Thorn McKeown has over 15 years of experience as a licensed electrician in Massachusetts and Rhode Island. He has worked on various commercial, industrial, and residential projects. His experience includes work in nuclear and coal power plants, installing lighting systems, running wiring, and working with motor control centers, generators, and fire alarm systems. He is proficient with hand and power tools used in electrical work.
Jose A. Mora Jr. has over 30 years of experience in commissioning, operating, and maintaining geothermal power plants and their electrical systems. He has commissioned new and refurbished power plants in the Philippines and has experience on offshore oil rigs. He holds professional licenses as a registered electrical engineer and professional electrical engineer in the Philippines.
The document provides a proposal for a 50 KVA on-grid solar PV system. It includes a 41 KW DC capacity system using 136 300-watt solar panels that is expected to produce 100,800 KWh of energy per year. The system components include the solar panels, inverters, mounting structures, cables, and other electrical accessories. The total cost of the project is 24 lakh INR and payment terms include an initial advance payment and stages of payment upon delivery and installation.
Paul Briggs is an electrical supervisor with over 30 years of experience in mining construction and maintenance. He has extensive experience managing large projects, quality control, and hazardous area work. He holds numerous licenses and qualifications in electrical work, plant operation, confined spaces, first aid and more. His experience includes roles as a project manager, electrical supervisor and foreman on mining and infrastructure projects in Western Australia and other states.
Ajit Kumar is a senior electrical engineer with over 26 years of experience in design, operation and maintenance of large industrial complexes, power plants, and substations. He has extensive experience in protection design, relay setting, and coordination for systems up to 230 kV. Currently he works as a senior protection engineer for Tebodin in Oman, where he performs protection studies and reviews protection documents for Petroleum Development Oman facilities.
The document provides a proposal for a 15 KVA/10kw on-grid solar PV system. The system would include 40 solar panels totaling 10 KW DC capacity, two 7.5 KVA inverters, mounting structures, electrical accessories, and installation. The expected annual energy production is 1.5 MWh. The total cost of the project is 6 lakhs Indian rupees and payment terms include an advance, payment upon delivery of materials, and final payment after installation.
This 15-page document provides a comprehensive proposal for a 10KW off-grid solar photovoltaic system. The system would include 40 250-watt solar panels, 1 inverter, mounting structures, electrical accessories, and optional monitoring equipment. Installation is estimated to take 1-8 weeks upon receipt of payment. The total cost is estimated at 7.5 lakhs plus additional costs for taxes and an upgraded inverter capacity. A 25-year warranty is provided for the solar panels and shorter warranties for other components.
Rebecca mills-securing-the-n ts-energy-futurejames hamilton
Territory Generation is transitioning to renewable energy sources to power Alice Springs. By 2030, the majority of its base load supply will come from renewables. Upgrades include a 41 MW gas plant expansion, 7.5 MW upgrade to another plant, and a 5 MW/4.6 MWh battery energy storage system. The battery will provide frequency response, reduce gas plant ramping due to solar intermittency, and defer transmission upgrades. The projects improve efficiency, enable higher solar penetration and transition Alice Springs to more sustainable energy sources.
IRJET - Interleaved High Step-Up DC-DC Converter using Renewable Energy ...IRJET Journal
The document proposes an interleaved high step-up DC-DC converter for renewable energy systems. It combines coupled inductors and switched capacitors to achieve high voltage gain without high turns ratios. The converter uses three renewable energy sources - wind power, thermoelectric power from a Peltier module, and power from microbial fuel cells. It includes a voltage multiplier circuit to boost the low input voltage from 12V to 350V. Experimental results from a prototype validate the high voltage gain even with a turns ratio of 1:1 between the coupled inductors. Key waveforms and the voltages/currents of the diodes are shown to demonstrate the operation and performance of the converter.
Jose A. Mora Jr. has over 30 years of experience in commissioning, operating, and maintaining geothermal power plants and their electrical systems. He has commissioned new and refurbished power plants in the Philippines and has experience on offshore oil rigs. He holds professional licenses as a registered electrical engineer and professional electrical engineer in the Philippines.
The document provides a proposal for a 50 KVA on-grid solar PV system. It includes a 41 KW DC capacity system using 136 300-watt solar panels that is expected to produce 100,800 KWh of energy per year. The system components include the solar panels, inverters, mounting structures, cables, and other electrical accessories. The total cost of the project is 24 lakh INR and payment terms include an initial advance payment and stages of payment upon delivery and installation.
Paul Briggs is an electrical supervisor with over 30 years of experience in mining construction and maintenance. He has extensive experience managing large projects, quality control, and hazardous area work. He holds numerous licenses and qualifications in electrical work, plant operation, confined spaces, first aid and more. His experience includes roles as a project manager, electrical supervisor and foreman on mining and infrastructure projects in Western Australia and other states.
Ajit Kumar is a senior electrical engineer with over 26 years of experience in design, operation and maintenance of large industrial complexes, power plants, and substations. He has extensive experience in protection design, relay setting, and coordination for systems up to 230 kV. Currently he works as a senior protection engineer for Tebodin in Oman, where he performs protection studies and reviews protection documents for Petroleum Development Oman facilities.
The document provides a proposal for a 15 KVA/10kw on-grid solar PV system. The system would include 40 solar panels totaling 10 KW DC capacity, two 7.5 KVA inverters, mounting structures, electrical accessories, and installation. The expected annual energy production is 1.5 MWh. The total cost of the project is 6 lakhs Indian rupees and payment terms include an advance, payment upon delivery of materials, and final payment after installation.
This 15-page document provides a comprehensive proposal for a 10KW off-grid solar photovoltaic system. The system would include 40 250-watt solar panels, 1 inverter, mounting structures, electrical accessories, and optional monitoring equipment. Installation is estimated to take 1-8 weeks upon receipt of payment. The total cost is estimated at 7.5 lakhs plus additional costs for taxes and an upgraded inverter capacity. A 25-year warranty is provided for the solar panels and shorter warranties for other components.
Rebecca mills-securing-the-n ts-energy-futurejames hamilton
Territory Generation is transitioning to renewable energy sources to power Alice Springs. By 2030, the majority of its base load supply will come from renewables. Upgrades include a 41 MW gas plant expansion, 7.5 MW upgrade to another plant, and a 5 MW/4.6 MWh battery energy storage system. The battery will provide frequency response, reduce gas plant ramping due to solar intermittency, and defer transmission upgrades. The projects improve efficiency, enable higher solar penetration and transition Alice Springs to more sustainable energy sources.
IRJET - Interleaved High Step-Up DC-DC Converter using Renewable Energy ...IRJET Journal
The document proposes an interleaved high step-up DC-DC converter for renewable energy systems. It combines coupled inductors and switched capacitors to achieve high voltage gain without high turns ratios. The converter uses three renewable energy sources - wind power, thermoelectric power from a Peltier module, and power from microbial fuel cells. It includes a voltage multiplier circuit to boost the low input voltage from 12V to 350V. Experimental results from a prototype validate the high voltage gain even with a turns ratio of 1:1 between the coupled inductors. Key waveforms and the voltages/currents of the diodes are shown to demonstrate the operation and performance of the converter.
A High Static Gain Modified SEPIC Converter With PV Module and MPPTIRJET Journal
This document presents two modified single-ended primary inductance converter (SEPIC) topologies for photovoltaic applications: one without magnetic coupling and one with magnetic coupling. Both topologies aim to increase the static gain of the converter with low switch voltage and reduced reverse recovery current in the output diode. The topologies and maximum power point tracking algorithm were modeled in MATLAB/Simulink. Simulation results showed that both topologies provide high static gain for renewable energy applications with low input voltages.
Transformer Less FPGA Controlled 2-Stage Isolated Grid Connected PV SystemAnoop S
This document summarizes a seminar report on a proposed transformer-less, two-stage, grid-connected photovoltaic system. The system consists of solar panels, a boost converter-based MPPT charge controller in the first stage to regulate the variable output of the solar panels. A neutral point clamped inverter is used in the second stage to convert the DC output to AC for connection to the grid. The neutral point clamped inverter offers improved output waveforms with lower harmonic distortion compared to conventional inverters, allowing for a smaller filter size. The proposed topology aims to improve efficiency and reliability while eliminating the need for an isolation transformer.
IRJET- Cascaded Multilevel Inverter with MPPT for Grid Connected PV SystemIRJET Journal
This document presents a simulation model of a cascaded multilevel inverter with maximum power point tracking (MPPT) for a grid-connected photovoltaic (PV) system. The system uses a cascaded H-bridge multilevel inverter topology with individual MPPT control for each solar panel to improve overall efficiency. MATLAB/Simulink is used to develop the simulation model. Simulation results show the system can maintain optimal operating points under varying irradiance and temperature conditions and regulate voltage at the point of common coupling with the grid. The cascaded multilevel inverter reduces voltage stress on switches and allows for high voltage applications using lower voltage switches.
A HYBRID AC/DC SOLAR POWERED STANDALONE SYSTEM WITHOUT INVERTER BASED ON LOAD...Iaetsd Iaetsd
This document discusses two methods for generating power from solar panels for a home without using inverters or batteries.
Method 1 proposes a hybrid AC/DC home grid system that shifts harmonic intensive loads to the DC side to reduce power conversion losses and isolates harmonic content. Solar power is fed to the home through a DC-DC converter, MPPT, and inverter to power AC loads, with a separate DC connection for DC loads.
Method 2 generates AC power directly from an array of solar cells connected in an alternating anti-parallel configuration, eliminating power losses from an inverter. Compatibility with residential loads is analyzed. This novel technique could remove the need for batteries and reduce overall cost.
The performance of
This document discusses the key parameters to consider when sizing a solar PV system. It covers topics like available area, climatic conditions, product selection, site survey, and cost. The technology selection section examines different panel types and factors like efficiency. Inverter sizing ratios and the benefits of string vs central inverters are also summarized. The document provides examples of loss calculations and layout considerations to optimize panel placement and minimize shading. Design guidelines, standard specifications, and how to determine system capacity based on load and space are also covered at a high level.
Iaetsd integration of distributed solar power generationIaetsd Iaetsd
This document discusses the integration of distributed solar power generation using battery energy storage systems. It provides an overview of the challenges of integrating solar power into the electricity distribution system and discusses how battery energy storage systems can help mitigate issues related to the intermittent and variable nature of solar power generation, such as rapid ramp rates, frequency and voltage fluctuations. Specifically, it describes the operation and control of grid-scale battery energy storage systems designed to improve the reliability and efficiency of the power distribution system when coupled with solar photovoltaic installations.
This document lists 27 IEEE project titles from 2013 related to power systems. The projects focus on topics like control of grid-connected inverters, wind power systems, STATCOMs, flexible control of microgrids, and mitigation of voltage fluctuations with distributed generation. Many involve control schemes for grid-connected inverters, wind turbines, and STATCOMs to improve power quality and stability of power systems with high renewable penetration.
Keshari Kumar Mishra is applying for a suitable position and provides a curriculum vitae summarizing his qualifications and experience. He has over 5 years of experience in power projects and electrical maintenance. Currently he works as a Senior Engineer (Electrical) for Welspun Energy Ltd, earning an annual salary of 5.5 lacs. He has a diploma in electrical engineering and is pursuing a B.Tech in the same field. He is seeking a new role with an expected annual salary of 7.25 lacs.
Sungen is a PV solar panel manufacture with HQ located in Hong Kong and with 2 Manufacturing facilities in mainland china. We specialize in a-Si thin film technology with over 120 mw production per year and ramping up to 200mw in 2011 using Anwell automated production equipment.. we also manufacture the traditional Mono and Poly crystalline modules. Having offices in Asia, Australia, Europe and USA. (Tel. 1 650 492 5202)
The document summarizes a novel grid-connected hybrid power generation system consisting of photovoltaic arrays, a wind turbine, and battery energy storage. The system has various operation modes to control power transfer to the electric grid. In normal mode, the maximum power from the PV and wind is transferred to the grid. In dispatch mode, the system generates a set amount of power for demand management. In averaging mode, the battery helps stabilize output by smoothing fluctuations from the renewable sources. Experimental results demonstrated the system's dynamic control performance across different operating modes.
To download head to http://solarreference.com/solar-pv-codes-brooks/
Also available on the Brook Solar website (they have some quality stuff)
This presentation from Brook Solar (Now Brooks Engineering LLC) is a wonderful compilation of the standards in place in the PV industry. But you do know that standards are like babies, they don't stop growing!
For more quality information visit http://solarreference.com/
Photovoltaic Management System in Residential Areas Using Power Line Communic...IJTET Journal
Abstract— Energy consumption in residential areas is rising; residential areas have deployed a photovoltaic (PV) system to save
energy cost and provide continuous power in the area. The PV system needs to be continuously monitored to maintain its performance.
In addition, it is desirable to monitor each PV module because one abnormal PV module affects the whole PV system. Here Power line
communication (PLCC) technology is used to monitor each PV module in order to check the performance of PV system. Power line
communication (PLCC) carries data on a conductor that is also used simultaneously for AC electric power transmission. The
parameters in PV module are monitored by PLC. The system architecture is composed of the following components: PLC modem,
CUK Converter, and inverter connected with AC load. The PLC modems are deployed on each PV module for continuous monitoring.
The CUK converter will provide constant voltage to the battery. The device retrieves the stored data in microcontroller unit and
informs users about the status of the photovoltaic module. The device retrieves the stored data from the converter to inform users of
the status of the PV system. Voltage, Current and Temperature are the parameters which are going to be noted in PV module. The
output of the inverter circuit is given to the AC load by using resistive load. Users can browse and figure out the PV system
performance in detail by using power line communication technology. The system is installed in the field.It is composed of sixteen PV
modules with 960V; since each PV module provides 60V and a 1kW inverter. This scheme will maintain the performance of a PV
system and can be used for industrial applications.
• Solar resource assessment
• Determination of profitability of a PV plant
• Selection and optimization of the site.
• Selection of components (Inverters, Modules, Protection and Wiring, Grounding, Transformers, Metering, Grid Connection)
• Advanced calculations : Estimated losses; Shading study, etc
• Electrical diagrams
A 25 KW solar power plant was installed at Biet College in 2016. It consists of 25 solar structures each producing 1 KWp for a total of 25 KWp. 100 solar panels were installed on the roof of the E-block building. Electricity generated is fed into the low voltage distribution grid for the college. The system includes solar panels, DC wiring, two inverters of 5KW and 20KW capacity, and AC distribution. Installation of the structures, wiring, and commissioning of the project provided the presenter with valuable practical experience in solar power projects.
Solar PV Systems (Engineering, wiring & grid connection) - Martin Cotterell (...Farming Futures
Sundog Energy is an installer of solar photovoltaic systems since 1995. They have installed hundreds of systems across the UK on various building types. Their current projects include a 240kWp system at Kings Cross Station and a 50kWp facade system for a Newham Council building. PV systems generally consist of solar panels that convert sunlight to electricity, an inverter to convert DC to AC, and a connection to the building's electrical distribution. Proper siting and components are important for performance. MCS certification provides standards for installers and products but does not guarantee all aspects of safety, experience or system complexity.
Simulation of various DC-DC converters for photovoltaic systemIJECEIAES
This work explains the comparison of various dc-dc converters for photovoltaic systems. In recent day insufficient energy and continues increasing in fuel cost, exploration on renewable energy system becomes more essential. For high and medium power applications, high input source from renewable systems like photovoltaic and wind energy system turn into difficult one, which leads to increase of cost for installation process. So the generated voltage from PV system is boosted with help various boost converter depends on the applications. Here the various converters are like boost converter, buck converter, buck-boost converter, cuk converter, sepic converter and zeta converter are analysed for photovoltaic system, which are verified using matlab / simulink.
This document is a curriculum vitae for Mohamed Asif Haneer. It summarizes his 26 years of experience in project management and commissioning of power plants and substations. It lists his educational background in electrical engineering and highlights some of his major achievements in quickly completing large power projects on time and under budget. It also provides details of his technical skills and roles on several power generation and transmission projects in Saudi Arabia over the past 20 years.
IRJET- Photovoltaic 10MW Power Plant Simulation & Design using Mathwork &...IRJET Journal
This document describes the simulation and design of a 10 MW photovoltaic power plant using MATLAB and Simulink software. It includes:
1) The design of a PV array made up of photovoltaic panels arranged in series and parallel combinations to produce 10 MW of power.
2) The inclusion of a DC-DC boost converter to regulate output voltage and an inverter to export power to the grid at 0.4 kV or 20 kV.
3) A simulation model built in Simulink that represents one 360 kW section of the plant, including components, control systems, and testing under varying solar irradiance and temperature conditions.
4) Analysis of the simulation results
PHOTOVOLTAIC MANAGEMENT SYSTEM USING POWER LINE COMMUNICATION METHODOLOGYEditor IJMTER
Energy consumption in residential areas is rising; residential areas have deployed a
photovoltaic (PV) system to save energy cost and provide continuous power in the area. The PV
system needs to be continuously monitored to maintain its performance. In addition, it is desirable to
monitor each PV module because one abnormal PV module affects the whole PV system. Here
Power line communication (PLCC) technology is used to monitor each PV module in order to check
the performance of PV system. Power line communication (PLCC) carries data on a conductor that is
also used simultaneously for AC electric power transmission. The parameters in PV module are
monitored by PLC. The system architecture is composed of the following components: PLC modem,
CUK Converter, and inverter connected with AC load. The PLC modems are deployed on each PV
module for continuous monitoring. The CUK converter will provide constant voltage to the battery.
The device retrieves the stored data in microcontroller unit and informs users about the status of the
photovoltaic module.Voltage, Current and Temperature are the parameters which are going to be
noted in PV module. The output of the inverter circuit is given to the AC load by using resistive load.
Users can browse and figure out the PV system performance in detail by using power line
communication technology. The system is installed in the field.It is composed of sixteen PV modules
with 960V; since each PV module provides 60V and a 1kW inverter. This scheme will maintain the
performance of a PV system and can be used for industrial applications.
The document describes a solar power controller (SPC) that can provide constant power to loads even under insufficient solar radiation. The SPC consists of two DC-DC converters connected to a solar panel and storage battery. Maximum power point tracking controllers are used to extract power from the solar panel and control battery charging. Under sufficient radiation, the solar panel powers the load directly. When radiation is insufficient, both converters share the load, drawing additional power from the battery to maintain a constant 125V output. The SPC was tested to drive a 22W load at different radiation levels with 87% efficiency.
This document contains a summary for a supervisory role in technical operations for the electrical field in the metal, oil, and gas refinery sector. The summary highlights over 10 years of experience in maintenance operations, technical services, project coordination, and people management. Specific experiences mentioned include commissioning and maintenance of electrical equipment, troubleshooting, managing teams and resources, and ensuring safety, cost control, and operational effectiveness. The candidate holds a Diploma in Electrical Engineering and has worked in electrical technician roles for various companies in Saudi Arabia and India.
The document is a resume for Noli S. Doñez that outlines his professional experience and qualifications. It details over 23 years of experience in electrical and instrumentation work in various industries. His most recent roles include working as an E&I field foreman for AG&P on an LNG project in Australia, and for CB&I-JV on an LNG project in Papua New Guinea, where his responsibilities included electrical installation, maintenance, testing, and supervising work crews. The resume also lists his education, licenses, training, and contact information.
A High Static Gain Modified SEPIC Converter With PV Module and MPPTIRJET Journal
This document presents two modified single-ended primary inductance converter (SEPIC) topologies for photovoltaic applications: one without magnetic coupling and one with magnetic coupling. Both topologies aim to increase the static gain of the converter with low switch voltage and reduced reverse recovery current in the output diode. The topologies and maximum power point tracking algorithm were modeled in MATLAB/Simulink. Simulation results showed that both topologies provide high static gain for renewable energy applications with low input voltages.
Transformer Less FPGA Controlled 2-Stage Isolated Grid Connected PV SystemAnoop S
This document summarizes a seminar report on a proposed transformer-less, two-stage, grid-connected photovoltaic system. The system consists of solar panels, a boost converter-based MPPT charge controller in the first stage to regulate the variable output of the solar panels. A neutral point clamped inverter is used in the second stage to convert the DC output to AC for connection to the grid. The neutral point clamped inverter offers improved output waveforms with lower harmonic distortion compared to conventional inverters, allowing for a smaller filter size. The proposed topology aims to improve efficiency and reliability while eliminating the need for an isolation transformer.
IRJET- Cascaded Multilevel Inverter with MPPT for Grid Connected PV SystemIRJET Journal
This document presents a simulation model of a cascaded multilevel inverter with maximum power point tracking (MPPT) for a grid-connected photovoltaic (PV) system. The system uses a cascaded H-bridge multilevel inverter topology with individual MPPT control for each solar panel to improve overall efficiency. MATLAB/Simulink is used to develop the simulation model. Simulation results show the system can maintain optimal operating points under varying irradiance and temperature conditions and regulate voltage at the point of common coupling with the grid. The cascaded multilevel inverter reduces voltage stress on switches and allows for high voltage applications using lower voltage switches.
A HYBRID AC/DC SOLAR POWERED STANDALONE SYSTEM WITHOUT INVERTER BASED ON LOAD...Iaetsd Iaetsd
This document discusses two methods for generating power from solar panels for a home without using inverters or batteries.
Method 1 proposes a hybrid AC/DC home grid system that shifts harmonic intensive loads to the DC side to reduce power conversion losses and isolates harmonic content. Solar power is fed to the home through a DC-DC converter, MPPT, and inverter to power AC loads, with a separate DC connection for DC loads.
Method 2 generates AC power directly from an array of solar cells connected in an alternating anti-parallel configuration, eliminating power losses from an inverter. Compatibility with residential loads is analyzed. This novel technique could remove the need for batteries and reduce overall cost.
The performance of
This document discusses the key parameters to consider when sizing a solar PV system. It covers topics like available area, climatic conditions, product selection, site survey, and cost. The technology selection section examines different panel types and factors like efficiency. Inverter sizing ratios and the benefits of string vs central inverters are also summarized. The document provides examples of loss calculations and layout considerations to optimize panel placement and minimize shading. Design guidelines, standard specifications, and how to determine system capacity based on load and space are also covered at a high level.
Iaetsd integration of distributed solar power generationIaetsd Iaetsd
This document discusses the integration of distributed solar power generation using battery energy storage systems. It provides an overview of the challenges of integrating solar power into the electricity distribution system and discusses how battery energy storage systems can help mitigate issues related to the intermittent and variable nature of solar power generation, such as rapid ramp rates, frequency and voltage fluctuations. Specifically, it describes the operation and control of grid-scale battery energy storage systems designed to improve the reliability and efficiency of the power distribution system when coupled with solar photovoltaic installations.
This document lists 27 IEEE project titles from 2013 related to power systems. The projects focus on topics like control of grid-connected inverters, wind power systems, STATCOMs, flexible control of microgrids, and mitigation of voltage fluctuations with distributed generation. Many involve control schemes for grid-connected inverters, wind turbines, and STATCOMs to improve power quality and stability of power systems with high renewable penetration.
Keshari Kumar Mishra is applying for a suitable position and provides a curriculum vitae summarizing his qualifications and experience. He has over 5 years of experience in power projects and electrical maintenance. Currently he works as a Senior Engineer (Electrical) for Welspun Energy Ltd, earning an annual salary of 5.5 lacs. He has a diploma in electrical engineering and is pursuing a B.Tech in the same field. He is seeking a new role with an expected annual salary of 7.25 lacs.
Sungen is a PV solar panel manufacture with HQ located in Hong Kong and with 2 Manufacturing facilities in mainland china. We specialize in a-Si thin film technology with over 120 mw production per year and ramping up to 200mw in 2011 using Anwell automated production equipment.. we also manufacture the traditional Mono and Poly crystalline modules. Having offices in Asia, Australia, Europe and USA. (Tel. 1 650 492 5202)
The document summarizes a novel grid-connected hybrid power generation system consisting of photovoltaic arrays, a wind turbine, and battery energy storage. The system has various operation modes to control power transfer to the electric grid. In normal mode, the maximum power from the PV and wind is transferred to the grid. In dispatch mode, the system generates a set amount of power for demand management. In averaging mode, the battery helps stabilize output by smoothing fluctuations from the renewable sources. Experimental results demonstrated the system's dynamic control performance across different operating modes.
To download head to http://solarreference.com/solar-pv-codes-brooks/
Also available on the Brook Solar website (they have some quality stuff)
This presentation from Brook Solar (Now Brooks Engineering LLC) is a wonderful compilation of the standards in place in the PV industry. But you do know that standards are like babies, they don't stop growing!
For more quality information visit http://solarreference.com/
Photovoltaic Management System in Residential Areas Using Power Line Communic...IJTET Journal
Abstract— Energy consumption in residential areas is rising; residential areas have deployed a photovoltaic (PV) system to save
energy cost and provide continuous power in the area. The PV system needs to be continuously monitored to maintain its performance.
In addition, it is desirable to monitor each PV module because one abnormal PV module affects the whole PV system. Here Power line
communication (PLCC) technology is used to monitor each PV module in order to check the performance of PV system. Power line
communication (PLCC) carries data on a conductor that is also used simultaneously for AC electric power transmission. The
parameters in PV module are monitored by PLC. The system architecture is composed of the following components: PLC modem,
CUK Converter, and inverter connected with AC load. The PLC modems are deployed on each PV module for continuous monitoring.
The CUK converter will provide constant voltage to the battery. The device retrieves the stored data in microcontroller unit and
informs users about the status of the photovoltaic module. The device retrieves the stored data from the converter to inform users of
the status of the PV system. Voltage, Current and Temperature are the parameters which are going to be noted in PV module. The
output of the inverter circuit is given to the AC load by using resistive load. Users can browse and figure out the PV system
performance in detail by using power line communication technology. The system is installed in the field.It is composed of sixteen PV
modules with 960V; since each PV module provides 60V and a 1kW inverter. This scheme will maintain the performance of a PV
system and can be used for industrial applications.
• Solar resource assessment
• Determination of profitability of a PV plant
• Selection and optimization of the site.
• Selection of components (Inverters, Modules, Protection and Wiring, Grounding, Transformers, Metering, Grid Connection)
• Advanced calculations : Estimated losses; Shading study, etc
• Electrical diagrams
A 25 KW solar power plant was installed at Biet College in 2016. It consists of 25 solar structures each producing 1 KWp for a total of 25 KWp. 100 solar panels were installed on the roof of the E-block building. Electricity generated is fed into the low voltage distribution grid for the college. The system includes solar panels, DC wiring, two inverters of 5KW and 20KW capacity, and AC distribution. Installation of the structures, wiring, and commissioning of the project provided the presenter with valuable practical experience in solar power projects.
Solar PV Systems (Engineering, wiring & grid connection) - Martin Cotterell (...Farming Futures
Sundog Energy is an installer of solar photovoltaic systems since 1995. They have installed hundreds of systems across the UK on various building types. Their current projects include a 240kWp system at Kings Cross Station and a 50kWp facade system for a Newham Council building. PV systems generally consist of solar panels that convert sunlight to electricity, an inverter to convert DC to AC, and a connection to the building's electrical distribution. Proper siting and components are important for performance. MCS certification provides standards for installers and products but does not guarantee all aspects of safety, experience or system complexity.
Simulation of various DC-DC converters for photovoltaic systemIJECEIAES
This work explains the comparison of various dc-dc converters for photovoltaic systems. In recent day insufficient energy and continues increasing in fuel cost, exploration on renewable energy system becomes more essential. For high and medium power applications, high input source from renewable systems like photovoltaic and wind energy system turn into difficult one, which leads to increase of cost for installation process. So the generated voltage from PV system is boosted with help various boost converter depends on the applications. Here the various converters are like boost converter, buck converter, buck-boost converter, cuk converter, sepic converter and zeta converter are analysed for photovoltaic system, which are verified using matlab / simulink.
This document is a curriculum vitae for Mohamed Asif Haneer. It summarizes his 26 years of experience in project management and commissioning of power plants and substations. It lists his educational background in electrical engineering and highlights some of his major achievements in quickly completing large power projects on time and under budget. It also provides details of his technical skills and roles on several power generation and transmission projects in Saudi Arabia over the past 20 years.
IRJET- Photovoltaic 10MW Power Plant Simulation & Design using Mathwork &...IRJET Journal
This document describes the simulation and design of a 10 MW photovoltaic power plant using MATLAB and Simulink software. It includes:
1) The design of a PV array made up of photovoltaic panels arranged in series and parallel combinations to produce 10 MW of power.
2) The inclusion of a DC-DC boost converter to regulate output voltage and an inverter to export power to the grid at 0.4 kV or 20 kV.
3) A simulation model built in Simulink that represents one 360 kW section of the plant, including components, control systems, and testing under varying solar irradiance and temperature conditions.
4) Analysis of the simulation results
PHOTOVOLTAIC MANAGEMENT SYSTEM USING POWER LINE COMMUNICATION METHODOLOGYEditor IJMTER
Energy consumption in residential areas is rising; residential areas have deployed a
photovoltaic (PV) system to save energy cost and provide continuous power in the area. The PV
system needs to be continuously monitored to maintain its performance. In addition, it is desirable to
monitor each PV module because one abnormal PV module affects the whole PV system. Here
Power line communication (PLCC) technology is used to monitor each PV module in order to check
the performance of PV system. Power line communication (PLCC) carries data on a conductor that is
also used simultaneously for AC electric power transmission. The parameters in PV module are
monitored by PLC. The system architecture is composed of the following components: PLC modem,
CUK Converter, and inverter connected with AC load. The PLC modems are deployed on each PV
module for continuous monitoring. The CUK converter will provide constant voltage to the battery.
The device retrieves the stored data in microcontroller unit and informs users about the status of the
photovoltaic module.Voltage, Current and Temperature are the parameters which are going to be
noted in PV module. The output of the inverter circuit is given to the AC load by using resistive load.
Users can browse and figure out the PV system performance in detail by using power line
communication technology. The system is installed in the field.It is composed of sixteen PV modules
with 960V; since each PV module provides 60V and a 1kW inverter. This scheme will maintain the
performance of a PV system and can be used for industrial applications.
The document describes a solar power controller (SPC) that can provide constant power to loads even under insufficient solar radiation. The SPC consists of two DC-DC converters connected to a solar panel and storage battery. Maximum power point tracking controllers are used to extract power from the solar panel and control battery charging. Under sufficient radiation, the solar panel powers the load directly. When radiation is insufficient, both converters share the load, drawing additional power from the battery to maintain a constant 125V output. The SPC was tested to drive a 22W load at different radiation levels with 87% efficiency.
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TERRY A EVANS RESUME Inspection 07-22-2016Terry Evans
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1. Thorn McKeown
115 Twin Oaks VLG.
Mansfield, Ma 02048
508-944-9420
EmcThorn@aol.com
Education:
2001-2006 The National Joint Apprenticeship Committee
Certificate in Electricity/ Journeyman Inside Wireman
Study included The National Electric Code, Grounding, AC and DC voltages,
Motors and Motor Controls, Single and Three phase systems, Fire alarm systems and its
codes, VSD’s, ect.
2006 Commonwealth of Massachusetts Department of Apprentice Training
Certificate in Electricity/ Journeyman Inside Wireman
1997-2001 Southeastern Regional Vocational Technical High School
Graduated with Certificate in Electricity
Study included The National Electric Code, EMT, PVC, Pipe Bending, Minor Welding
and Braising, Voltages ranging from 0-600V, Ohm’s Law, and Proper use of Power and
Hydraulic tools and other specialty tools of the Electrical trade
Qualifications:
Massachusetts State Electrical License ( Lic.# 11415 B )
Rhode Island State Electrical License ( Lic.# B013075 )
NFPA 70E
OSHA 30
Qualified Rigger / Signal Person
CPR/ First Aid
Entergy Nuclear ( Plant Access Training, Master Electrician NMAP, Confined Space
Training, Radiation Worker Training, Electrical Safety Training, Fall Protection,
Raychem splicing)
Work Experience :
2015 Seabrook Nuclear Power Plant
Day and Zimmerman- Worked with Day and Zimmerman in 2015 during the plant re-fueling outage,
worked consisted of temporary power and lighting
2013-2015 , 2009, 2007 Pilgrim Nuclear Power Plant
Day and Zimmerman Atlantic, Williams Plant Services, CB&I ( Shaw) Stone and Webster
MOV’s ( Motor Operated Valves) - Worked with Craine Nuclear in 2013, and with Day and Zimmerman
Atlantic in 2009, during the power plants bi-annual maintenance shut down with plant personal
performing work on MOV’s for the plants cooling system in radiational areas of the plant. Work
consisted of successfully de-energizing and re-energizing, replacing MOV’s and parts, re-feeding, re-
greasing, re-setting its limits, in accordance with plant procedures.
Plant Security System - Worked with Williams Plant Services in 2009, in accordance with homeland
security, the plant installed around its perimeter, a chain link fence with electronic sensors referred to as
SOKA. The work consisted of installing underground race ways ( power and control) to boxes in various
spots and installed on center of each panel of fence.
2. Routine Plant Maintenance- Worked with Shaw Stone and Webster in 2007, during the plants Bi-annual
maintenance shut down. Worked consisted relocating electrical equipment and re-feeding it, installing
new raceways, wire pulling, de-energizing and re-energizing, in accordance with plant procedures.
Battery Backup System - Worked with CB&I as a foreman on plant battery back up systems by installing
transfer switches with involve coordinating with engineering and quality control
2015 C and K Electric
Rhode Island State Courthouses- Work in a number of courthouses throughout the state of Rhode Island
on a retro-fit project in conjunction with National Grid to install energy efficient lighting
2013 Cruz Electric Inc.
Fairfax Gardens HOPE VI ( Taunton Housing Authority ) Worked with Cruz Electric on a residental
project, all new work, from the ground up. Work consisted of running circuits on the rough and finish,
along with installing common devices such as lighting fixtures, switches, and receptacles for basic
apartment units.
2010- 12 Brayton Point Power Station ( Somerset, Ma )
Kiewit Infrastructure Co. and Reed Electrical Co.
Inside the plant- Worked with plant personal connecting power for the plants new cooling towers, pulling
large size feeders over great distance and obstacles without any damage to the integrity of the wires,
worked hand and hand with plant personal successfully de-energizing old electrical equipment ( Motor
Control Centers, feeders, and control wiring ), and installing with new updated equipment, and re-
energizing, and other Plant Maintenance needs.
Cooling tower- Worked on two 520’x 900’cooling towers for the power plants Closed loop water cooling
system from beginning to end ,worked consisted of installation MOV’s ( Motor Operated Valves ),
Lightning Protection, Driving ground rods, general Grounding, Control wiring, Underground duct banks,
Cable trays, Installations for supporting structures for the cooling towers such as Chemical feed buildings,
Pump houses ( Pumps water from the plant) , UDB ( Returns the water to the plant ) 115KV Buildings
feed from the power plant.
Wind Turbine ( Fairhaven, Ma )- Worked with Reed Electric Co. installing two 300’+ turbines with
engineers, work consisted of working with town utility workers to feed the tower by installing
Transformers, feeders, 480 panels and switches, to the turbine. Along with installing an input and output
(electricity produced by the turbine) meter. Also pulled its fiber optics for the turbines controls.
2007-09 City Lights Electrical Co.
UMASS Dartmouth- Worked a renovation project for the university dorms, work consisted of
deactivating its fire alarm, and re-engineering it to a new system in which the fire alarm system was
broken down into zones, based upon the university’s specifications. Also other work included general
120, 240 power such as updated lighting.
Stonehill Collage- Worked on a new science lab from beginning to end, my responsibility was its
lighting system. The works consisted of 277v ( Normal and Emergency ) relock fixtures, with AFC MC
cable, and exit signs. The lighting system involved motion sensors and emergency
bypass relays in each room. Other work I performed on this project was fire alarm, panel installation,
switchgear and transformers.
2005-07 Providence, R.I and Southeastern Mass.
Mass Electrical Co., Audet Electrical Co., and O’Rourke Electrical Co.
Wheaton Collage- Worked with Mass Electrical Co., Project was a service upgrade to four different dorm
buildings, in which all raceways (4 in EMT), switch gear, MCC’s, and feeders (500 KCMIL) were
replaced.
3. Polaroid- Also worked with Mass Electric Co., Project was working hand and hand with plant engineers
performing plant maintenance such as lighting, level switches ( used in tanks to measure levels of liquid),
re-feeding.
Central Catholic High School- Worked for Audet Electrical Co. From 2005 to 2006. Project was a all
around upgrade to the entire high school done in phases. The work included successfully deactivating the
fire alarm system and updating to local code, installing a new lighting panel which is computer controlled,
installing a new generator for the school and its ATS ( Automatic Transfer Switch), setting up a
temporary service ( switch gear, panels, feeders) to cut over, then at that time de-energizing the old one,
removing it, installing the new permanent one.
Hilton Hotel, Starbucks, and Shula’s 347- Worked with O’Rourke Electrical Co., This was a multi
project going on at once (of an old Holiday Inn being converted). The work consisted of specialty lighting
(which included shaping conductor strips in accordance with specifications of its angles, low voltage
transformers, low voltage switches, imported Italian Lighting fixtures), installation of electric panels
(240V and 480V), raceways, and fire alarm.
2004-05 Gaston Electrical Co.
General Motors Plant- Worked on project from beginning to end, work included underground raceways,
grounding ( lightning protection, cad welding ), building electrical rooms ( panels, transformers, ATS’s)
lighting, raceways, fire alarm, and outside lighting.
Brockton Satellite Tower- This project was an installation of a new rooftop unit, in which included , 4 in
raceways, feeders, and activation of its fire alarm system into the existing buildings system, also included
energizing it into the buildings electrical system.
2003-04 Southeastern Mass.
K and H Electrical, Mauri Electrical, Seaver Electrical, Bayside Electrical,
and Fall River Ass. Electrical Co.
AT&T- Worked for K and H Electrical, Worked involved installation for a raised floor for AT&T
workers, in which consisted of all power ( raceways, grounding, and receptacles) and tele-data to be under
the floor. Earthquake proofing ( which went along with the installation of the raised floor, includes 45
degree supporting system) Other work included underground, cad welding, transformers, roof top units,
and installation of its electrical system.
Comcast- Worked for Mauri Electrical, Worked performed was for reseeding and upgrade for the facility,
worked included preparation for a change over ( new feeders, grounding, transformers, and panel), fire
alarm, and cable lacing.
Sewerage Treatment Plant- Worked for Seaver Electrical, Project was a upgrade for the exisisting plant
with addition of two new buildings. Work included PVC Coated RMC, stainless steal hardware,
underground raceways and manhole installation, wire pulling, control cabinets, electrical panels, switch
gear and motor and pump replacement.
Shaws- Worked for Bayside Electrical on a new supermarket, work included outside lighting, built
electrical room, raceways, transformers, fire alarm, wired cash registers and wired refrigeration units.
Taunton Water Treatment- Worked for Fall River Ass. Electrical, Worked at the treatment doing
upgrades and maintenance. Work included running raceways, PVC coated RMC, working in manholes
installing pumps, control wiring, and underground.
2001-03 Southeastern Mass.
Sparks Electrical and Upper Cape Electrical
Charlton Hospital- Worked for Sparks Electrical, Work included a new maturity ward, work consisted of
MC cable, 120 and 277 V, lighting and general power, and fire alarm under hospital codes.
Dartmouth High School- Also worked for Sparks Electrical, was on this job from beginning to end,
worked on wire mold which consisted of tele-data and power, temporary power, 277 lighting, fire alarm,
cable tray, transformers, cad welding, outside lighting, exterior lighting, underground, and wire pulling.
4. Mass Maritime- Worked for Upper Cape Electrical, Work consisting of providing receptacles for ships,
by installing a stainless steal cabinet, with 750 KcMil cables, underground raceways, cad welding,
installation of switch gear.
Bridgewater Police Station- With Upper Cape Electrical, From beginning to end, work involved
transformers, fire alarm, panels, tele-data, MC cable, 277V lighting ,
Middleboro Fire Station- With Upper Cape Electrical, From beginning to end, work involved, generators,
fire alarm, underground, lighting, transformers
1997-2001 Southeastern Regional Vocational-Technical High School
During my time in high school, in 2000 I became an employee while still being a student to perform
electrical work, work involved retro fit for the entire schools lighting system, other work involved
running raceways, installing panels, and wiring new structure from beginning to end.
Back round:
I have worked in the electrical field for over 15 years, I define myself as a very motivated person,
easy to work with, during my time I’ve been a foreman and many of times been a lead journeyman of a
crew. I’ve never had a problem multi-tasking, never been fired or terminated for a lack of performance or
behavior, I feel that I would be a valuable asset to any company with my back round and training.
I have my own hand tools, and have a great deal of experience with power tools such as,
• Hammer drills
• Chain falls
• Sawzalls
• Band saws
• Boom lifts
• Scissor lifts
• Skill saws
and other specialty tools of the electrical trade such as,
• Hydraulic tools
• Tuggers ( used to pull heavy duty wires) along with its accessories ( shives, sleeves, pulleys)
• Threaders
• Benders ( 5x5’s, Hand benders, Table benders, Chicago )
• Meters ( Wiggies, Mega’s)
• Air sensors ( generally used for confined space )
I also have the ability to work with computers if needed in the workplace.
I also have a great deal of experience working with different aspects of the electrical trade such as,
• MCC’s ( Motor Control Centers )
• Maintenance
• Single and Three phase systems
• Ship receptacles
• Complicated wire pulling
• MOV’s ( Motor Operated Valves )
• Transformers
• Heat trace
• Link seal
• Retrofits
• Working in manholes (racking, wire pulling)
• Generators
• GFCI
• ATS’s ( Automatic Transfer Switches )
• Normal and Emergency Power,
5. • Temporary
• Interior and exterior wiring,
• Lighting systems ( 120V, 277V )
• Explosion proof lighting
• Voltages ranging from 0-600 volts,
• Stainless steal
• Earthquake proofing
• Cad weld ( for grounding systems for buildings )
• Fire alarm ( Mass and RI codes ) + ( Horn, Strobes, Pull stations, panels )
• Raceways such as PVC, EMT, RMC, Romex, MC cable, Multi Conductor cable, PVC Coated RMC,
Cable tray, Bus duct
And I have also worked in various applications such as,
• Power Plants ( Nuclear, and Coal fired)
• Commercial
• Industrial
• Restaurants
• Cooling towers
• Wind turbine
• Collages and Universities ( UMASS Dartmouth, Wheaton, Stone Hill, Bridgewater State, Mass
Maritime)
• Schools ( Southeastern H.S., Dartmouth, Brockton, New Bedford)
• Water and sewage treatment plants
• Supermarkets
• Residential and apartment buildings
• Hospitals and Doctor offices
• Comcast and AT&T buildings
• Fire and Police stations
• Offices
REFRENCES UPON REQUEST