Thesis Chapters by Thiery Yhb
A photovoltaic (PV) system generates heat that is typically wasted and leads to energy inefficie... more A photovoltaic (PV) system generates heat that is typically wasted and leads to energy inefficiency of the systems. The extraction of this energy using heat exchangers (air) could
provide a solution to his problem, hence a form of cogeneration system. However the ability to respond rapidly to the growth of this type of technology with respect to quality and efficiency is
still an issue to be addressed. The main goal of this study was to investigate how much heat energy can be extracted for a period of one year from a photovoltaics system using different
modified techniques. Heat flow from the modules can be achieved through radiation, conduction, or convection. These processes were explored using heat collector (air), measuring
the annual energy production by the system and quantifying the building energy demand in relation to this annual production. It was found that up to 1110.89 kWh heat energy could be harnessed by extracting this energy using airflow behind photovoltaics cells. These findings offer an awareness into the energy savings which are possible with a well-designed building integrated photovoltaic (BIPV) system. The benefits of employing heat exchangers to utilize the
thermal energy generated by the photovoltaic modules can be useful in many residential buildings. Furthermore, eliminating the high temperature from the PV cells also decreases thermal stresses as well as improves the electric productivity of the PV system.
Papers by Thiery Yhb
Abstract.
Cameroon like most developing countries does not have a reliable network for collecti... more Abstract.
Cameroon like most developing countries does not have a reliable network for collecting statistics on energy systems. This has been a major drawback for an accurate assessment of the energy generation potential of the main energy technological systems in the country. A viable alternative is to obtain the data from international energy Agencies like Reep policy data base, Energy Information Administration (EIA), World bank or from local energy managing companies like ARSEL, the Electricity Regulatory Agency; AER, the Rural Electrification Agency;AES-SONEL ; and, SNH, the National Oil Company, in charge of the oil and gas sector. In this paper, the energy output, Energy resources and the state of all energy technological systems in Cameroon has been analysed using data from various energy Agencies highlighted above.
An economic assessment revealed that a simple demand for electricity in Cameroon in an estimate reached 1455MW in 2014 and almost estimated to reach 5000MW in 2020 taking into consideration the unmet demand due to the low rate of electrification and access to the electricity grid as well as the needs of major industrial projects required to transform the country’s economy.
Abstracts.
Cameroon like most developing countries does not have a reliable network for collect... more Abstracts.
Cameroon like most developing countries does not have a reliable network for collecting statistics on energy systems country. This has been a major drawback for an accurate assessment of the energy generation potential of the major energy technological systems in the country. A viable alternative is to obtain the data from international energy Agencies like Reep policy data base, Energy Information Administration (EIA), World bank or from local energy managing companies like ARSEL, the Electricity Regulatory Agency; AER, the Rural Electrification Agency;AES-SONEL ; and, SNH, the National Oil Company, in charge of the oil and gas sector. In this paper, the energy output, Energy resources and the state of all energy technological systems in Cameroon has been analysed using data from various energy Agencies highlighted above.
An economic assessment revealed that a simple demand for electricity in Cameroon in an estimate reached 1455MW in 2014 and almost estimated to reach 5000MW in 2020 taking into consideration the unmet demand due to the low rate of electrification and access to the electricity grid as well as the needs of major industrial projects required to transform the country’s economy
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Thesis Chapters by Thiery Yhb
provide a solution to his problem, hence a form of cogeneration system. However the ability to respond rapidly to the growth of this type of technology with respect to quality and efficiency is
still an issue to be addressed. The main goal of this study was to investigate how much heat energy can be extracted for a period of one year from a photovoltaics system using different
modified techniques. Heat flow from the modules can be achieved through radiation, conduction, or convection. These processes were explored using heat collector (air), measuring
the annual energy production by the system and quantifying the building energy demand in relation to this annual production. It was found that up to 1110.89 kWh heat energy could be harnessed by extracting this energy using airflow behind photovoltaics cells. These findings offer an awareness into the energy savings which are possible with a well-designed building integrated photovoltaic (BIPV) system. The benefits of employing heat exchangers to utilize the
thermal energy generated by the photovoltaic modules can be useful in many residential buildings. Furthermore, eliminating the high temperature from the PV cells also decreases thermal stresses as well as improves the electric productivity of the PV system.
Papers by Thiery Yhb
Cameroon like most developing countries does not have a reliable network for collecting statistics on energy systems. This has been a major drawback for an accurate assessment of the energy generation potential of the main energy technological systems in the country. A viable alternative is to obtain the data from international energy Agencies like Reep policy data base, Energy Information Administration (EIA), World bank or from local energy managing companies like ARSEL, the Electricity Regulatory Agency; AER, the Rural Electrification Agency;AES-SONEL ; and, SNH, the National Oil Company, in charge of the oil and gas sector. In this paper, the energy output, Energy resources and the state of all energy technological systems in Cameroon has been analysed using data from various energy Agencies highlighted above.
An economic assessment revealed that a simple demand for electricity in Cameroon in an estimate reached 1455MW in 2014 and almost estimated to reach 5000MW in 2020 taking into consideration the unmet demand due to the low rate of electrification and access to the electricity grid as well as the needs of major industrial projects required to transform the country’s economy.
Cameroon like most developing countries does not have a reliable network for collecting statistics on energy systems country. This has been a major drawback for an accurate assessment of the energy generation potential of the major energy technological systems in the country. A viable alternative is to obtain the data from international energy Agencies like Reep policy data base, Energy Information Administration (EIA), World bank or from local energy managing companies like ARSEL, the Electricity Regulatory Agency; AER, the Rural Electrification Agency;AES-SONEL ; and, SNH, the National Oil Company, in charge of the oil and gas sector. In this paper, the energy output, Energy resources and the state of all energy technological systems in Cameroon has been analysed using data from various energy Agencies highlighted above.
An economic assessment revealed that a simple demand for electricity in Cameroon in an estimate reached 1455MW in 2014 and almost estimated to reach 5000MW in 2020 taking into consideration the unmet demand due to the low rate of electrification and access to the electricity grid as well as the needs of major industrial projects required to transform the country’s economy
provide a solution to his problem, hence a form of cogeneration system. However the ability to respond rapidly to the growth of this type of technology with respect to quality and efficiency is
still an issue to be addressed. The main goal of this study was to investigate how much heat energy can be extracted for a period of one year from a photovoltaics system using different
modified techniques. Heat flow from the modules can be achieved through radiation, conduction, or convection. These processes were explored using heat collector (air), measuring
the annual energy production by the system and quantifying the building energy demand in relation to this annual production. It was found that up to 1110.89 kWh heat energy could be harnessed by extracting this energy using airflow behind photovoltaics cells. These findings offer an awareness into the energy savings which are possible with a well-designed building integrated photovoltaic (BIPV) system. The benefits of employing heat exchangers to utilize the
thermal energy generated by the photovoltaic modules can be useful in many residential buildings. Furthermore, eliminating the high temperature from the PV cells also decreases thermal stresses as well as improves the electric productivity of the PV system.
Cameroon like most developing countries does not have a reliable network for collecting statistics on energy systems. This has been a major drawback for an accurate assessment of the energy generation potential of the main energy technological systems in the country. A viable alternative is to obtain the data from international energy Agencies like Reep policy data base, Energy Information Administration (EIA), World bank or from local energy managing companies like ARSEL, the Electricity Regulatory Agency; AER, the Rural Electrification Agency;AES-SONEL ; and, SNH, the National Oil Company, in charge of the oil and gas sector. In this paper, the energy output, Energy resources and the state of all energy technological systems in Cameroon has been analysed using data from various energy Agencies highlighted above.
An economic assessment revealed that a simple demand for electricity in Cameroon in an estimate reached 1455MW in 2014 and almost estimated to reach 5000MW in 2020 taking into consideration the unmet demand due to the low rate of electrification and access to the electricity grid as well as the needs of major industrial projects required to transform the country’s economy.
Cameroon like most developing countries does not have a reliable network for collecting statistics on energy systems country. This has been a major drawback for an accurate assessment of the energy generation potential of the major energy technological systems in the country. A viable alternative is to obtain the data from international energy Agencies like Reep policy data base, Energy Information Administration (EIA), World bank or from local energy managing companies like ARSEL, the Electricity Regulatory Agency; AER, the Rural Electrification Agency;AES-SONEL ; and, SNH, the National Oil Company, in charge of the oil and gas sector. In this paper, the energy output, Energy resources and the state of all energy technological systems in Cameroon has been analysed using data from various energy Agencies highlighted above.
An economic assessment revealed that a simple demand for electricity in Cameroon in an estimate reached 1455MW in 2014 and almost estimated to reach 5000MW in 2020 taking into consideration the unmet demand due to the low rate of electrification and access to the electricity grid as well as the needs of major industrial projects required to transform the country’s economy