Relevant bibliographies by topics / Portable solar-powered street light

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Portable solar-powered street light'

Author: Grafiati
Published: 2 June 2025
Last updated: 22 June 2025

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Journal articles on the topic "Portable solar-powered street light"

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Savitha, A. C., Vighnesh, gowda H. D. Manoj, Sarika R. K. Amisha, Panith Vinay Krishna Y, and D. Vikas. "Vehicle Sensing Street Light Using Solar Energy." Journal of Scholastic Engineering Science and Management (JSESM), A Peer Reviewed Refereed Multidisciplinary Research Journal 3, no. 12 (2024): 17–21. https://doi.org/10.5281/zenodo.14130492.

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o protect the environment and also to save energy, solar street lights are introduced in urban and rural areas. This paper presents the design and implementation of a smart street lighting system powered by solar panels. The proposed system integrates photovoltaic technology to harness solar energy, providing a sustainable and cost-effective solution for urban and rural lighting needs. By incorporating sensors and IoT connectivity, the street-lights can adapt to varying environmental conditions and human activity, optimizing energy usage and enhancing public safety. The system is designed to automatically adjust brightness levels based on ambient light and pedestrian presence, thereby reducing energy consumption during low-traffic periods. This innovative approach not only lowers operational costs but also minimizes carbon footprint, contributing to environmental conservation. The report details the technical specifications, operational mechanisms, and potential benefits of deploying smart solar-powered street lights in various settings. This is an innovative approach to street lighting by integrating vehicle movement sensing with LED street-lights powered by solar energy. The system aims to reduce energy consumption and improve the efficiency of street lighting. It utilizes motion sensors to detect vehicle movement, thereby illuminating the streets only when necessary. Solar panels provide a sustainable and eco-friendly power source, making the system self-sufficient. The integration of these technologies addresses both environmental and economic concerns associated with traditional street lighting methods.  
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Dr., M. Parameswari, Kowsika A., Priyadharshini M., Priyanka S., and Udhaya Priya M. "DESIGN OF BATTERY SYSTEM FOR SOLAR POWERED STREET LIGHT." International Journal of Advanced Trends in Engineering and Technology (IJATET) 6, no. 1 (2021): 13–16. https://doi.org/10.5281/zenodo.4733016.

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This paper proposes energy efficient of automatic street lighting system based on PIR motion sensor. The main objective is to design energy efficient Smart Street light for energy conservation in existing streetlight. While, the controlling and managing of the system is based on the movement of vehicles and. The system was programmed to automatically turn off during the hours of daylight and only operate during the time when vehicles cross the motion sensor. The system consists of solar panel, battery, PIR sensor, LED light. Many times we see that street lights are remain switched ON even during when no vehicles cross the light, this is lot of wastes of electricity while India is facing lack of electricity. Another thing is that these traditional street lamps e.g. Sodium vapors, Metal halide, Incandescent, Fluorescent lamps consumes more power for a specified Lumen per Watt as compared with new advanced Led Lights. Streetlights can be operated free of cost by using automatic controlled, self-powered, efficient solar LED street light.
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Zang, Li Lin, Shuo Li, and Da Jun Tian. "Energy Saving Analysis of Solar-Powered LED Street Lighting Systems." Advanced Materials Research 490-495 (March 2012): 2254–58. http://dx.doi.org/10.4028/www.scientific.net/amr.490-495.2254.

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The light emitting diode (LED) street lighting systems based on solar photovoltaic technology have been used for some time. In this paper, we present an analysis aiming at assessing the feasibility and economic performance of a solar-powered street lighting system for a 1km road. The present study introduces the architecture of a classical solar-powered LED street lighting system and estimates the total investment cost for a 1 km highway with 2 lanes. The cost comparison of solar-powered LED lighting and sodium lamps using grid was carried out. The calculations show that the energy saving effect of solar-powered LED lighting systems is obvious but the initial investment of solar-powered LED systems is more than sodium lighting systems using grid. The investment cycle is about 2.2 years under the current conditions.
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Agus Setiawan, Sugeng Hadi Susilo, Elka Faizal, and Ratna Monasari. "Training and Installation of Solar Power Public Street Lighting for Karang Taruna at Bareng Village Klojen Malang Districs." International Journal of Community Engagement Payungi 2, no. 1 (2022): 1–6. http://dx.doi.org/10.58879/ijcep.v2i1.15.

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To improve security for residents in the area at ​​Bareng Village Klojen Malang Districts, one of the most important is lighting. The installation of public street lighting is still minimal, so it is far from meeting security and safety standards. In order to ensure the availability of safe and reliable street lighting, training on the assembly of solar-powered street lighting lamps (PJU) was carried out for members of the youth group RT10 RW 08 at Bareng Village Klojen Malang Districs. Prior to the assembly process for street lighting, a brief training was conducted on the assembly of solar-powered PJU light poles and their installation. Hence, they have skills that can be developed people. The result of assistance giving an increasing knowledge and skills of residents of RT10 RW 08 at ​​Bareng Village Klojen Malang Districts. This place in the fabrication and installation of solar-powered PJU lights. In addition, the installation of 3 Solar Powered PJU lights that are safe and reliable, and have an impact on increasing environmental security and residents' activities. Keywords: Solar Power, Public Street Lighting, Installation Solar Power
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Pujotomo, Isworo, and Retno Aita Diantari. "Smart Solar-Powered Street Light Monitoring and Control System." Advanced Science Letters 24, no. 12 (2018): 9675–77. http://dx.doi.org/10.1166/asl.2018.13111.

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Gharat, Suyash. "Solar Powered LED Street Lamps with Automatic On/Off System." INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 05 (2025): 1–9. https://doi.org/10.55041/ijsrem46790.

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ABSTRACT The suggested solar-powered LED street light system offers a budget-friendly and environmentally friendly option for lighting, as it harnesses renewable solar energy to operate continuously, even in remote locations. It incorporates automatic on/off control using ldrs and microcontrollers, By utilizing solar panels, LEDs, batteries, and smart control, the system provides a flexible and environmentally friendly solution for various lighting needs in different locations and public spaces. Keywords: Solar Energy, LED Street Lighting, Renewable Energy, Light Dependent Resistor (LDR), Motion Sensor (PIR Sensor), Microcontroller (Arduino/ESP32), Smart Lighting Systems, Energy Efficiency, Sustainable Urban Infrastructure, Automatic Intensity Control.
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Xu, Xiang, Wei Wang, and Ping Ping Fan. "Finite Element Analysis of a Wind-Solar Hybrid Powered Street Light." Applied Mechanics and Materials 365-366 (August 2013): 201–5. http://dx.doi.org/10.4028/www.scientific.net/amm.365-366.201.

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A finite elementmodel of a 9-meter-high wind-solar hybrid powered street light was established;statics analysis, modal analysis and harmonic response analysis were performedusing ANSYS. Static analysis determined the maximum deformation and stress of astreet light under complex load, and checked its intensity and rigidity. Modalanalysis and harmonic response analysis obtained a vibration mode of a streetlight and its natural frequency of every order. The results of analysesprovided references for the optimization of street light structure.
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Nalawade, Prof Mukund. "Automatic Street Light Control and Management System Using Solar Energy." International Journal for Research in Applied Science and Engineering Technology 11, no. 11 (2023): 2468–73. http://dx.doi.org/10.22214/ijraset.2023.57042.

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Abstract: Electricity waste is a major issue in today's world. The excessive use of electricity by the street lights is one of the main factors in this situation. This undertaking depends on brilliant checking of the streetlamp which will help in lessening the energy utilization issue. In this section, we will make use of a microcontroller, LDR sensor, and IR sensor and solar powered battery pack to automatically turn on and off the street lights whenever they are needed to save power and extend their lifespan. It is suggested that this arrangement could save up to 50% of the energy that is currently used. In comparison to the conventional street lights, this appears to be more cost-effective, sustainable, and efficient
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Nerli, Kiran M. "Smart Solar-Powered Street Lighting with Automated Tracking System Using Arduino." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 02 (2025): 1–9. https://doi.org/10.55041/ijsrem41501.

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The need for more energy-efficient and sustainable urban lighting solutions calls for the development of smart solar-powered street lighting systems. Generally, conventional solar streetlights suffer from low efficiency in energy utilization because the lighting source is of fixed orientation, leading to decreased power generation. The proposed system is a Smart Solar-Powered Street Lighting System with Automated Tracking Mechanism for Arduino, aiming at maximizing solar energy absorption and thus improving energy efficiency.The system uses Light Dependent Resistors (LDRs) for detecting sunlight intensity, and solar panel angle adjustment is done using servo motors. A dual-axis tracking system keeps the panel perpendicular to the sun's rays throughout the day, thus maximizing power generation compared to fixed panels. The Arduino microcontroller processes real-time data from sensors for precise control of panel movement and also adjusts the functioning of LED street lights according to the intensity of ambient light.Experimental results show a 25-40% increase in energy absorption of the tracking system compared to stationary panels, which can now achieve prolonged lighting hours and less battery dependence. It runs automatically, therefore lowering associated maintenance costs, as it offers a cost-effective and scalable system for urban and rural street lighting.This research contributes to sustainable urban infrastructure by integrating automated solar tracking with smart lighting control. Future developments could explore AI-based optimization algorithms for enhanced tracking precision and wireless monitoring systems for real-time performance analysis. The proposed system serves as a viable alternative to conventional street lighting, promoting renewable energy adoption and reducing carbon footprints. Key Words: Smart Solar Street Lighting, Automated Solar Tracking, Arduino-Based System, Energy Efficiency, Renewable Energy.
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Hui, Tan Szi, Chan Jia Huei, Lokman Mohd Fadzil, and Mohamad Khairi Ishak. "Solar Powered LED Street Light with Movement Detection and Intensity Control." International Journal of Electrical and Electronics Engineering 11, no. 9 (2024): 233–39. http://dx.doi.org/10.14445/23488379/ijeee-v11i9p121.

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Dissertations / Theses on the topic "Portable solar-powered street light"

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Yang, Fu-Ling, and 楊富玲. "Design and Implementation of Solar Powered Street Light System." Thesis, 2007. http://ndltd.ncl.edu.tw/handle/42765611753291430530.

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碩士<br>國立彰化師範大學<br>電機工程學系<br>95<br>This thesis adopts the HID xenon lamp with high electro-optic conversion efficiency to replace the traditional mercury lamp which consumes high energy. The solar photovoltaic module is integrated by systematic design and is supported by appropriate deep recycle battery. With the effective storage of controllers and utilization of limited electricity, the most ideal performance design and manufacturing cost are achieved for street lamp to meet the goal of energy saving and environmental protection. To verify practicability of the system, this thesis designs and manufactures a solar photovoltaic street light system. With consideration of the tolerance of continuous raining situation, the 170W solar photovoltaic panel with 3 12V/48AH paralleled lead-acid batteries is applied for solar photovoltaic storage. In addition, 35W high efficiency HID xenon lamp is adopted so that the street lamp can provide appropriate 16.1 Lux illumination at night and save power for the consumption for more than 3 days during cloudy weather. Finally, the result of this study not only verifies the practicability of a HID solar photovoltaic street light system but also provides reference for researchers conducting related studies in the future.
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Book chapters on the topic "Portable solar-powered street light"

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Meem, Sadika Sultana, and Tabassum. "Solar-Powered Smart Street Light and Surveillance System Using IoT." In Applied Informatics for Industry 4.0. Chapman and Hall/CRC, 2023. http://dx.doi.org/10.1201/9781003256069-7.

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Sakamoto, Haruo, and Yoshiya Takemura. "Design and Development of a Self-powered Street Light with Water Power Generator and Solar Cells." In Challenges of Power Engineering and Environment. Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-76694-0_70.

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Ramachandran, Thinaharan, Vasaki Ponnusamy, and Noor Zaman. "Solar Powered Smart Street Light with Maintenance Service System." In Advances in Environmental Engineering and Green Technologies. IGI Global, 2016. http://dx.doi.org/10.4018/978-1-4666-9792-8.ch006.

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Advancement of technology brings advantages to human race to certain extent. Unfortunately, some of the technological inventions not only brings advantages, but also disadvantages. One of the disadvantages is the pollution of carbon emission in the environment from the non renewal energy resources. Therefore, to prevent pollution from getting worse, the environmental-friendly aspect is suggested to be included in new inventions nowadays. Thanks to the invention of solar panel, solar energy is able to become a renewable energy source that can be applied to various applications. Considering the increase of electricity consumption every year in Malaysia, solar powered street lighting system is proposed in order to reduce the burning of fossil fuels to generate electricity, hence reducing air pollution. The proposed street lighting is companied with automatic switching mechanism to further reduce the electricity consumption of street lights. The system will also be able to provide energy measurement to determine the efficiency of street light. Security features like motion detection and camera module interfaced to the street light for surveillance monitoring in a residential area to overcome intruders and crime such as theft. Theft is now major issue in Malaysia and in many developing and developed countries. The news reported that many people lost their belongings due snatch theft and averagely 16 people go missing every day. Overall design of the solar powered street lighting systems with the security features will help people live in green and protected environment. The implementations of client server connection and Remote Method Invocation (RMI) in wireless network system ease the monitoring process of the entire street lights in a residential area for giving continuous service to the community and environment.
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Conference papers on the topic "Portable solar-powered street light"

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Youssouf Kadafi, Said, Hui Lyu, Tebello Pusetso, and Zhang Xusheng. "Design Application of Solar Backpack for African Rural Area Students." In AHFE 2023 Hawaii Edition. AHFE International, 2023. http://dx.doi.org/10.54941/ahfe1004246.

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Access to electricity is a significant challenge in Africa, the impact of which is even greater in schools in isolated rural areas. According to the World Bank, approximately 600 million people (nearly two-thirds of the population) in Sub-Saharan Africa lack access to electricity, leading to difficulties in people’s livelihood, including limited educational opportunities. It has been observed that students living in rural areas take long-distance walks (1h to 2hrs) to school early in the morning and return home after dark with no street lights. Moreover, many students study at night without access of light and electricity. Therefore, this study aims to explore the potential applications and benefits of solar-powered backpacks for African students living in rural areas. The study was conducted in Comoros, at the Mohammadia Community School in the village of Irohe Oichili and the village of Chomoni Oichili where students walk more than 6.5km to get to school. Three hundred and one students were interviewed. The questionnaire was employed to capture necessary data for the solar-powered backpack design and a vivid picture of the importance of this design in Comorian rural communities for students. The parameters within the questionnaire includes families’ financial status, whether electrical power shortage affects the students’ educational performance, whether the solar-powered backpack will benefit the students and so on. The results of the survey showed that 82% of the students came from families with low financial status. 80% of the students reported that electrical power shortage affects their educational performance. 90% of the students reported that they would benefit from using a solar-powered backpack. Therefore, a solar-powered backpack was designed with a solar panel attached to the front of the backpack, and a LED light was attached directly inside the backpack. For the charging facility, the backpack is occupied by a USB port, located on the bag’s exterior, connected to the charge center and the battery, while the battery inside the pack is stored neatly away. The battery provides power to the port through an extension system connected inside the backpack. The prototype was tested, and we found that the average time spent on the school way to charge is 1h48min. The capacity of the battery charged on the way is 36%. The period of usage for studying is 1h30min, and the battery life after usage is 16%. As a result, a solar-powered backpack could provide a convenient, portable and sustainable source of electricity for student living in remote areas who are unable to access the electrical grid. Future work is to update the prototype with an attached solar panel that can be disconnected for better charging when the student enters the classroom or at home.
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Iskandar, Muhammad Aqil Bin, Shuria Saaidin, Suhaili Beeran Kutty, and Murizah Kassim. "Brightness Controlled Solar Powered Intelligent Street Light." In 2023 19th IEEE International Colloquium on Signal Processing & Its Applications (CSPA). IEEE, 2023. http://dx.doi.org/10.1109/cspa57446.2023.10087420.

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Masoud, Mahmoud I. "Street lighting using solar powered LED light technology: Sultan Qaboos University Case Study." In 2015 IEEE 8th GCC Conference and Exhibition (GCCCE). IEEE, 2015. http://dx.doi.org/10.1109/ieeegcc.2015.7060015.

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Ajit, Anu M., and Rajesh Kuttappan Achary. "A Solar Powered Quadratic Boost Converter Fed LED Driver for Street Light Applications." In 2024 1st International Conference on Trends in Engineering Systems and Technologies (ICTEST). IEEE, 2024. http://dx.doi.org/10.1109/ictest60614.2024.10576145.

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Shams, Immad, Prashant Shrivastava, Kok Soon Tey, and Saad Mekhilef. "Design and Implementation of Lithium-Ion Battery Based Smart Solar Powered Street Light System." In 2020 IEEE Energy Conversion Congress and Exposition (ECCE). IEEE, 2020. http://dx.doi.org/10.1109/ecce44975.2020.9235608.

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Archibong, Ekaette Ifiok, Simeon Ozuomba, and Etinamabasiyaka Ekott. "Internet of Things (IoT)-based, Solar Powered Street Light System with Anti-vandalisation Mechanism." In 2020 International Conference in Mathematics, Computer Engineering and Computer Science (ICMCECS). IEEE, 2020. http://dx.doi.org/10.1109/icmcecs47690.2020.240867.

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Ahmed, Sanjana, Ahmed Hosne Zenan, Nisat Tasneem, and Mosaddequr Rahman. "Design of a solar powered LED street light: Effect of panel's mounting angle and traffic sensing." In 2013 IEEE Conference on Sustainable Utilization and Development in Engineering and Technology (CSUDET). IEEE, 2013. http://dx.doi.org/10.1109/csudet.2013.6670990.

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LePage, Will S., Kyle B. Hampton, Bradford H. Johnson, Kevin J. Mayer, John M. Henshaw, and Gordon H. Purser. "Design and Development of a Portable Off-Grid Water Chlorination System." In ASME 2011 International Mechanical Engineering Congress and Exposition. ASMEDC, 2011. http://dx.doi.org/10.1115/imece2011-63838.

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The design and fabrication of a portable water chlorination system is described. The backbone of the system is a custom-designed, efficient, and easily operated chlorine electrolysis cell. The cell produces concentrated hypochlorous acid (HOCl), a form of chlorine that readily kills harmful pathogens in untreated water. The cell is fabricated from durable yet inexpensive materials and requires only two inputs: (1) 12 volts of direct current, which can be supplied with standard car batteries that are commonplace worldwide, and (2) 800 milliliters of 0.43 molar sodium chloride solution, which can be substituted with seawater. The system was first tested in the laboratory under controlled conditions. The cell was powered for 70 minutes and samples of the solution were taken in 10-minute intervals. The hypochlorite ion (OCl−) concentration was measured with a UV-visible light spectrophotometer. The results show that the cell produces enough hypochlorite in one hour to disinfect up to 1500 liters of clear surface water or 750 liters of turbid water. Successful laboratory test results led to field tests utilizing a solar photovoltaic power supply. Preliminary results of these tests are presented.
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Chambers, Justin R., Andrew D. Lowery, and James E. Smith. "Collapsible Wind Powered Energy Generation and Storage Device." In ASME 2015 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/imece2015-51816.

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The described research is a light weight, inexpensive portable and collapsible wind turbine, small enough to be carried in a backpack, ruck sack or within the storage compartment of a vehicle, which can be used to recharge batteries and provide off-site, emergency, or campsite power. As a means to extend the battery life of electronic equipment while moving away from the power grid and extra battery storage, a power generating unit is needed. Current approaches are to carry the anticipated number of spare batteries, to use solar cells or any number of small generating thermionic devices. While each of these have a place in the market, they also have negative cost, size, and weight drawbacks. The objective of this research is to create a power generating/storage wind turbine device for recreational, emergency, and military use that can easily be collapsed and transported as needed. The device is a lightweight, collapsible wind turbine constructed of rugged materials to be used on camp sites, remote locations etc. and carried within a pack for travel. It is of a size and weight to be part of an emergency or survival pack. The wind turbine, in its preferred embodiment, is a self-starting/sustaining device that starts at low wind speeds so no monitoring or priming of the device is necessary. In addition to the novelty of it being collapsible, the wind turbine device employs advanced features to increase its wind energy capture efficiency and its energy storage and delivery system, along with unique design features that make it rugged, lightweight and easily assembled.
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Sakamoto, Haruo. "Small-Sized Wind Power Generator Using Nd-Fe-B Permanent Magnets." In ASME 2007 International Mechanical Engineering Congress and Exposition. ASMEDC, 2007. http://dx.doi.org/10.1115/imece2007-43662.

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Today, clean or renewable energy is highly demanded for realization of the sustainable earth. The most promising methods among renewable energies are wind power, solar, water power, and biomass energies. They need to apply generators except for a solar energy case. The first study for development of generators was product dissection of eight different generators, which resulted that there seem no rule for the most suitable design approach. They include 4 wind power, two water, and 2 vehicle generators. In such dissected 8 generators there are all different coil number, magnet number, way of coil winding, phase for coil connection, and etc. Starting the study of disk-shape rotor with magnets in the outer periphery, the capability of power generator was studied, and it resulted that it is not sufficient. As a second step, an axial gap type generator was investigated using rare-earth permanent magnets and core-less coils for both face sides for coil assembly. The first objective of this research is to establish an effective wind power generator, which should be useful even under a weak wind condition like at a ground level. The idea of core-less coil (without pulling against each other between coils and magnets) is to obtain easy rotation in the area where is not so strong wind blow condition. The second objective of this research is to establish a hybrid wind and solar power energy system. The system is considered to be used in the case of disaster event such as an earthquake occurrence. Because big earthquakes are expected in the coming 30–40 years with the probability of 40–50% in the south part of Japan, the self-powered lights need in such a disaster occurrence case. Although wind power generators are effective at mountainous areas, we think we need to consider to apply a wind power generator in populated areas. Combining a wind power generator with a solar cell, a self-powered street light can be utilized. In the following, the design and development of generator and a possibility of the hybrid system by wind power and solar cell are reported.
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