mass grades such as large, medium, and small. This system achieved an accuracy of 97% for projected area and Feret diameter, 79% for perimeter, and 36% for roundness. To achieve a finer grading, two different grading features could be used in sequence. The image grading system is simple and efficient and can be considered a suitable first stage to mechanizing the commercial grading of mangos in Bangladesh. Moreover, the method has the potential to be applied to other crops with suitable adjustments.

Published
2017
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31. Prevalence of blood protozoa in poultry in Tangail, Bangladesh

Author

Nurjahan Begum, Mohammad Zahangir Alam, Anita Rani Dey, Md. Shah Paran, and Md. Abdul Momin

Subjects
medicine.medical_specialty, Leucocytozoon, Veterinary medicine, biology, Epidemiology, medicine, Protozoa, Haemoproteus, Odds ratio, Anatomy, biology.organism_classification, Parasitic infection, Peripheral blood
Abstract

The present study was undertaken in different areas of Tangail district to investigate the presence of haemosporidian parasites in domestic poultry (Chicken, duck and pigeon). A total of 72 samples were examined from December, 2013 to May, 2014. Microscopical examinations of peripheral blood were performed. Among the examined samples, 33(45.8%) poultry were found to be infected with different blood protozoa. Two species of blood protozoa were identified such as Leucocytozoon spp. in chickens (34.6%) and ducks (58.3%); Haemoproteus spp. (22.7%) and Leucocytozoon spp. (22.7%) in pigeons. Female (46.5%) were 1.10 times more susceptible than male (44.8%) which was statistically significant (P

Published
2014
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32. Performance of Existing Maize Shellers in Bangladesh

Author

Md. Abdul Momin and M. M. Alam

Subjects
Toxicology, Technical performance, Engineering, business.industry, Economic analysis, Operations management, General Medicine, Ton, Field tests, Field survey, business
Abstract

This study was conducted to identify the technical and economical performance of the existing models of maize sheller in the country and suggest the best maize sheller models for the farmers during 3 September 2006 to 30 March 2007 in the area of Bogra, Rangpur, Dinajpur, Rajshahi and Jessore. Detail field tests were conducted on seven selected maize sheller models of three categories to assess the comparative performance. Three basic designs of maize sheller models were identified through field survey and secondary information. The models were Spike-pinion (SP) type, Spiral rasp-bar cylinder (SBC) type and Parallel rasp-bar cylinder (PBC) type. The technical performances of the selected maize sheller models were evaluated on the basis of throughput capacity, shelling capacity, cylinder loss, separating loss, broken kernel and shelling efficiency. The shelling capacity and efficiency of Binimoy and Sarker spike-pinion (SP) type models were found about 0.45 ton/hr and 93%, respectively. Similarly, the shelling capacities and efficiencies of Farida, Rahman and Uttaran spiral rasp-bar cylinder (SBC) models were ranged between 2.8 to 4.0 ton/hr and 93 to 97%, respectively. Farida parallel rasp-bar (PBC) type maize sheller had shown incredible shelling efficiency of about 99% with almost negligible cylinder (0.25%) and separating (0.25%) losses along with lowest broken kernel (2.5%) percentage. However, the shelling capacity was found comparatively low about 1.9 ton/hr. The shelling costs, benefit-cost ratios and net margins of spiral rasp-bar cylinder models vary between Tk. 91-97/ton, 1.28-1.37 and Tk78-134/hr, respectively. Among the models Farida (SBC) appeared as the most economic one having lowest shelling cost of Tk. 91/ton with the highest benefit-cost ratio of 1.37 and net margin of Tk. 134/hr (determined at a custom-hire rate of Tk. 7 per 40 kg of shelled kernel). Comparative economic uses of the selected maize shellers suggest that the use of hand sheller is beneficial up to an annual use of 13 ton. Whereas, Binimoy (SP) and Sarker (SP) models are economic for annual use between 13 and 30 ton, and Farida (SBC), Rahman (SBC) and Uttaran (SBC) models are economic for shelling over 30 ton per annum. Economic analysis suggest that hand sheller could be beneficial for very small farm holdings, Binimoy (SP) and Sarker (SP) models for small farm holdings and Farida (SBC), Rahman (SBC) and Uttaran (SBC) models for medium to large farm holdings and custom-hire service.DOI: http://dx.doi.org/10.3329/pa.v20i1-2.16873 Progress. Agric. 20(1 & 2): 207 – 220, 2009

Published
2013
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33. Optimization of Machine Vision for Tomato Grafting Robot

Author

Md. Abdul Momin, Naoshi Kondo, Subo Tian, Tomoo Shiigi, and MA Ashraf

Subjects
Engineering, business.industry, Machine vision, Grafting (decision trees), Sorting, Backlight, Atomic and Molecular Physics, and Optics, Machine vision system, Robot, Tomato grafting, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business
Abstract

Department of Farm Power and Machinery, Bangladesh Agricultural University, Mymensingh-2202, Bangladesh(Received: 20 March 2012. Accepted: 10 October 2012)In order to develop fully-automatic grafting robot for tomato seedlings, the machine vision system forsorting grafting seedling and inspecting grafted seedling was studied. In this paper, the devices anddifferent lighting (Front lighting, Backlight, and both Front lighting and Backlight) of machine visionsystem were optimized and selected. The result shows that Blue Backlight without filter device isbest for both sorting and inspecting seedlings. Then the images of sorting and inspecting seedlingswere acquired using the selected machine vision system and processed by the program. Experimentresults show the success rate on processing the images of sorting seedlings can reach 96% andeven the gap of 0.2 mm between scion and rootstock can be found easily when inspecting graftedseedling.

Published
2013
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34. Identification of UV-Fluorescence Components for Detecting Peel Defects of Lemon and Yuzu using Machine Vision

Author

Kyohei Ido, Usman Ahmad, Md. Abdul Momin, Tomoo Shiigi, Makoto Kuramoto, Yuichi Ogawa, and Naoshi Kondo

Subjects
Fluorescence-lifetime imaging microscopy, Chromatography, Chemistry, General Chemical Engineering, Analytical chemistry, Fluorescence, Industrial and Manufacturing Engineering, Food Science
Abstract

Fluorescence imaging has been used to detect peel defects in many citrus varieties, but not in lemon and yuzu. In this study, we extract and identify fluorescent components from the peel of lemon and yuzu. The characteristics of excitation and fluorescence of these extracted components were determined, and their identity clarified using NMR spectroscopy. Extracted fluorescent components for both lemon and yuzu have a coumarin structure. Two coumarins (5-7-dimethoxycoumarin,5-geranyloxy-7-methoxycoumarin) were identified in lemon and one (5-geranyloxycoumarin) in yuzu. Their excitation and fluorescence wavelength were observed at 320–330 nm and 380–400 nm, respectively. Moreover, when a fluorescence imaging system was set-up with UV-A illumination, it was shown that this systemcan detect peel defects in lemon, and to a lesser extent in yuzu.

Published
2013
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35. Patterns of Fluorescence Associated with Citrus Peel Defects

Author

Naoshi Kondo, Yuichi Ogawa, Kazunori Ninomiya, Kyohei Ido, and Md. Abdul Momin

Subjects
Horticulture, Spots, Chemistry, General Chemical Engineering, Botany, Fluorescence, Industrial and Manufacturing Engineering, Food Science, Calyx
Abstract

Unshu citrus were sorted by fluorescence imaging in a commercial packinghouse and undamaged-appearing unshu that had been rejected by the packinghouse due to fluorescence appearing on their peel were studied. We examined the various visible patterns, based upon fluorescence and microscopic images, to provide a categorization of physical reasons for the observed fluorescence. The categorization classes were: 1) slight physical damage: thin scar, hole and flow, shrunken at calyx; 2) rubbing against decayed fruits; 3) green spots; and 4) rind puffing. The percentage of observation for each of the four classes was 22 %, 15 %, 42 % and 21 %, respectively. Storage of the classes indicated that, except for the green spot class, the injured area expanded quickly and caused the fruits to rot within a week.

Published
2013
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36. Image processing for crop/weed discrimination in fields with high weed pressure

Author

Zhang Chunlong, Md. Abdul Momin, Tony E. Grift, Wei Li, Li Nan, and Yuan Ting

Subjects
Mahalanobis distance, Pixel, business.industry, Image processing, Pattern recognition, Weed control, Crop weed, Naive Bayes classifier, Agronomy, Artificial intelligence, business, Weed, Hue, Mathematics
Abstract

Machine vision based automatic crop or weed detection in commercial fields is still an open problem, because of wide variety of plant species and the unstructured lighting condition. The task becomes even more challenging when weeds are prominent and overlap with crops. This paper presents an image processing method for fast discrimination of crops and weeds in fields with high weed infestation levels. Mahalanobis distance was used to classify crop and weed pixels in field images based on their differences in hue and saturation. A Naive Bayes classifier was built to compare with the Mahalanobis distance based classifier. 80 images (100 by 100 pixels) of celery cabbage, broccoli and weeds were used to train and evaluate the method. Evaluation result showed that this method correctly discriminated 68.0% of crop pixels and 83.2% weed pixels in celery cabbage and weed images, and 97.0% of crop pixels and 99.7% of weed pixels in broccoli and weed images. The average time requirement for processing each 100-by-100-pixel image was 9.7 ms. Compared with the Naive Bayes classifier, the Mahalanobis distance based classifier was more suitable to address the problem of this study. In addition, this method was built into a crop detection method designed in our previous work. A series of 15 field images of broccoli with high weed pressure were used to test the combined method. The results indicated that the combined method correctly detected 93.6% of the cops, a significant improvement over the previous method.

Published
2016
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38. Investigation of Excitation Wavelength for Fluorescence Emission of Citrus Peels based on UV-VIS Spectra

Author

Kazuya Yamamoto, Yuichi Ogawa, Md. Abdul Momin, Tomoo Shiigi, Makoto Kuramoto, and Naoshi Kondo

Subjects
Excitation wavelength, Wavelength, Fluorescence-lifetime imaging microscopy, Ultraviolet visible spectroscopy, Chemistry, General Chemical Engineering, Analytical chemistry, Laser-induced fluorescence, Fluorescence, Industrial and Manufacturing Engineering, Excitation, Spectral line, Food Science
Abstract

A study was conducted to investigate the best wavelengths for fluorescence excitation and the resulting fluorescence wavelengths in the range of 300-700 nm with citrus peels taken from 15 varieties, which are concerned with detection of surface defects of citrus fruits. Characteristics of UV absorbance, excitation and fluorescence spectra were observed by variety, and principle components analysis (PCA) and discriminate analysis (DA) were used to categorize the citrus varieties by fluorescence intensity levels in order to give some tips for optimizing the fluorescence imaging based machine vision system. The observed proper excitation wavelength for best fluorescence emmision and resulting peak fluorescence wavelength varied variety to variety and ranged from 350 to 380 nm and 490 to 540 nm respectively. The selected varieties of citrus were categorized successfully into four groups of known fluorescence level, namely strong, medium, weak and no fluorescence groups.

Published
2012
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39. Machine Vision System for Detecting Fluorescent Area of Citrus Using Fluorescence Image

Author

Mitsutaka Kurita, Yuichi Ogawa, Kazunori Ninomiya, Tomoo Shiigi, Naoshi Kondo, and Md. Abdul Momin

Subjects
genetic structures, business.industry, Computer science, Machine vision, food and beverages, Image processing, Fluorescence, Machine vision system, law.invention, law, Computer vision, Artificial intelligence, business, Light-emitting diode
Abstract

This research is carried out to develop a machine vision system which could identify the fluorescence area on injured or defective citrus surfaces. The target objects whose surfaces were injured by needle insertions were acquired by a camera VGA using UV lamps (radiating Blacklight and UV-B wave-lengths) and white LEDs. Because damaged citrus peel includes fluorescent substances, it was easy to discriminate fluorescence parts from healthy parts. The results showed that the blacklighting system is practical and feasible, and that the proposed algorithm of fluorescence area detection is effective for some varieties of citrus.

Published
2010
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40. The Biochemistry of Hunger Stimulating Hormone: Why Understanding This Cascade In Hypothalamus Is Beneficial

Author

Mahjabin Rashid, M Salahuddin, M. Abu Sayed, Md. Shariful Islam, Jay Prakash Sah, Md. Abdul Momin, Deluwer Hossain, Md. Sayfullah, and Sanjay Kumar Shah

Subjects
medicine.medical_specialty, digestive, oral, and skin physiology, Adipose tissue, Biology, medicine.disease, Obesity, Psychiatry and Mental health, Endocrinology, Gastrointestinal hormone, Hypothalamus, Weight loss, Internal medicine, medicine, Ghrelin, Secretagogue, medicine.symptom, hormones, hormone substitutes, and hormone antagonists, Hormone
Abstract

Ghrelin is the key hormone responsible for our hunger stimulate to food intake in body system. At present a huge number of people suffer from obesity, so understanding the mechanisms by which various hormones and neurotransmitters have influence on energy balance has been a subject of current research in neuroscience. At present ghrelin is the only known gastrointestinal hormone that increases food intake where Plasma ghrelin levels are inversely correlated with body weight and rise following weight loss in humans. It is a natural ligand of the growth hormone (GH) secretagogue (GHS) receptor type 1a (GHS-R1a). The GHS-R is highly expressed in the hypothalamus, but is also found in the brainstem, pituitary, GI tract, adipose tissue and other peripheral tissues. Ghrelin is still recognized as a potential drug target for weight regulation. The main objective of this is to summarize the current knowledge and optimize about the physiology and pathophysiology of ghrelin in food intake regulation.

Published
2015
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41. Potential Drug Targets in the Death Pathway: Therapeutic Approaches in Apoptosis

Author

Md. Abdur Rahman, Muhammad Jahangir Hossen, Abu Zaffar Shibly, M Salahuddin, Md. Shariful Islam, Jay Prakash Sah, Muhammad Aurang Zeb, Md. Ramim Tanver Rahman, Mizanur Rahman Washim, Md. Sayfullah Razin, Md. Abdul Momin, and Hasibul Haque Rakib

Subjects
Caspase-9, Programmed cell death, Cytochrome c, Cancer, Biology, medicine.disease, Bioinformatics, medicine.disease_cause, Psychiatry and Mental health, Apoptosis, medicine, biology.protein, Apoptosis-inducing factor, Regulatory Pathway, Carcinogenesis
Abstract

The form of programmed cell death known as Apoptosis has become an intense focus of investigation in various fields including carcinogenesis and cancer therapy. It is a sequentially regulated suicidal programme where cells regulate certain enzymes including caspase 9 activation and cytochrome C release with apoptosis inducing factor (AIF). The Bcl-2 proteins also represent a promising target for modulating tumor cell sensitivity to Apoptosis. Disturbance of this regulatory pathway may lead to various diseases like autoimmune diseases, neurodegenerative diseases and cancers. Therefore, understanding the mechanisms for apoptosis signaling pathway will give us huge knowledge to enlighten the pathogenesis of various diseases including cancer, and will open new horizons to therapeutic approaches in drug designing.

Published
2015
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42. Development of Briquette from Coir Dust and Rice Husk Blend: An Alternative Energy Source

Author

Md. Hamidul Islam, Md. Abdul Momin, and M.M. Hossain

Subjects
Briquette, Environmental Engineering, Materials science, Waste management, biomass briquette, Renewable Energy, Sustainability and the Environment, Cost effectiveness, lcsh:TJ807-830, lcsh:Renewable energy sources, Energy Engineering and Power Technology, Biomass, Husk, Compressive strength, coconut coir pith, calorific value, Heat of combustion, Coir, briquetting process, combustion, Waste disposal
Abstract

Biomass is one of the predominant renewable energy sources and the use of biomass for the energy generation has got much attention due to its environmental friendliness. Densification of coir dust into fuel briquette can solve waste disposal problem as well as can serve as an alternative energy source. The objective of this study was to investigate the possibility of producing briquette from coir dust and rice husk blend without binder. During this study, a briquetting experiment was conducted with different coir dust and rice husk blends (i.e. coir dust and rice husk ratio of 80:20, 60:40, 50:50, 40:60, 20:80 and 0:100). Briquetting operation was performed using a die-screw press type briquetting machine. The briquettes were tested to evaluate their density, compressive strength, calorific value, burning rate and water vaporizing capacity and it was found that mixing ratio had a significant effect on the physical, mechanical and combustion properties of the coir dust-rice husk briquettes. Density, compressive strength and calorific value and water vaporizing capacity were increased with increasing mixing ratio while burning rate was decreased. Coir dust-rice husk briquettes with mixing ratio of 20:80 had higher density (1.413 g/cm3), compressive strength (218.4 N/cm2), calorific value (4879 kcal/kg), water vaporizing capacity (0.853 l/kg) and low burning rate (0.783 kg/hour) followed by the mixing ratio 40:60, 50:50, 60:40 and 0:100. The results indicate that coir dust and rice husk blend briquettes were found to have better overall handling characteristics over rice husk briquette. However, production of briquettes from coir dust and rice husk at mixing ratio of 50:50 was found to be more suitable for commercial application in terms of cost effectiveness.

Published
2014
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44. Evaluation of the reasons why freshly appearing citrus peel fluorescence during automatic inspection by fluorescent imaging technique

Author

Kazuya Yamamoto, Makoto Kuramoto, Md. Abdul Momin, Yuichi Ogawa, Naoshi Kondo, Kazunori Ninomiya, and Tomoo Shiigi

Subjects
Horticulture, Materials science, genetic structures, Botany, food and beverages, Fluorescent imaging, Fluorescence
Abstract

Defective unshu oranges ( Citrus reticulate Blanco var. unshu ) were sorted based on fluorescent imaging technique in a commercial packinghouse but fresh appearing unshu were rejected due to fluorescence appearing on their peel. We studied the various visible patterns based on colour, fluorescence and microscopic images, where even areas of the peel that are not obviously damaged can have fluorescence, to provide a categorization of fluorescence reasons. The categorization corresponded to: 1) hole and flow; 2) influenced by damaged or rotten fruits that have released peel oil onto it; 3) immature or poor peel quality; 4) whitish fluorescence due to agro-chemicals and 5) variation of the growing season. The identification of such patterns of fluorescence might be useful for citrus grading industry to take some initiatives to make the entire automated system more efficient.

Published
2011
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45. Study on excitation and fluorescence spectrums of Japanese citruses to construct machine vision systems for acquiring fluorescent images

Author

Yuichi Ogawa, Md. Abdul Momin, Naoshi Kondo, Makoto Kuramoto, and Tomoo Shigi

Subjects
Materials science, Absorption spectroscopy, business.industry, Machine vision, medicine.disease_cause, Fluorescence, law.invention, Quality (physics), Optics, law, medicine, Optoelectronics, business, Luminescence, Absorption (electromagnetic radiation), Ultraviolet, Light-emitting diode
Abstract

Research was conducted to acquire knowledge of the ultraviolet and visible spectrums from 300 -800 nm of some common varieties of Japanese citrus, to investigate the best wave-lengths for fluorescence excitation and the resulting fluorescence wave-lengths and to provide a scientific background for the best quality fluorescent imaging technique for detecting surface defects of citrus. A Hitachi U-4000 PC-based microprocessor controlled spectrophotometer was used to measure the absorption spectrum and a Hitachi F-4500 spectrophotometer was used for the fluorescence and excitation spectrums. We analyzed the spectrums and the selected varieties of citrus were categorized into four groups of known fluorescence level, namely strong, medium, weak and no fluorescence.The level of fluorescence of each variety was also examined by using machine vision system. We found that around 340-380 nm LEDs or UV lamps are appropriate as lighting devices for acquiring the best quality fluorescent image of the citrus varieties to examine their fluorescence intensity. Therefore an image acquisition device was constructed with three different lighting panels with UV LED at peak 365 nm, Blacklight blue lamps (BLB) peak at 350 nm and UV-B lamps at peak 306 nm. The results from fluorescent images also revealed that the findings of the measured spectrums worked properly and can be used for practical applications such as for detecting rotten, injured or damaged parts of a wide variety of citrus.

Published
2011
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