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Mr. Mohammad Nasirul Hoque
University of Chittagong

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0 Atmospheric Physics
0 HOMER
0 Hybrid Systems
0 Wind Energy
0 rainfall

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Preprint
Published: 20 May 2021
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This research project focuses on the optimization of the hybrid energy system together with the assistance of thin-film coatings aiming to achieve self-sustainable food and crop storage facilities which will run effectively with its own generated energy. An infrastructure will be designed and constructed that will comprise a hybrid power generation system accompanied by thin-film coated semitransparent and non-transparent construction materials for energy saving. Thin-film low emissivity (Low-E) type coatings will assist the transparent or semitransparent construction materials to reflect most of the infrared (IR-mostly heat) and UV spectra of sunlight without interrupting the visible spectrum and will lead to saving energy consumption by reducing the heat and lighting during day time

ACS Style

Mohammad Nur-E Alam; Soyed Mohiuddin Ahmed; Mohammad Nasirul Hoque; Mohammad Khairul Basher; Narottam Das. Combinational Approach of Energy Management for Sustainable Food and Crop Storage Facilities: A Research Concept. 2021, 1 .

AMA Style

Mohammad Nur-E Alam, Soyed Mohiuddin Ahmed, Mohammad Nasirul Hoque, Mohammad Khairul Basher, Narottam Das. Combinational Approach of Energy Management for Sustainable Food and Crop Storage Facilities: A Research Concept. . 2021; ():1.

Chicago/Turabian Style

Mohammad Nur-E Alam; Soyed Mohiuddin Ahmed; Mohammad Nasirul Hoque; Mohammad Khairul Basher; Narottam Das. 2021. "Combinational Approach of Energy Management for Sustainable Food and Crop Storage Facilities: A Research Concept." , no. : 1.

Journal article
Published: 17 October 2020 in Sustainability
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This paper reports on the optimization of thin-film coating-assisted, self-sustainable, off-grid hybrid power generation systems for cattle farming in rural areas of Bangladesh. Bangladesh is a lower middle-income country with declining rates of poverty among its 160 million people due to persistent economic growth in conjunction with balanced agricultural improvements. Most of the rural households adopt a mixed farming system by cultivating crops and simultaneously rearing livestock. Among the animals raised, cattle are considered as the most valuable asset for the small-/medium-scale farmers in terms of their meat and milk production. Currently, along with the major health issue, the COVID-19 pandemic is hindering the world’s economic growth and has thrust millions into unemployment; Bangladesh is also in this loop. However, natural disasters such as COVID-19 pandemic and floods, largely constrain rural smallholder cattle farmers from climbing out of their poverty. In particular, small- and medium-scale cattle farmers face many issues that obstruct them from taking advantage of market opportunities and imposing a greater burden on their families and incomes. An appropriate measure can give a way to make those cattle farmers’ businesses both profitable and sustainable. Optimization of thin-film coating-assisted, self-sustainable, off-grid hybrid power generation system for cattle farming is a new and forward-looking approach for sustainable development of the livestock sector. In this study, we design and optimize a thin-film coating-assisted hybrid (photovoltaic battery generator) power system by using the Hybrid Optimization of Multiple Energy Resources (HOMER, Version 3.14.0) simulation tool. An analysis of the results has suggested that the off-grid hybrid system is more feasible for small- and medium-scale cattle farming systems with long-term sustainability to overcome the significant challenges faced by smallholder cattle farmers in Bangladesh.

ACS Style

Mohammad Nur-E-Alam; Mohammad Hoque; Soyed Ahmed; Mohammad Basher; Narottam Das. Energy Engineering Approach for Rural Areas Cattle Farmers in Bangladesh to Reduce COVID-19 Impact on Food Safety. Sustainability 2020, 12, 8609 .

AMA Style

Mohammad Nur-E-Alam, Mohammad Hoque, Soyed Ahmed, Mohammad Basher, Narottam Das. Energy Engineering Approach for Rural Areas Cattle Farmers in Bangladesh to Reduce COVID-19 Impact on Food Safety. Sustainability. 2020; 12 (20):8609.

Chicago/Turabian Style

Mohammad Nur-E-Alam; Mohammad Hoque; Soyed Ahmed; Mohammad Basher; Narottam Das. 2020. "Energy Engineering Approach for Rural Areas Cattle Farmers in Bangladesh to Reduce COVID-19 Impact on Food Safety." Sustainability 12, no. 20: 8609.

Preprint
Published: 21 September 2020
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This paper reports on the optimization of thin-film coating assisted self-sustainable off-grid hybrid power generation systems for cattle farming in rural areas of Bangladesh. Bangladesh is a lower middle-income country with declining rates of poverty among its 160 million people due to persistent economic growth in conjunction with balanced agricultural improvements. Most of the rural households adopt a mixed farming system by cultivating crops and simultaneously rearing livestock. Among the animals raised, cattle are considered as the most valuable asset for the small/medium-scale farmers in terms of their meat and milk production. Currently, along with the major health issue, the COVID-19 pandemic is hindering the world’s economic growth and has thrust millions into unemployment; Bangladesh is also in this loop. However, natural disasters such as COVID-19 pandemic and floods, largely constrain rural smallholder cattle farmers from climbing out of their poverty. In particular, small and medium-scale cattle farmers face many issues that obstruct them from taking advantage of market opportunities and imposing a greater burden on their families and incomes. An appropriate measure can give a way to make those cattle farmers’ businesses both profitable and sustainable. Optimization of thin-film coating assisted self-sustainable off-grid hybrid power generation system for cattle farming is a new and forward-looking approach for sustainable development of the livestock sector. In this study, we design and optimize a thin-film coating assisted hybrid (photovoltaic-battery-generator) power system by using the Hybrid Optimization of Multiple Energy Resources (HOMER, Version 3.14.0) simulation tool. An analysis of the results has suggested that the off-grid hybrid system is more feasible for small and medium-scale cattle farming systems with long-term sustainability to overcome the significant challenges faced by smallholder cattle farmers in Bangladesh.

ACS Style

Mohammad Nur-E-Alam; Mohammad Nasirul Hoque; Soyed Mohiuddin Ahmed; Mohammad Khairul Basher; And Narottam Das. Energy Engineering Approach for Rural Areas Cattle Farmers in Bangladesh to Reduce COVID-19 Impact on Food-Safety. 2020, 1 .

AMA Style

Mohammad Nur-E-Alam, Mohammad Nasirul Hoque, Soyed Mohiuddin Ahmed, Mohammad Khairul Basher, And Narottam Das. Energy Engineering Approach for Rural Areas Cattle Farmers in Bangladesh to Reduce COVID-19 Impact on Food-Safety. . 2020; ():1.

Chicago/Turabian Style

Mohammad Nur-E-Alam; Mohammad Nasirul Hoque; Soyed Mohiuddin Ahmed; Mohammad Khairul Basher; And Narottam Das. 2020. "Energy Engineering Approach for Rural Areas Cattle Farmers in Bangladesh to Reduce COVID-19 Impact on Food-Safety." , no. : 1.

Journal article
Published: 18 December 2012 in Arabian Journal for Science and Engineering
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Wind and solar energy are the alternative energy sources that can be used to supplement the conventional energy sources particularly in Bangladesh. In this work, the aim was to assess the current wind and solar energy potential in Bangladesh. The wind data for the five stations obtained from Local Government Engineering Department have been assessed, but only two of them seem to be eligible for energy production. Annual average, monthly average and hourly average wind speeds, and wind power densities were calculated from the wind data. The Weibull distribution parameters (c and k), the dominant wind directions and the frequency distributions were also determined. Experimentally measured solar radiation data are not available over Bangladesh. Measured climatological data such as cloud cover and sunshine duration data of Bangladesh Meteorological Department from 1992 to 2001 were used for the estimation of global solar radiation as they are correlated. Techno-economic feasibility analysis is done for 100 kW grid connected wind and solar photovoltaic systems. Renewable energy-based system will bring more environmental benefits than conventional power in terms of human health, reduction of air pollution, and decrease of noise, etc. However, in the above estimation, these were not considered.

ACS Style

Sanjoy Kumar Nandi; Mohammad Nasirul Hoque; Himangshu Ranjan Ghosh; Riku Chowdhury. Assessment of Wind and Solar Energy Resources in Bangladesh. Arabian Journal for Science and Engineering 2012, 38, 3113 -3123.

AMA Style

Sanjoy Kumar Nandi, Mohammad Nasirul Hoque, Himangshu Ranjan Ghosh, Riku Chowdhury. Assessment of Wind and Solar Energy Resources in Bangladesh. Arabian Journal for Science and Engineering. 2012; 38 (11):3113-3123.

Chicago/Turabian Style

Sanjoy Kumar Nandi; Mohammad Nasirul Hoque; Himangshu Ranjan Ghosh; Riku Chowdhury. 2012. "Assessment of Wind and Solar Energy Resources in Bangladesh." Arabian Journal for Science and Engineering 38, no. 11: 3113-3123.

Journal article
Published: 04 April 2012 in ISRN Renewable Energy
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Wind and solar energies are the alternative energy sources that can be used to supplement the conventional energy sources particularly in Bangladesh. In this work, the aim is to assess the current wind and solar energy potential in Bangladesh. The wind data for the five stations obtained from Local Government Engineering Department have been assessed, but only two of them seem to be eligible for energy production. Annual average, monthly average, and hourly average wind speeds and wind power densities were calculated from the wind data. The Weibull distribution parameters (c and k), the dominant wind directions, and the frequency distributions were also determined. Experimentally measured solar radiation data are not available over Bangladesh. Measured climatological data such as cloud cover and sunshine duration data of Bangladesh Meteorological Department from 1992 to 2001 used for the estimation of global solar radiation as they are correlated. Technoeconomic feasibility analysis is done for 100 kW grid connected wind and solar photovoltaic (PV) systems. Renewable-energy-based system will bring more environmental benefits than conventional power in terms of human health, reduction of air pollution, and decrease of noise, and so forth. However, in the above estimation, these were not considered.

ACS Style

Sanjoy Kumar Nandi; Mohammad Nasirul Hoque; Himangshu Ranjan Ghosh; Swapan Kumar Roy. Potential of Wind and Solar Electricity Generation in Bangladesh. ISRN Renewable Energy 2012, 2012, 1 -10.

AMA Style

Sanjoy Kumar Nandi, Mohammad Nasirul Hoque, Himangshu Ranjan Ghosh, Swapan Kumar Roy. Potential of Wind and Solar Electricity Generation in Bangladesh. ISRN Renewable Energy. 2012; 2012 ():1-10.

Chicago/Turabian Style

Sanjoy Kumar Nandi; Mohammad Nasirul Hoque; Himangshu Ranjan Ghosh; Swapan Kumar Roy. 2012. "Potential of Wind and Solar Electricity Generation in Bangladesh." ISRN Renewable Energy 2012, no. : 1-10.