This document describes a project to design a fuel-less vehicle powered by a standalone photovoltaic system. The vehicle is a solar-powered tricycle consisting of solar panels, a brushless DC motor, battery, charge controller, and braking and steering systems. The objectives are to develop an environmentally friendly vehicle that can charge its battery using solar energy or conventional electricity. Testing showed the tricycle can carry a 60kg passenger for long distances without pollution as it is powered solely by renewable solar energy.
multidisciplinary action project report on e bikepeakrankeryt
This report summarizes a study conducted on consumer awareness and perception of electric bikes by Sahjanand E-Bike. The study found that while consumers are interested in electric bikes due to benefits like environmental friendliness and health, there is still a lack of awareness about e-bikes and issues like limited infrastructure, standardization problems, and range anxiety. The report recommends improving charging systems, developing battery technology, and increasing research and development to further electric vehicles as a sustainable transportation solution in India.
The document proposes a smart residential photovoltaic (PV) and energy storage system to reduce energy costs. It presents a system model with PV modules, energy storage elements (EES), and electricity pricing policies. The system uses converters to control energy flow between the PV, storage, and home loads. Simulations show the system with lithium-ion batteries achieves 7-8% more daily cost savings than lead-acid batteries. Advantages include reduced reliance on the electric grid and cleaner energy. Disadvantages are higher initial costs and variable solar output. Future scopes are microinverters and cost competitiveness with conventional energy after 2020.
The document describes the design and fabrication of a solar-powered tricycle for kids by a group of 5 students. The objectives are to design and build a functional solar electric tricycle, evaluate its performance in terms of range, speed and efficiency, analyze the cost effectiveness of using solar energy to power it, and present the findings. The tricycle uses a 12V DC motor powered by a lithium ion battery charged by a 20W solar panel. It has a chain and sprocket drive mechanism and measures 58cm wide, 84cm long with a 12cm ground clearance. The manufacturing process and technical specifications of components like the wheels, motor, battery and solar panel are provided. The advantages of environmental friendliness and cost savings over
The document describes the design and development of a solar-powered bicycle. It includes sections on objectives, methodology, assembly of components, connection of components, future applications, advantages, and conclusions. The bicycle is designed to be pedaled manually but also has a 500W DC motor powered by batteries that can be charged via flexible solar panels mounted on the frame. This provides assistance on hills and longer trips while being economically friendly, non-polluting, and suitable for a variety of users and transportation needs.
This document discusses energy conservation in India. It summarizes that in 2015, thermal power generation made up 64.7% of India's total installed capacity of 161,351 MW. The document outlines various sources of energy in India, both renewable and non-renewable. It provides statistics on household power consumption and discusses practical methods for energy conservation like installing LED lights, fixing air leaks, and using energy efficient appliances.
The document describes a proposed free energy generator that could generate electricity without using fossil fuels or other conventional energy sources. It discusses two proposed methods - a mechanical method using motors and generators, and an electronic method using components like inductors and capacitors. The objective is to develop a self-powered system that recycles the electricity it produces to power itself continuously. Several advantages are described, such as being eco-friendly and economical. However, more development is still needed to improve the design before it could be implemented beyond domestic use.
This document describes a project to design a fuel-less vehicle powered by a standalone photovoltaic system. The vehicle is a solar-powered tricycle consisting of solar panels, a brushless DC motor, battery, charge controller, and braking and steering systems. The objectives are to develop an environmentally friendly vehicle that can charge its battery using solar energy or conventional electricity. Testing showed the tricycle can carry a 60kg passenger for long distances without pollution as it is powered solely by renewable solar energy.
multidisciplinary action project report on e bikepeakrankeryt
This report summarizes a study conducted on consumer awareness and perception of electric bikes by Sahjanand E-Bike. The study found that while consumers are interested in electric bikes due to benefits like environmental friendliness and health, there is still a lack of awareness about e-bikes and issues like limited infrastructure, standardization problems, and range anxiety. The report recommends improving charging systems, developing battery technology, and increasing research and development to further electric vehicles as a sustainable transportation solution in India.
The document proposes a smart residential photovoltaic (PV) and energy storage system to reduce energy costs. It presents a system model with PV modules, energy storage elements (EES), and electricity pricing policies. The system uses converters to control energy flow between the PV, storage, and home loads. Simulations show the system with lithium-ion batteries achieves 7-8% more daily cost savings than lead-acid batteries. Advantages include reduced reliance on the electric grid and cleaner energy. Disadvantages are higher initial costs and variable solar output. Future scopes are microinverters and cost competitiveness with conventional energy after 2020.
The document describes the design and fabrication of a solar-powered tricycle for kids by a group of 5 students. The objectives are to design and build a functional solar electric tricycle, evaluate its performance in terms of range, speed and efficiency, analyze the cost effectiveness of using solar energy to power it, and present the findings. The tricycle uses a 12V DC motor powered by a lithium ion battery charged by a 20W solar panel. It has a chain and sprocket drive mechanism and measures 58cm wide, 84cm long with a 12cm ground clearance. The manufacturing process and technical specifications of components like the wheels, motor, battery and solar panel are provided. The advantages of environmental friendliness and cost savings over
The document describes the design and development of a solar-powered bicycle. It includes sections on objectives, methodology, assembly of components, connection of components, future applications, advantages, and conclusions. The bicycle is designed to be pedaled manually but also has a 500W DC motor powered by batteries that can be charged via flexible solar panels mounted on the frame. This provides assistance on hills and longer trips while being economically friendly, non-polluting, and suitable for a variety of users and transportation needs.
This document discusses energy conservation in India. It summarizes that in 2015, thermal power generation made up 64.7% of India's total installed capacity of 161,351 MW. The document outlines various sources of energy in India, both renewable and non-renewable. It provides statistics on household power consumption and discusses practical methods for energy conservation like installing LED lights, fixing air leaks, and using energy efficient appliances.
The document describes a proposed free energy generator that could generate electricity without using fossil fuels or other conventional energy sources. It discusses two proposed methods - a mechanical method using motors and generators, and an electronic method using components like inductors and capacitors. The objective is to develop a self-powered system that recycles the electricity it produces to power itself continuously. Several advantages are described, such as being eco-friendly and economical. However, more development is still needed to improve the design before it could be implemented beyond domestic use.
In a world where environment protection and energy conversion are growing concerns,the development of solar vehicle has taken on an accele ration pace. The dream of having commercially viable solar vehicle is becoming a rea lity. EV�s are gradually available in the market. This opportunity is taken towards design an d development of Solar two wheeler. Solar vehicle is a multi-disciplinary subject which covers broad and complex aspects. However,it has core technologies,namely propulsio n technology,energy source technology,storage and control technology. As energy source s olar panel is used and developed voltage is stored in battery and used for the drive the hub motor which is used as rare wheel of the vehicle.
SOLAR STREET LIGHTING SYSTEM SHOULD BE USED TO DECREASE THE ENERGY DEMAND IN HIGHWAYS ALSO RENEWABLE ENERGY SOURCES CAN BE UTILIZED MORE AND MORE TO REDUCE THE MASSIVE USES OF FOSSIL FUELS WHICH ARE EXTINGUISHABLE.
This document describes the design and components of a solar powered electric bicycle. Key points:
1. The bicycle is upgraded to be powered by a hub motor connected to a battery. Solar panels mounted on the bicycle charge the battery to power the motor.
2. The solar panels convert solar energy to electrical energy which is stored in the battery. A solar controller regulates the battery charging.
3. Components include the bicycle, solar panels, battery, hub motor, controller, and throttle. Calculations are shown for battery specifications, motor power, and weight distribution.
4. The working involves the solar panels charging the battery, which powers the hub motor via the controller to propel the bicycle using both solar
The document describes the development of a 300kg capacity solar dryer with a biomass backup for drying fish. Key points:
- The solar dryer was designed with an increased collector depth of 100mm and lightweight stainless steel drying chamber sandwiched with insulation to address issues with an earlier prototype.
- Testing showed the dryer reduced drying time and produced hygienic dried products compared to open sun drying.
- Economic analysis found the solar dryer would pay for itself in 183 drying days and could save an estimated 57.2 million INR over 20 years compared to electric drying.
This document outlines Lexington, Massachusetts' history of sustainability efforts from 2005 to 2017. It summarizes key milestones and policies enacted, including sustainable building policies, adoption of the Stretch Energy Code, creation of the Sustainable Lexington organization, approval of Community Choice Aggregation, and establishment of task forces on solar energy and getting to net zero emissions. The document then discusses Lexington's Sustainability Action Plan and priorities to reduce greenhouse gas emissions through energy efficiency, green power purchasing, and transitioning to renewable energy sources with a long-term goal of achieving net zero emissions by 2050. It highlights ongoing solar projects at municipal buildings that are expected to save millions in energy costs and reduce carbon emissions.
Design of solar panels system with hydrogen accumulators and fuel cellwaled mohamed
The document describes a proposed design for a solar panel system that uses hydrogen accumulators and a fuel cell. The system consists of solar panels, an electrolyzer to produce hydrogen from water, fuel cells to generate power from hydrogen, hydrogen tanks for storage, and an inverter. It is intended to reduce dependence on oil by using hydrogen produced from solar energy. A case study examines the energy production and savings of a proposed installation with specific components. The results show 44% reduction in electricity consumption compared to grid power alone. However, the feasibility is limited by the current status of the relevant technologies.
This document provides an overview of operational energy strategies and concepts. It discusses the Department of Defense's operational energy policy and goals to increase warfighting capability, reduce logistical risks, and enhance the current force. It also covers renewable energy sources, microgrids, energy modeling software, and includes practical exercises for students. The objectives are to understand operational energy doctrine and evaluate energy systems using tools like HOMER, AutoDISE and Xendee.
Energy efficiency is a power house job creator. Recent research from ACEEE finds that changes to Pennsylvania’s energy efficiency laws could deliver more than 30,000 jobs to the Commonwealth. What do these jobs look like, and how do we make them a reality?
Electric vehicles produce zero tailpipe emissions and help reduce greenhouse gas emissions that contribute to climate change. They are powered by electricity rather than fuel, and there are three main types - battery electric vehicles, plug-in hybrid electric vehicles, and hybrid electric vehicles. As awareness of carbon dioxide's effects grows and governments aim to cut emissions in half by 2030, electric vehicles can help achieve these targets through their renewable energy sources and lack of pollution.
Class 12 Physics Investigatory Project - Solar CarRushil Aggarwal
Project from the chapter Semiconductor and Devices, this is a project which is based on the concept of solar cell. Useful for class 12 board projects.
Do like , share and comment if my work helped you ;)
Renewable energy resources for highway lightingRuchiGautam28
This project aims to design a prototype highway that can generate its own electricity through renewable energy sources. The prototype captures wind energy created by passing traffic, solar energy from sunlight, and piezoelectric energy from vehicle pressure. The energies are combined and stored in batteries, which power streetlights and reduce the highway's energy needs. The design uses an Arduino Nano, piezoelectric generators, an LCD display, a relay, and an LDR to integrate the renewable sources and control energy distribution. If implemented, it could transform highways into smart systems that independently and sustainably meet their own energy demands.
There is growing interest in alternative energy sources due to limited fossil fuel reserves. Research estimates that at 2009 consumption rates, proven oil reserves would be depleted in 55 years, natural gas in 63 years, and coal in 119 years. While probable and undiscovered reserves may extend these timelines, renewable energy is seen as the long-term solution. Solar energy in particular holds promise as the sun is the most abundant energy source. Photovoltaic solar systems convert sunlight directly into electricity, with global PV capacity increasing from 40 GW in 2010 to 139 GW in 2013. New systems aim to improve solar energy efficiency through the use of sensors, motors and mirrors to optimally position and focus sunlight on solar panels.
This document provides an agenda and overview for the Solarize Syracuse program. It discusses the benefits of community solar programs and outlines the selection of CNY Solar as the installer. Key details include the pricing tiers offered by CNY Solar, information on solar panel basics, the process for getting a solar system installed, and available incentives like the NYSERDA grant. The goal is to help more residents and businesses in the Syracuse area overcome barriers and go solar.
Using renewable energy and using it correctly is the need of the hour. In times like these, Bluebird Solar harnesses the natural energy of the sun and puts it to a better and a greener use. We primarily aim to meet energy demands, provide affordable solar solutions and promote sustainability by harnessing solar energy. Bluebird Solar specializes in manufacturing Voltage Stabilizers, Servo Stabilizers, Constant Voltage Transformers and Isolation Transformers.
We have a dream of sustainably powering the future, the greener the better. Due to the immense rise in cost of non-renewable energy and the possibility of its depletion, increased the demand for renewable resources; solar energy. With this, there are also non-power areas/villages where harnessing solar energy is still a better option than no energy at all. We aim to cover all those areas and spread the green power. Hence, solar energy is one of the best options to go for, as it is something that is never-ending and can provide us with its energy for millions of years to come.
Bluebird Solar aims at spreading brightness with Solar Lanterns and Reading Lights. These serve as a great replacement to non-renewable resources like kerosene lamps. They help in saving money and reducing other polluting hazards. We also specialize in solar home lighting systems where various kits according to your customization are provided. The solar rooftop solutions are the ones which you can easily install and it benefits you for a long time in a better way. We provide off-grid or standalone systems and hybrid systems. All this together makes us your one stop shop for all your solar power needs.
Our solar power products are accompanied by our mission towards a better society. We see a nation with responsible citizens, responsible towards the society and the nature. Creating this environment and a future for sustainability is Bluebird’s major vision!
PakSolar provides renewable energy products and services in Pakistan, including solar energy systems, micro hydropower systems, energy conservation solutions, lighting, and solar pumps. It designs, installs, and maintains solar solutions for homes, businesses, industries, and agriculture. PakSolar specializes in photovoltaic systems, micro hydropower, energy efficiency, wind power, solar water pumps, portable solar kits, and biogas projects. It aims to maximize returns for customers through integrated proposals, equipment procurement, construction, and ongoing maintenance.
Solar Stirling Engine with Solar TrackerImran Butt
The document summarizes a student project to design and build a solar Stirling engine with solar tracker. It includes sections on background, methodology, components, preliminary results showing 520 RPM generation, features such as being environmentally friendly and cheap electricity production, applications, and a conclusion that increasing the size could generate up to 5kw of electricity at low cost. It is presented by 6 students to their internal and external advisors.
REMOTE MONITORING & APPLICATION OF NON-TRADITIONAL ENERGY METHODS TO POWER S...wle-ss
The document discusses using non-traditional energy sources like solar, wind, and Seebeck devices to power remote oil and gas sampling and reporting stations. It notes that Texas is a top producer of both solar and wind energy. The document also discusses using Seebeck devices to harvest energy from pipelines and the potential of hydrogen as a sustainable fuel for powering operations and vehicles.
This seminar project report summarizes a student's research on developing a free energy generator. The objective is to generate electricity without using fossil fuels or other conventional energy sources. Two methods are explored: a mechanical method using motors and generators, and an electronic method using components like inductors and capacitors. Initial results found it can generate power for domestic use but needs more development to improve. Advantages include being eco-friendly and economical. The conclusion is that free energy generation is still under development with potential if further advanced.
This document proposes generating electricity from speed breakers using a rack and pinion mechanism. It outlines the aims to design such a mechanism and investigate power generation from kinetic energy of vehicles passing over speed breakers. The methodology involves creating linear motion from the speed bump that turns pinions connected to a generator to produce electricity. Calculations estimate a daily power generation of 56.45 kW could be achieved. The budget for a prototype is estimated at 25,000 rupees. Successful results could utilize the power at traffic signals and streetlights.
OUC provides electricity and water to over 230,000 customers in central Florida. They have implemented several green initiatives including renewable energy demonstration projects, customer solar programs, and electric vehicle partnerships. Their corporate sustainability plan aims to reduce emissions and waste. Key projects include a 5 MW biomass plant, a 5.91 MW solar farm, a solar production incentive program, and installing over 300 electric vehicle charging stations through a partnership with ChargePoint America. OUC aims to lead the region in adopting renewable energy and electric vehicles.
Charging Fueling & Infrastructure (CFI) Program by Kevin MillerForth
Kevin Miller, Senior Advisor, Business Models of the Joint Office of Energy and Transportation gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
EV Charging at MFH Properties by Whitaker JamiesonForth
Whitaker Jamieson, Senior Specialist at Forth, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
Más contenido relacionado
Similar a solar powered E vehicle presentation with slide
In a world where environment protection and energy conversion are growing concerns,the development of solar vehicle has taken on an accele ration pace. The dream of having commercially viable solar vehicle is becoming a rea lity. EV�s are gradually available in the market. This opportunity is taken towards design an d development of Solar two wheeler. Solar vehicle is a multi-disciplinary subject which covers broad and complex aspects. However,it has core technologies,namely propulsio n technology,energy source technology,storage and control technology. As energy source s olar panel is used and developed voltage is stored in battery and used for the drive the hub motor which is used as rare wheel of the vehicle.
SOLAR STREET LIGHTING SYSTEM SHOULD BE USED TO DECREASE THE ENERGY DEMAND IN HIGHWAYS ALSO RENEWABLE ENERGY SOURCES CAN BE UTILIZED MORE AND MORE TO REDUCE THE MASSIVE USES OF FOSSIL FUELS WHICH ARE EXTINGUISHABLE.
This document describes the design and components of a solar powered electric bicycle. Key points:
1. The bicycle is upgraded to be powered by a hub motor connected to a battery. Solar panels mounted on the bicycle charge the battery to power the motor.
2. The solar panels convert solar energy to electrical energy which is stored in the battery. A solar controller regulates the battery charging.
3. Components include the bicycle, solar panels, battery, hub motor, controller, and throttle. Calculations are shown for battery specifications, motor power, and weight distribution.
4. The working involves the solar panels charging the battery, which powers the hub motor via the controller to propel the bicycle using both solar
The document describes the development of a 300kg capacity solar dryer with a biomass backup for drying fish. Key points:
- The solar dryer was designed with an increased collector depth of 100mm and lightweight stainless steel drying chamber sandwiched with insulation to address issues with an earlier prototype.
- Testing showed the dryer reduced drying time and produced hygienic dried products compared to open sun drying.
- Economic analysis found the solar dryer would pay for itself in 183 drying days and could save an estimated 57.2 million INR over 20 years compared to electric drying.
This document outlines Lexington, Massachusetts' history of sustainability efforts from 2005 to 2017. It summarizes key milestones and policies enacted, including sustainable building policies, adoption of the Stretch Energy Code, creation of the Sustainable Lexington organization, approval of Community Choice Aggregation, and establishment of task forces on solar energy and getting to net zero emissions. The document then discusses Lexington's Sustainability Action Plan and priorities to reduce greenhouse gas emissions through energy efficiency, green power purchasing, and transitioning to renewable energy sources with a long-term goal of achieving net zero emissions by 2050. It highlights ongoing solar projects at municipal buildings that are expected to save millions in energy costs and reduce carbon emissions.
Design of solar panels system with hydrogen accumulators and fuel cellwaled mohamed
The document describes a proposed design for a solar panel system that uses hydrogen accumulators and a fuel cell. The system consists of solar panels, an electrolyzer to produce hydrogen from water, fuel cells to generate power from hydrogen, hydrogen tanks for storage, and an inverter. It is intended to reduce dependence on oil by using hydrogen produced from solar energy. A case study examines the energy production and savings of a proposed installation with specific components. The results show 44% reduction in electricity consumption compared to grid power alone. However, the feasibility is limited by the current status of the relevant technologies.
This document provides an overview of operational energy strategies and concepts. It discusses the Department of Defense's operational energy policy and goals to increase warfighting capability, reduce logistical risks, and enhance the current force. It also covers renewable energy sources, microgrids, energy modeling software, and includes practical exercises for students. The objectives are to understand operational energy doctrine and evaluate energy systems using tools like HOMER, AutoDISE and Xendee.
Energy efficiency is a power house job creator. Recent research from ACEEE finds that changes to Pennsylvania’s energy efficiency laws could deliver more than 30,000 jobs to the Commonwealth. What do these jobs look like, and how do we make them a reality?
Electric vehicles produce zero tailpipe emissions and help reduce greenhouse gas emissions that contribute to climate change. They are powered by electricity rather than fuel, and there are three main types - battery electric vehicles, plug-in hybrid electric vehicles, and hybrid electric vehicles. As awareness of carbon dioxide's effects grows and governments aim to cut emissions in half by 2030, electric vehicles can help achieve these targets through their renewable energy sources and lack of pollution.
Class 12 Physics Investigatory Project - Solar CarRushil Aggarwal
Project from the chapter Semiconductor and Devices, this is a project which is based on the concept of solar cell. Useful for class 12 board projects.
Do like , share and comment if my work helped you ;)
Renewable energy resources for highway lightingRuchiGautam28
This project aims to design a prototype highway that can generate its own electricity through renewable energy sources. The prototype captures wind energy created by passing traffic, solar energy from sunlight, and piezoelectric energy from vehicle pressure. The energies are combined and stored in batteries, which power streetlights and reduce the highway's energy needs. The design uses an Arduino Nano, piezoelectric generators, an LCD display, a relay, and an LDR to integrate the renewable sources and control energy distribution. If implemented, it could transform highways into smart systems that independently and sustainably meet their own energy demands.
There is growing interest in alternative energy sources due to limited fossil fuel reserves. Research estimates that at 2009 consumption rates, proven oil reserves would be depleted in 55 years, natural gas in 63 years, and coal in 119 years. While probable and undiscovered reserves may extend these timelines, renewable energy is seen as the long-term solution. Solar energy in particular holds promise as the sun is the most abundant energy source. Photovoltaic solar systems convert sunlight directly into electricity, with global PV capacity increasing from 40 GW in 2010 to 139 GW in 2013. New systems aim to improve solar energy efficiency through the use of sensors, motors and mirrors to optimally position and focus sunlight on solar panels.
This document provides an agenda and overview for the Solarize Syracuse program. It discusses the benefits of community solar programs and outlines the selection of CNY Solar as the installer. Key details include the pricing tiers offered by CNY Solar, information on solar panel basics, the process for getting a solar system installed, and available incentives like the NYSERDA grant. The goal is to help more residents and businesses in the Syracuse area overcome barriers and go solar.
Using renewable energy and using it correctly is the need of the hour. In times like these, Bluebird Solar harnesses the natural energy of the sun and puts it to a better and a greener use. We primarily aim to meet energy demands, provide affordable solar solutions and promote sustainability by harnessing solar energy. Bluebird Solar specializes in manufacturing Voltage Stabilizers, Servo Stabilizers, Constant Voltage Transformers and Isolation Transformers.
We have a dream of sustainably powering the future, the greener the better. Due to the immense rise in cost of non-renewable energy and the possibility of its depletion, increased the demand for renewable resources; solar energy. With this, there are also non-power areas/villages where harnessing solar energy is still a better option than no energy at all. We aim to cover all those areas and spread the green power. Hence, solar energy is one of the best options to go for, as it is something that is never-ending and can provide us with its energy for millions of years to come.
Bluebird Solar aims at spreading brightness with Solar Lanterns and Reading Lights. These serve as a great replacement to non-renewable resources like kerosene lamps. They help in saving money and reducing other polluting hazards. We also specialize in solar home lighting systems where various kits according to your customization are provided. The solar rooftop solutions are the ones which you can easily install and it benefits you for a long time in a better way. We provide off-grid or standalone systems and hybrid systems. All this together makes us your one stop shop for all your solar power needs.
Our solar power products are accompanied by our mission towards a better society. We see a nation with responsible citizens, responsible towards the society and the nature. Creating this environment and a future for sustainability is Bluebird’s major vision!
PakSolar provides renewable energy products and services in Pakistan, including solar energy systems, micro hydropower systems, energy conservation solutions, lighting, and solar pumps. It designs, installs, and maintains solar solutions for homes, businesses, industries, and agriculture. PakSolar specializes in photovoltaic systems, micro hydropower, energy efficiency, wind power, solar water pumps, portable solar kits, and biogas projects. It aims to maximize returns for customers through integrated proposals, equipment procurement, construction, and ongoing maintenance.
Solar Stirling Engine with Solar TrackerImran Butt
The document summarizes a student project to design and build a solar Stirling engine with solar tracker. It includes sections on background, methodology, components, preliminary results showing 520 RPM generation, features such as being environmentally friendly and cheap electricity production, applications, and a conclusion that increasing the size could generate up to 5kw of electricity at low cost. It is presented by 6 students to their internal and external advisors.
REMOTE MONITORING & APPLICATION OF NON-TRADITIONAL ENERGY METHODS TO POWER S...wle-ss
The document discusses using non-traditional energy sources like solar, wind, and Seebeck devices to power remote oil and gas sampling and reporting stations. It notes that Texas is a top producer of both solar and wind energy. The document also discusses using Seebeck devices to harvest energy from pipelines and the potential of hydrogen as a sustainable fuel for powering operations and vehicles.
This seminar project report summarizes a student's research on developing a free energy generator. The objective is to generate electricity without using fossil fuels or other conventional energy sources. Two methods are explored: a mechanical method using motors and generators, and an electronic method using components like inductors and capacitors. Initial results found it can generate power for domestic use but needs more development to improve. Advantages include being eco-friendly and economical. The conclusion is that free energy generation is still under development with potential if further advanced.
This document proposes generating electricity from speed breakers using a rack and pinion mechanism. It outlines the aims to design such a mechanism and investigate power generation from kinetic energy of vehicles passing over speed breakers. The methodology involves creating linear motion from the speed bump that turns pinions connected to a generator to produce electricity. Calculations estimate a daily power generation of 56.45 kW could be achieved. The budget for a prototype is estimated at 25,000 rupees. Successful results could utilize the power at traffic signals and streetlights.
OUC provides electricity and water to over 230,000 customers in central Florida. They have implemented several green initiatives including renewable energy demonstration projects, customer solar programs, and electric vehicle partnerships. Their corporate sustainability plan aims to reduce emissions and waste. Key projects include a 5 MW biomass plant, a 5.91 MW solar farm, a solar production incentive program, and installing over 300 electric vehicle charging stations through a partnership with ChargePoint America. OUC aims to lead the region in adopting renewable energy and electric vehicles.
Similar a solar powered E vehicle presentation with slide (20)
Charging Fueling & Infrastructure (CFI) Program by Kevin MillerForth
Kevin Miller, Senior Advisor, Business Models of the Joint Office of Energy and Transportation gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
EV Charging at MFH Properties by Whitaker JamiesonForth
Whitaker Jamieson, Senior Specialist at Forth, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
Implementing ELDs or Electronic Logging Devices is slowly but surely becoming the norm in fleet management. Why? Well, integrating ELDs and associated connected vehicle solutions like fleet tracking devices lets businesses and their in-house fleet managers reap several benefits. Check out the post below to learn more.
Charging Fueling & Infrastructure (CFI) Program Resources by Cat PleinForth
Cat Plein, Development & Communications Director of Forth, gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
Welcome to ASP Cranes, your trusted partner for crane solutions in Raipur, Chhattisgarh! With years of experience and a commitment to excellence, we offer a comprehensive range of crane services tailored to meet your lifting and material handling needs.
At ASP Cranes, we understand the importance of reliable and efficient crane operations in various industries, from construction and manufacturing to logistics and infrastructure development. That's why we strive to deliver top-notch solutions that enhance productivity, safety, and cost-effectiveness for our clients.
Our services include:
Crane Rental: Whether you need a crawler crane for heavy lifting or a hydraulic crane for versatile operations, we have a diverse fleet of well-maintained cranes available for rent. Our rental options are flexible and can be customized to suit your project requirements.
Crane Sales: Looking to invest in a crane for your business? We offer a wide selection of new and used cranes from leading manufacturers, ensuring you find the perfect equipment to match your needs and budget.
Crane Maintenance and Repair: To ensure optimal performance and safety, regular maintenance and timely repairs are essential for cranes. Our team of skilled technicians provides comprehensive maintenance and repair services to keep your equipment running smoothly and minimize downtime.
Crane Operator Training: Proper training is crucial for safe and efficient crane operation. We offer specialized training programs conducted by certified instructors to equip operators with the skills and knowledge they need to handle cranes effectively.
Custom Solutions: We understand that every project is unique, which is why we offer custom crane solutions tailored to your specific requirements. Whether you need modifications, attachments, or specialized equipment, we can design and implement solutions that meet your needs.
At ASP Cranes, customer satisfaction is our top priority. We are dedicated to delivering reliable, cost-effective, and innovative crane solutions that exceed expectations. Contact us today to learn more about our services and how we can support your project in Raipur, Chhattisgarh, and beyond. Let ASP Cranes be your trusted partner for all your crane needs!
Expanding Access to Affordable At-Home EV Charging by Vanessa WarheitForth
Vanessa Warheit, Co-Founder of EV Charging for All, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
Understanding Catalytic Converter Theft:
What is a Catalytic Converter?: Learn about the function of catalytic converters in vehicles and why they are targeted by thieves.
Why are They Stolen?: Discover the valuable metals inside catalytic converters (such as platinum, palladium, and rhodium) that make them attractive to criminals.
Steps to Prevent Catalytic Converter Theft:
Parking Strategies: Tips on where and how to park your vehicle to reduce the risk of theft, such as parking in well-lit areas or secure garages.
Protective Devices: Overview of various anti-theft devices available, including catalytic converter locks, shields, and alarms.
Etching and Marking: The benefits of etching your vehicle’s VIN on the catalytic converter or using a catalytic converter marking kit to make it traceable and less appealing to thieves.
Surveillance and Monitoring: Recommendations for using security cameras and motion-sensor lights to deter thieves.
Statistics and Insights:
Theft Rates by Borough: Analysis of data to determine which borough in NYC experiences the highest rate of catalytic converter thefts.
Recent Trends: Current trends and patterns in catalytic converter thefts to help you stay aware of emerging hotspots and tactics used by thieves.
Benefits of This Presentation:
Awareness: Increase your awareness about catalytic converter theft and its impact on vehicle owners.
Practical Tips: Gain actionable insights and tips to effectively prevent catalytic converter theft.
Local Insights: Understand the specific risks in different NYC boroughs, helping you take targeted preventive measures.
This presentation aims to equip you with the knowledge and tools needed to protect your vehicle from catalytic converter theft, ensuring you are prepared and proactive in safeguarding your property.
Charging and Fueling Infrastructure Grant: Round 2 by Brandt HertensteinForth
Brandt Hertenstein, Program Manager of the Electrification Coalition gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
4. “
One of the fastest ways to build clean energy
economy is to allow more people to benefit
from it” – Billy Parish AMERICAN ENVIRONMENTAL ENTREPRENEUR,
AUTHOR, AND ACTIVIST
5. Objective
• To make a cleaner and cheap source of energy.
• To convert a diesel engine buggy to a fully electric car
• To make a source of energy which is less dependant on fossil fuels.
• Reduce carbon print by using solar panels and rechargeable acid
batteries.
6. Motivation Of The Project
• British Petroleum report issued in 2013 based on the proven global oil.
• USA environmental Protection Agency Report
• Alternatives are either complete electric cars or solar cars.
• We chose to go with hybrid electric / solar powered vehicle to make it more
practical and realistic.
8. Subsystems
Solar Sub System
Our Solar Sub System
consists of the
following
components:
• Arduino uno R3
• Solar Panel
• LCD
• 12V Lead Batteries
Mechanical Sub System
Our Mechanical Sub System
consists of the following
components:
• Dc Gear motor
11. Summary of the Project
• Fossil Fuels are still considered as an essential and ideal source of
energy.
• Reducing the dependency on fossil fuels is a huge challenge.
• We are utilizing a cleaner source of energy.
• Utilizing electric batteries, Dc Motor and a Solar Panel to charge
the batteries.
12. Conclusion of the Project
• Implementation of Electric Cars .
• Solar Panels can be used in Electric cars to have cleaner
energy, due to abundance of sunlight through out the year.
13. Future Work for the Project
• Improve efficiency by using lighter chassis material.
• Usage of more efficient Solar Panels.
• Usage of Lithium Batteries for better power consumption and
reduction of
weight.