This document discusses research on factors and purposes that can help advance development of microbial fuel cells (MFCs). MFCs use microbes to convert organic matter into electricity and have potential as a renewable energy source. The document identifies several key factors and purposes of MFC research, including improving power output, using various substrates, integrating with plant cells, and applying MFCs to wastewater treatment. It also reviews various existing MFC designs and materials. The overall goal is to better understand how to optimize MFC technology for renewable energy and environmental applications.
Modelling & Simulation of PV Module Connected with Three-Port DC ConverterDr. Amarjeet Singh
Of the world’s electricity is being generated through conventional sources of energy like coal and atomic energy. People have realized the dire effect of using these fuels, and the amount of CO2 being released into the environment. There has been a shift in emphasis towards cleaner ways of generating electricity in recent years. Solar energy is abundantly available and the cleanest renewable energy source available in the world and is ready to use for a variety of applications, such as the generation of electricity for residential, commercial, or industrial consumption and have become very competitive solutions. It can be seen that there is trend of solar photovoltaics (PV), which has seen rapid growth over the years. The increasing trend of adopting PV system allows consumers to be known as producers or “Prosumers”.
This report evaluates how solar PV can be used in combination with a battery bank along with three port converter to fulfill the requirement. Power production from PV cannot be consistent due to factors like the weather although The main benefits of solar power are that it can be easily installed cost of generation is low as there is no requirement for fuel and require very little maintenance Distributed maximum power point tracking (MPPT) and autonomous are achieved with the proposed configuration. The input-port of each TPC is connected to an independent PV energy source to achieve individual MPPT, and the output-ports of these TPCs are connected with load. Fully modular design is achieved by using Simulink/matlab.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
2010 IEEE-USA National Energy Policy RecommendationsJohn Ragan
John J. Ragan, vice-chairman of the IEEE-USA Energy Policy Committee, is a contributing expert and author to this publication for consideration by the U.S. Congress, Executive Branch officials, the Judiciary, representatives of State and Local Government, and other interested groups and individuals.
Modelling & Simulation of PV Module Connected with Three-Port DC ConverterDr. Amarjeet Singh
Of the world’s electricity is being generated through conventional sources of energy like coal and atomic energy. People have realized the dire effect of using these fuels, and the amount of CO2 being released into the environment. There has been a shift in emphasis towards cleaner ways of generating electricity in recent years. Solar energy is abundantly available and the cleanest renewable energy source available in the world and is ready to use for a variety of applications, such as the generation of electricity for residential, commercial, or industrial consumption and have become very competitive solutions. It can be seen that there is trend of solar photovoltaics (PV), which has seen rapid growth over the years. The increasing trend of adopting PV system allows consumers to be known as producers or “Prosumers”.
This report evaluates how solar PV can be used in combination with a battery bank along with three port converter to fulfill the requirement. Power production from PV cannot be consistent due to factors like the weather although The main benefits of solar power are that it can be easily installed cost of generation is low as there is no requirement for fuel and require very little maintenance Distributed maximum power point tracking (MPPT) and autonomous are achieved with the proposed configuration. The input-port of each TPC is connected to an independent PV energy source to achieve individual MPPT, and the output-ports of these TPCs are connected with load. Fully modular design is achieved by using Simulink/matlab.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
2010 IEEE-USA National Energy Policy RecommendationsJohn Ragan
John J. Ragan, vice-chairman of the IEEE-USA Energy Policy Committee, is a contributing expert and author to this publication for consideration by the U.S. Congress, Executive Branch officials, the Judiciary, representatives of State and Local Government, and other interested groups and individuals.
Role of UPQC in Distributed Generation Power System: A Reviewijtsrd
The ever increasing share of renewable energy sources (RERs) in the todays scenario, the power grids are suffering from poor power quality due to the intermittent nature of wind and solar based power generating units. The led to extensive research in the field of power quality especially in voltage and frequency regulations Distributed generation involving RERs has become more popular in recent years due to technological advancement and has been started increasingly used in industry. It has become more important to understand the integration of these systems through PE interface with the existing electric power systems networks. At the same time, high frequency switching of Power Electronic interface has caused major Power Quality concerns, which has been tackled with the help of Custom power devices interfaces that has allowed DG to offers various benefits like ability to provide ancillary services, increased energy efficiency, increased functionality through improved power quality and voltage/VAR support, improved electrical system reliability by reducing the fault contributions, and flexibility in operations with various other DE sources. DG also allows the customer to have a choice while it reduces the overall interconnection costs. This paper focuses on widespread use of DG through various Renewable Energy Sources, Power Quality issues associated with the use of Power Electronic interface and use of various Custom Power Devices to improve Power Quality. It particularly evaluates the role of UPQC-DG in various modes of DG in following PQ standards. Sajid Bashir | Gagan Deep Yadav"Role of UPQC in Distributed Generation Power System: A Review" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-3 , April 2018, URL: http://www.ijtsrd.com/papers/ijtsrd11356.pdf http://www.ijtsrd.com/engineering/electrical-engineering/11356/role-of-upqc-in-distributed-generation-power-system-a-review/sajid-bashir
The project will begin with a comprehensive technical and economic analysis addressing all aspects of a
battery’s lifecycle in search of the best second-use strategies, followed by a comprehensive test program to
verify findings, particularly battery lifetimes. For the field test, researchers will deploy aged EV batteries at
the University of California (UC), San Diego’s campus-wide electric power grid. The results of the study will:
Provide validated tools and data on battery life to industry for battery reuse
Recommendations for EV battery design and manufacturing practices
Identify the necessary regulatory changes to encourage secondary battery use
Assess the economic benefit of second uses
Building Energy Efficiency Into Energy EquationIJERDJOURNAL
ABSTRACT: The increasing demand of energy in the world has causes the pollution and devastation of environment and also depletion of the resources. It imminent that cannot be avoided, however, There is agitation and confrontation from country to country which later realised that only energy efficiency practices is the means of minimizing the impact to the environment, but developing countries like Nigeria centered only on end users.These studies see how energy efficiency will be built into energy generation processes and the benefit to the environment, economic growth and development of a country.
Integration Planning and Operation Scheduling of Distribution Generation for ...IJERA Editor
Use of distributed renewable energy sources for domestic energy consumption will increase in near future due to
its advantages as being clean and infinite energy generation possibility. This trend allows more efficient energy
consumption because of reducing distribution losses and dependence of domestic appliances to grid distribution.
Electrical energy is an essential ingredient for the development of a nation. In this paper, it is proposed grid
connected solar PV without and with battery at domestic level to minimize the load on live grid during peak
time, excess power export to the grid when the PV generation is more compared to connected load and increase
the participation of renewable energy sources in our daily energy consumption. The decision support program
enables the consumer to implement the most efficient electricity management strategy while achieving the goal
of minimizing the electricity bill and to supply the quality power. The cost of investment and payback periods
are computed for PV system using cost benefit analysis
LIGHTING THE ACADEMIC COMMONS: A Case Study of Electricity Efficiency of Inca...Jenkins Macedo
This project explored the efficiency of the lighting systems at the Academic Commons (AC) at the Goddard Library at Clark University as part of an academic research paper for the
Technology for Renewable Energy course taught by Dr. Charles Agosta, Chair of the Physics Department. The study builds on students' responses to informal and open-ended surveys and electricity energy consumption data from the lighting systems. The data were analyzed using a 2010-MS Excel base calculator to provide descriptive statistics on demographic characteristics and statistical analysis of electricity used via lighting to determine energy cost, savings, CO2 emissions, and offsets by comparing the status quo (CFL lamps) against two hypothetical scenarios. The results indicate that, while the CFL lamps electricity consumption seems efficient in terms of CO2 emissions and cost compared to incandescent lamps, converting the lighting systems to LEDs would reduce CO2 emissions substantially and contribute to Clark University’s goal of zero emissions by 2020 thereby saving cost. The results suggest that Clark University
would be saving about $3,687.00/year in lighting systems at the AC, while reducing 18,420 lbs. of CO2/year against the status quo of 147,355 lbs. of CO2/year.
Key Words: Energy efficiency, Lighting, Academic Commons, Clark University, greenhouse gases, electricity
The first quarter of 2009 has ushered in a new era for the alternate energy market in the US. This has resulted in a visible increase in interest on alternate energy technologies. Most would think the attention to alternate energy has come just in time, especially with the rise in fossil fuel prices, stringent environmental regulations, and significant changes in preferences among consumers.
Pp ts the national multi-island smart energy system in philippinesZheng Ma
Ten percent of the world’s population lives on islands. The majority of the islands face challenges filling the gap between energy supply and demand, especially islands in countries consisting of many islands. The development of the national multi-island energy system is influenced by country characteristics, technology readiness, political support, etc. This paper uses the development of the Philippines’ energy system as case study for analyzing the challenges, opportunities, and influential factors for the development and integration of a national multi-island energy system. The paper concludes its analysis by presenting a framework for multi-island energy system design with the consideration of both single and multi-islands.
Globally, utility power transmission and distribution systems are described along with their observed vulnerabilities to natural and man-made hazards. At national level, approximately 40% of the load in the Western region is supplied via 33/0.433 kV secondary distribution transformers. This contributes to transformer overload strain thus contributing to electrical fire disasters and outages. Kisumu substations are overloaded in the existing system under peak load conditions due to low thermal rating of conductors as a result of inadequate sizing. Several line sections feeding a large proportion of the load are of conductor type 25mm2 ASCR causing an effective bottleneck leading to power outages and electric fire disasters. Due to these, the study sought to assess the effectiveness of energy sectors quality management systems in response to electrical fire disaster in Kisumu County. Cross-functional management model and Crosby Theory of Quality theories guided the study. A descriptive research design was used in the study. Sample size of the study was selected using purposive, census and stratified random sampling from the energy sectors; Kenya Power and Lighting Company, Kenya Electricity Transmission Company, Kenya Energy Generating Company and customers connected to electricity grid. The structured questionnaires, interviews guides and observation methods were used to collect data. Quantitative data was analyzed using descriptive statistics while qualitative data responses using thermalized and frequencies. Organizations have not ensured ISO certification requirements in their management systems. That organizations quality management systems were less effective in relation to electric disasters response. The paper recommends that all organization should implement ISOcertification requirements on their management systems. Effect their systems through assistance from other organizations with the same role for effective electric disaster management.
Index Terms- Disaster Management Systems, Electric Disaster and Quality Management Systems
Power Generation in The Chemical IndustryIJRTEMJOURNAL
The chemical industry, particularly the production of organic and inorganic base chemicals, has
a high demand for electrical and thermal power. In the chemical industry, power drives processes and
profitability. With most of the chemical industries aiming to expand, having their own power generation plant is
an emerging necessity. This paper provides a brief overview of the various ways in which the chemical industry
has been generating power to meet the needs of its plants and, in some cases, selling the surplus power
produced.
Hydrogen storage for micro-grid application: a framework for ranking fuel ce...IJECEIAES
To securely address energy shortage and various environmental issues attributed to fossil fuel, the adoption of renewable energy is growing across the globe. However, wind and solar which form the bulk of the emerging renewable energy for micro-grid applications are intermittent and need energy storage device for backup. Due to its environmentally friendly nature, the use of hydrogen as storage mechanism is now being explored for micro-grid applications. However, due to the various technical criteria attributed to various fuel cell (FC) technologies used for hydrogen production, selecting the most suitable alternative remains a challenge. This study uses evaluation based on distance from average solution, a multicriteria decision making tool to rank FC technologies that can be used to produce of hydrogen energy storage in micro-grid applications. The analysis was based on 4 FC technologies and 6 technical criteria. The results of the study show that the most preferred FC technology for micro-grid application is the polymeric electrolyte membrane while the least preferred is molten carbonate FC. It is expected that future analysis would explore the inclusion of socio-economic criteria in the evaluation of the most preferred FC technology for micro-grid application.
Design and Modeling of Grid Connected Hybrid Renewable Energy Power GenerationIJERA Editor
This paper proposes a design and modeling of grid connected hybrid renewable energy power generation. The
energy system having a photo voltaic (PV) panel, Srg wind turbine and fuel cell (sofc) for continuous power
flow management. Fuel cells (storage & generating) are added to ensure uninterrupted power supply due to the
discontinuous nature of solar and wind resources. Renewable energy generated during times of plenty can be
stored for use during periods when sufficient electricity is not available. But storing this energy is a difficult
task: batteries and similar technologies perform well over short timescales, but over periods of weeks or months
a different approach is necessary. Energy storage in the form of hydrogen is one such possibility: excess
electricity is fed into an electrolyser to split water into its constituent parts, oxygen and hydrogen. The hydrogen
is then used in fuel cells to produce electricity when needed which will overcome the problem of storage. This
work is mainly concentrated on the design, analysis and modelling of Fuel cells and Analysis and modelling of
Switched Reluctance Generator (SRG) in the application of Wind Energy Generation and pv cell. Also an
effective approach is proposed in this thesis to ensure renewable energy diversity and effective utilization. The
pv cell, wind and fuel cell renewable energy system is digitally simulated using the MATLAB/SIMULINK
software environment and fully validated for efficient energy utilizations and enhanced interface power quality
under different operating conditions and load excursions
Role of UPQC in Distributed Generation Power System: A Reviewijtsrd
The ever increasing share of renewable energy sources (RERs) in the todays scenario, the power grids are suffering from poor power quality due to the intermittent nature of wind and solar based power generating units. The led to extensive research in the field of power quality especially in voltage and frequency regulations Distributed generation involving RERs has become more popular in recent years due to technological advancement and has been started increasingly used in industry. It has become more important to understand the integration of these systems through PE interface with the existing electric power systems networks. At the same time, high frequency switching of Power Electronic interface has caused major Power Quality concerns, which has been tackled with the help of Custom power devices interfaces that has allowed DG to offers various benefits like ability to provide ancillary services, increased energy efficiency, increased functionality through improved power quality and voltage/VAR support, improved electrical system reliability by reducing the fault contributions, and flexibility in operations with various other DE sources. DG also allows the customer to have a choice while it reduces the overall interconnection costs. This paper focuses on widespread use of DG through various Renewable Energy Sources, Power Quality issues associated with the use of Power Electronic interface and use of various Custom Power Devices to improve Power Quality. It particularly evaluates the role of UPQC-DG in various modes of DG in following PQ standards. Sajid Bashir | Gagan Deep Yadav"Role of UPQC in Distributed Generation Power System: A Review" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-3 , April 2018, URL: http://www.ijtsrd.com/papers/ijtsrd11356.pdf http://www.ijtsrd.com/engineering/electrical-engineering/11356/role-of-upqc-in-distributed-generation-power-system-a-review/sajid-bashir
The project will begin with a comprehensive technical and economic analysis addressing all aspects of a
battery’s lifecycle in search of the best second-use strategies, followed by a comprehensive test program to
verify findings, particularly battery lifetimes. For the field test, researchers will deploy aged EV batteries at
the University of California (UC), San Diego’s campus-wide electric power grid. The results of the study will:
Provide validated tools and data on battery life to industry for battery reuse
Recommendations for EV battery design and manufacturing practices
Identify the necessary regulatory changes to encourage secondary battery use
Assess the economic benefit of second uses
Building Energy Efficiency Into Energy EquationIJERDJOURNAL
ABSTRACT: The increasing demand of energy in the world has causes the pollution and devastation of environment and also depletion of the resources. It imminent that cannot be avoided, however, There is agitation and confrontation from country to country which later realised that only energy efficiency practices is the means of minimizing the impact to the environment, but developing countries like Nigeria centered only on end users.These studies see how energy efficiency will be built into energy generation processes and the benefit to the environment, economic growth and development of a country.
Integration Planning and Operation Scheduling of Distribution Generation for ...IJERA Editor
Use of distributed renewable energy sources for domestic energy consumption will increase in near future due to
its advantages as being clean and infinite energy generation possibility. This trend allows more efficient energy
consumption because of reducing distribution losses and dependence of domestic appliances to grid distribution.
Electrical energy is an essential ingredient for the development of a nation. In this paper, it is proposed grid
connected solar PV without and with battery at domestic level to minimize the load on live grid during peak
time, excess power export to the grid when the PV generation is more compared to connected load and increase
the participation of renewable energy sources in our daily energy consumption. The decision support program
enables the consumer to implement the most efficient electricity management strategy while achieving the goal
of minimizing the electricity bill and to supply the quality power. The cost of investment and payback periods
are computed for PV system using cost benefit analysis
LIGHTING THE ACADEMIC COMMONS: A Case Study of Electricity Efficiency of Inca...Jenkins Macedo
This project explored the efficiency of the lighting systems at the Academic Commons (AC) at the Goddard Library at Clark University as part of an academic research paper for the
Technology for Renewable Energy course taught by Dr. Charles Agosta, Chair of the Physics Department. The study builds on students' responses to informal and open-ended surveys and electricity energy consumption data from the lighting systems. The data were analyzed using a 2010-MS Excel base calculator to provide descriptive statistics on demographic characteristics and statistical analysis of electricity used via lighting to determine energy cost, savings, CO2 emissions, and offsets by comparing the status quo (CFL lamps) against two hypothetical scenarios. The results indicate that, while the CFL lamps electricity consumption seems efficient in terms of CO2 emissions and cost compared to incandescent lamps, converting the lighting systems to LEDs would reduce CO2 emissions substantially and contribute to Clark University’s goal of zero emissions by 2020 thereby saving cost. The results suggest that Clark University
would be saving about $3,687.00/year in lighting systems at the AC, while reducing 18,420 lbs. of CO2/year against the status quo of 147,355 lbs. of CO2/year.
Key Words: Energy efficiency, Lighting, Academic Commons, Clark University, greenhouse gases, electricity
The first quarter of 2009 has ushered in a new era for the alternate energy market in the US. This has resulted in a visible increase in interest on alternate energy technologies. Most would think the attention to alternate energy has come just in time, especially with the rise in fossil fuel prices, stringent environmental regulations, and significant changes in preferences among consumers.
Pp ts the national multi-island smart energy system in philippinesZheng Ma
Ten percent of the world’s population lives on islands. The majority of the islands face challenges filling the gap between energy supply and demand, especially islands in countries consisting of many islands. The development of the national multi-island energy system is influenced by country characteristics, technology readiness, political support, etc. This paper uses the development of the Philippines’ energy system as case study for analyzing the challenges, opportunities, and influential factors for the development and integration of a national multi-island energy system. The paper concludes its analysis by presenting a framework for multi-island energy system design with the consideration of both single and multi-islands.
Globally, utility power transmission and distribution systems are described along with their observed vulnerabilities to natural and man-made hazards. At national level, approximately 40% of the load in the Western region is supplied via 33/0.433 kV secondary distribution transformers. This contributes to transformer overload strain thus contributing to electrical fire disasters and outages. Kisumu substations are overloaded in the existing system under peak load conditions due to low thermal rating of conductors as a result of inadequate sizing. Several line sections feeding a large proportion of the load are of conductor type 25mm2 ASCR causing an effective bottleneck leading to power outages and electric fire disasters. Due to these, the study sought to assess the effectiveness of energy sectors quality management systems in response to electrical fire disaster in Kisumu County. Cross-functional management model and Crosby Theory of Quality theories guided the study. A descriptive research design was used in the study. Sample size of the study was selected using purposive, census and stratified random sampling from the energy sectors; Kenya Power and Lighting Company, Kenya Electricity Transmission Company, Kenya Energy Generating Company and customers connected to electricity grid. The structured questionnaires, interviews guides and observation methods were used to collect data. Quantitative data was analyzed using descriptive statistics while qualitative data responses using thermalized and frequencies. Organizations have not ensured ISO certification requirements in their management systems. That organizations quality management systems were less effective in relation to electric disasters response. The paper recommends that all organization should implement ISOcertification requirements on their management systems. Effect their systems through assistance from other organizations with the same role for effective electric disaster management.
Index Terms- Disaster Management Systems, Electric Disaster and Quality Management Systems
Power Generation in The Chemical IndustryIJRTEMJOURNAL
The chemical industry, particularly the production of organic and inorganic base chemicals, has
a high demand for electrical and thermal power. In the chemical industry, power drives processes and
profitability. With most of the chemical industries aiming to expand, having their own power generation plant is
an emerging necessity. This paper provides a brief overview of the various ways in which the chemical industry
has been generating power to meet the needs of its plants and, in some cases, selling the surplus power
produced.
Hydrogen storage for micro-grid application: a framework for ranking fuel ce...IJECEIAES
To securely address energy shortage and various environmental issues attributed to fossil fuel, the adoption of renewable energy is growing across the globe. However, wind and solar which form the bulk of the emerging renewable energy for micro-grid applications are intermittent and need energy storage device for backup. Due to its environmentally friendly nature, the use of hydrogen as storage mechanism is now being explored for micro-grid applications. However, due to the various technical criteria attributed to various fuel cell (FC) technologies used for hydrogen production, selecting the most suitable alternative remains a challenge. This study uses evaluation based on distance from average solution, a multicriteria decision making tool to rank FC technologies that can be used to produce of hydrogen energy storage in micro-grid applications. The analysis was based on 4 FC technologies and 6 technical criteria. The results of the study show that the most preferred FC technology for micro-grid application is the polymeric electrolyte membrane while the least preferred is molten carbonate FC. It is expected that future analysis would explore the inclusion of socio-economic criteria in the evaluation of the most preferred FC technology for micro-grid application.
Design and Modeling of Grid Connected Hybrid Renewable Energy Power GenerationIJERA Editor
This paper proposes a design and modeling of grid connected hybrid renewable energy power generation. The
energy system having a photo voltaic (PV) panel, Srg wind turbine and fuel cell (sofc) for continuous power
flow management. Fuel cells (storage & generating) are added to ensure uninterrupted power supply due to the
discontinuous nature of solar and wind resources. Renewable energy generated during times of plenty can be
stored for use during periods when sufficient electricity is not available. But storing this energy is a difficult
task: batteries and similar technologies perform well over short timescales, but over periods of weeks or months
a different approach is necessary. Energy storage in the form of hydrogen is one such possibility: excess
electricity is fed into an electrolyser to split water into its constituent parts, oxygen and hydrogen. The hydrogen
is then used in fuel cells to produce electricity when needed which will overcome the problem of storage. This
work is mainly concentrated on the design, analysis and modelling of Fuel cells and Analysis and modelling of
Switched Reluctance Generator (SRG) in the application of Wind Energy Generation and pv cell. Also an
effective approach is proposed in this thesis to ensure renewable energy diversity and effective utilization. The
pv cell, wind and fuel cell renewable energy system is digitally simulated using the MATLAB/SIMULINK
software environment and fully validated for efficient energy utilizations and enhanced interface power quality
under different operating conditions and load excursions
Comparative analysis of electrochemical energy storage technologies for smart...TELKOMNIKA JOURNAL
This paper presents a comparative analysis of different forms of electrochemical energy storage technologies for use in the smart grid. This paper addresses various energy storage techniques that are used in the renewable energy sources connected to the smart grid. Energy storage technologies will most likely improve the penetrations of renewable energy on the electricity network. Consequently, energy storage systems could be the key to finally replacing the need for fossil fuel with renewable energy. It is hard to evaluate the different types of energy storage techniques between themselves due to the fact that each technology could be used in a different way and are more like compliments. Subsequently, for the purposes of this paper, it is seen that the use of energy storage technologies will increase the supply, and balances out the demand for energy.
A Systematic Review of Renewable Energy Trend.pdfssuser793b4e
This paper systematically and successfully reviewed the renewable energy trend from 2010 to 2023. This review
detailed the difference renewable energy and conclusion was drawn that solar photovoltaic (PV) energy has the
leading trend in power generation growth and innovation. This research work explained in detail the most recent
solar photovoltaic optimization techniques and it was observed from the review that hybridization of intelligent and
non-intelligent maximum power point tracking technique has the best tracking power conversion efficiency. The
advantages and disadvantage of solar PV together with the solar optimization and innovational growth trends were
examined. This research showed that clean and renewable energy sources will continue to grow and the solar energy
industry is expected to experience significant growth and rapid innovation in the next 10 years. From the observed
rapid growth and innovation trend in solar energy, the world will have a very cheap, abundant and clean energy
before 2050.
A proton-exchange membrane fuel cell and ultra-capacitor system model for sta...TELKOMNIKA JOURNAL
Energy consumption by sector in Malaysia is rising significantly, especially for residential and commercial sectors, and is expected to continue to increase in the upcoming years. The existing power generated from a proton-exchange membrane fuel cell (PEMFC) system may be insufficient to sustain peak load demands during peak periods in stationary residential applications. The presence of an ultra-capacitor (UC) bank would be beneficial as a support as it can supply a large burst of power. The integration of PEMFC and UC has the potential to provide an effective way to supply power demands, has better energy efficiency, and is also economically friendly. In this research, we demonstrate a proposed combined PEMFC and UC bank that operates in parallel. A novel design methodology and dynamic model for both PEMFC and UC systems as energy sources have been developed for stand-alone residential applications. The simulation results are shown in Matlab Simulink. These results are based on mathematical and dynamic models of the system being shown.
Performance Analysis of Autonomous Hybrid Distributed Generation Based on Typ...ijtsrd
It is undeniable fact that even though fossil fuels are likely more to fulfill the requirements of energy, the rare of natural resources and their harmful contents for the environment have directed people to search for new energy sources like renewable resources such as hydropower, biomass, wind, solar and other types of clean energy. In order to highlight the proposed methodology, PV Diesel generator DG with battery energy system BESS based on two typical control strategies, load following LF control strategy and cycle charging CC control strategy, have been analyzed by using HOMER Software to supply the Makyiyay village which is located at 22.02 north latitude and 96.56 east longitude in the Naungkhyo Township, Southern Shan State in Myanmar. The yearly average solar radiation of that area is 4.895kWh m2 day and it is very important to prepare a proper load data to meet the current situation of the target village which has 45 household numbers. By calculating the total load demand, the peak demand of that proposed village is 34kW. The fractions of energy production from PV array and diesel generator of the proposed PV Diesel BESS hybrid system using LF control strategy are 60 and 40 to meet the demand. Moreover, the proposed hybrid system based on LF control strategy provides the lowest TNPC, COE and carbon emission than the hybrid system based on CC control strategy according to the evaluation results. In contrast, the analysis of evaluation results shows that the PV Diesel ESS based on LF control choice is more economically possible than that system based on CC control. Phyu Phyu Win | Zin Mar "Performance Analysis of Autonomous Hybrid Distributed Generation Based on Typical Control Strategies for Rural Electrification in Myanmar" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26695.pdfPaper URL: https://www.ijtsrd.com/engineering/electrical-engineering/26695/performance-analysis-of-autonomous-hybrid-distributed-generation-based-on-typical-control-strategies-for-rural-electrification-in-myanmar/phyu-phyu-win
Optimized parameter extraction techniques for enhanced performance evaluation...IJECEIAES
The global energy landscape is in the midst of a transformative shift, compelled by the urgent need to reduce our reliance on fossil fuels and embrace eco-friendly alternatives. Organic photovoltaics (OPVs) have emerged as a promising alternative, offering the distinct advantage of performing well in low-light conditions, including indoor environments. Extensive research and development efforts are dedicated to realizing the full potential of OPVs as adaptable, cost-effective, and environmentally friendly solar energy solutions. This paper conducts a thorough examination of the intricate characterization of organic solar cells, with a specific emphasis on crucial parameters like power conversion efficiency, opencircuit voltage, and fill factor. The study utilizes a single diode model to simulate these cells' behavior, employing a meticulous process for parameter extraction. This method leverages Origin software and Python programming, incorporating open-source packages to ensure robust validation. This systematic and rigorous approach significantly enhances our comprehension of OPVs and plays a substantial role in optimizing their performance. In essence, this research represents a significant step forward in advancing sustainable energy technologies, laying a foundation for a greener and more environmentally conscious future.
Hybrid Biomass-Solar Power System with Establishment of Raw Material Procureijtsrd
The utilization of sustainable power sources is ending up exceptionally essential because of the restricted stores of non-renewable energy sources and worldwide ecological worries for the creation of electrical power age and usage. In remote regions, towns, it is anything but difficult to get more sum biomass. Subsequently by the utilization of crossover frameworks comprising of Biomass and PV for creation of electrical vitality in these remote regions can be more temperate. On the off chance that the advancement of a PC based approach for assessing, the general execution of independent half and half PV-Biomass creating frameworks are broke down ,at that point these outcomes are helpful for creating and introducing cross breed frameworks in remote regions This paper centers the practical thought of independent crossover frameworks having PV and Biomass for electrical generation in remote zones. Additionally in this paper a reproduction approach has been recommended for planning remain solitary network for remote regions. The normal sun powered radiation and amount of biomass required information are to anticipate the general execution of the creating framework. The batteries can likewise be utilized as a part of this framework to store the additional vitality which can additionally be utilized for reinforcement. Likewise the additional power is utilized to supply to the network. Here the reproduction is completed utilizing HOMER programming. The outcomes and investigation can used to enhance the improvement of the proposed demonstrate. Vikash Pooniya | Mr. Pravin Kumar | Dr. Deepika Chauhan | Md. Asif Iqbal"Hybrid Biomass-Solar Power System with Establishment of Raw Material Procure" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-3 , April 2018, URL: http://www.ijtsrd.com/papers/ijtsrd11105.pdf http://www.ijtsrd.com/engineering/electrical-engineering/11105/hybrid-biomass-solar-power-system-with-establishment-of-raw-material-procure/vikash-pooniya
Similar to IRJET- Identification and Validation of Various Factors and Purposes Targeted for Microbial Fuel Cell Development with Reliability Analysis (20)
Saudi Arabia stands as a titan in the global energy landscape, renowned for its abundant oil and gas resources. It's the largest exporter of petroleum and holds some of the world's most significant reserves. Let's delve into the top 10 oil and gas projects shaping Saudi Arabia's energy future in 2024.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.