Relevant bibliographies by topics / Flexible solar panel

Contents

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

Academic literature on the topic 'Flexible solar panel'

Author: Grafiati
Published: 4 June 2021
Last updated: 3 February 2022

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Journal articles on the topic "Flexible solar panel"

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Budiyanto, Budiyanto, and Hery Setiawan. "Analisa Perbandingan Kinerja Panel Surya Vertikal Dengan Panel Surya Fleksibel Pada Jenis Monocrystalline." RESISTOR (Elektronika Kendali Telekomunikasi Tenaga Listrik Komputer) 4, no. 1 (May 22, 2021): 77. http://dx.doi.org/10.24853/resistor.4.1.77-86.

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Permasalahan utama dari solar cell adalah perbedaan jenis solar cell yang mengakibatkan perbedaan kinerja pada solar cell tersebut. Besarnya daya keluaran yang dihasilkan relatif tidak konstan karena dipengaruhi oleh besarnya intensitas matahari serta suhu lingkungan di sekitarnya. Untuk mengatasi masalah tersebut maka tugas akhir ini dirancang untuk melakukan perbandingan panel surya monocrystalline jenis vertikal dan jenis fleksibel.Pada hasil pengujian dengan pencahayaan matahari panel surya fleksibel menghasilkan efisiensi lebih tinggi dibanding dengan panel surya vertikal, yaitu 20,8774%, sedangkan panel surya vertikal meghasilkan efisiensi sebesar 19,2844%. Dalam penggunaan simulasi pencahayaan lampu panel surya vertikal menghasilkan efisiensi yang cukup tinggi dan lebih tinggi dibanding panel surya fleksibel, yaitu 20,4818% sedangkan panel surya fleksibel menghasilkan efisiensi sebesar 16,4044%. Pada panel surya fleksibel dengan bentuk cembung 25° menghasilkan efisiensi sebesar 15,3200. Pada bentuk cekung 25° menghasilkan efisiensi 15,6265%.The main problem with solar cells is the different types of solar cells that result in differences in the performance of the solar cell. The amount of output power produced is relatively not constant because it is influenced by the intensity of the sun and the temperature of the surrounding environment. To overcome this problem, this final project is designed to compare the vertical and flexible monocrystalline solar panels. In the test results with solar lighting, flexible solar panels produce higher efficiency than vertical solar panels, which is 20.8774%, while vertical solar panels resulted in an efficiency of 19.2844%. In the use of simulated lighting, vertical solar panel lights produce high and higher efficiency than flexible solar panels, namely 20.4818%, while flexible solar panels produce an efficiency of 16.4044%. In a flexible solar panel with a convex shape of 25° it produces an efficiency of 15.3200. In the concave shape of 25° it produces an efficiency of 15.6265%.
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Xu, Rui, Dong Xu Li, and Jian Ping Jiang. "Fuzzy Vibration Control of Flexible Solar Panel Using Piezoelectric Stack." Applied Mechanics and Materials 50-51 (February 2011): 214–18. http://dx.doi.org/10.4028/www.scientific.net/amm.50-51.214.

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To effectively suppress vibrations of the flexible solar panel, the fuzzy logic control with piezoelectric smart structure is studied. The bending moment induced in the solar panel by the PZT stack actuator is formulated. The dynamical equations of the solar panel are derived. A fuzzy logic controller which uses universal fuzzy sets is designed. Considered the characteristic of the PZT stack, only positive control voltages were loaded to it. The finite element method simulation results demonstrate that the fuzzy logic controller can suppress the vibrations of the flexible spacecraft solar panel effectively.
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Wang, Nabawy, Cioncolini, and Revell. "Solar Panels as Tip Masses in Low Frequency Vibration Harvesters." Energies 12, no. 20 (October 9, 2019): 3815. http://dx.doi.org/10.3390/en12203815.

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Tip masses are used in cantilevered piezoelectric energy harvesters to shift device resonance towards the required frequency for harvesting and to improve the electric power generation. Tip masses are typically in the form of concentrated passive weights. The aim of this study is to assess the inclusion of solar panels as active tip masses on the dynamics and power generation performance of cantilevered PVDF (polyvinylidene fluoride)-based vibration energy harvesters. Four different harvester geometries with and without solar panels are realized using off-the-shelf components. Our experimental results show that the flexible solar panels considered in this study are capable of reducing resonance frequency by up to 14% and increasing the PVDF power generated by up to 54%. Two analytical models are developed to investigate this concept; employing both an equivalent concentrated tip mass to represent the case of flexible solar panels and a distributed tip mass to represent rigid panels. Good prediction agreement with experimental results is achieved with an average error in peak power of less than 5% for the cases considered. The models are also used to identify optimum tip mass configurations. For the flexible solar panel model, it is found that the highest PVDF power output is produced when the length of solar panels is two thirds of the total length. On the other hand, results from the rigid solar panel model show that the optimum length of solar panels increases with the relative tip mass ratio, approaching an asymptotic value of half of the total length as the relative tip mass ratio increases significantly.
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Nguyen, The Luong. "Effects of Using Nitrile Rubber Foam and Solar Panels on Cover for Cooling Outdoor Sparking Car." Applied Mechanics and Materials 889 (March 2019): 371–78. http://dx.doi.org/10.4028/www.scientific.net/amm.889.371.

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In the summer, the cars are exposed to strong sun when it is parked outdoor without the sunscreen, it has had accelerated the auto parts, interior aging and damage. In order to prevent that exposure, the solutions showed such as car awning, car sunshade and car sunscreen etc…, the above devices showed low effectivity for car sun protection. This paper will study effects of cooling system for outdoor sparking car using solar panels cover. A new covering car with multi-layers structure attaching flexible solar panels were designed to increase effectively sun protection, the nitrile rubber foam divided the light and heat radiation of the sun, the flexible solar panel converted solar energy into electric energy and supplied for the air conditioner to regulate inside car temperature. The results showed that, at nitrile rubber foam layer thickness of 4mm, the car maximum temperature of 41.5°C was observed for solar panel-awning-nitrile rubber cover which is much lower than it is exposed directly by sun radiation and commercial cover. The six solar panels (100W) were adapted on car cover, the solar electric energy supplied enough for a mini air conditioner of 340W. Performance of cooling system using solar panels was also investigated and it showed that the temperature inside car could be down to 24°C.
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Rukman, Nurul Shahirah, Ahmad Fudholi, Putri Adia Utari, Cheku Nurul Aisyah, Andri Joko Purwanto, Rakhmad Indra Pramana, Erie Martides, et al. "Bi-fluid cooling effect on electrical characteristics of flexible photovoltaic panel." Journal of Mechatronics, Electrical Power, and Vehicular Technology 12, no. 1 (July 31, 2021): 51–56. http://dx.doi.org/10.14203/j.mev.2021.v12.51-56.

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A photovoltaic (PV) system integrated with a bi-fluid cooling mechanism, which is known as photovoltaic thermal (PVT) system, was investigated. The electrical characteristics of flexible solar panel were evaluated for PV and PV with bi-fluid (air and water) cooling system. The integration of monocrystalline flexible solar panel into both systems was tested under a fixed solar radiation of 800 W/m2. A total of 0.04–0.10 kg/s of air flow was utilised in PV with cooling system with a fixed water mass flow rate of 0.025 kg/s. The efficiencies of flexible panel for PV and PV with cooling system were explored. For PV with bi-fluid flow, the highest obtained efficiency of module was 15.95% when 0.08 kg/s of air and 0.025 kg/s of water were allowed to flow through the cooling system. Compared with PV without cooling mechanism, the highest efficiency of module was 13.35% under same solar radiation. Current–voltage and power graphs were also plotted to present the electrical characteristics (current, voltage and power) generated by both systems.
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FUKUDOME, Hiroyuki, Kazuma SEKIKAWA, and Hironori FUJII. "238 Vibration Control of Flexible Solar Panel by Tether Tension." Proceedings of the Dynamics & Design Conference 2004 (2004): _238–1_—_238–5_. http://dx.doi.org/10.1299/jsmedmc.2004._238-1_.

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Ma, G., M. Xu, J. Tian, and X. Kan. "The vibration suppression of solar panel based on smart structure." Aeronautical Journal 125, no. 1283 (June 22, 2020): 244–55. http://dx.doi.org/10.1017/aer.2020.51.

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ABSTRACTThis paper provides a solution to the active vibration control of a microsatellite with two solar panels. At first, the microsatellite is processed as a finite element model containing a rigid body and two flexible bodies, according to the principles of mechanics, and that the dynamic characteristics are solved by modal analysis. Secondly, the equation involving vibration control is established according to the finite element calculation results. There are several actuators composed of macro fibre composite on the two solar panels for outputting control force. Furthermore, the control voltage for driving actuator is calculated by using fuzzy algorithm. It is clear that the smart structure consists of the flexible bodies and actuators. Finally, the closed-loop control simulation for suppressing harmful vibration is established. The simulation results illustrate that the responses to the external excitation are decreased significantly after adopting fuzzy control.
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SHEN, ZHENXING, and GENGKAI HU. "THERMALLY INDUCED VIBRATIONS OF SOLAR PANEL AND THEIR COUPLING WITH SATELLITE." International Journal of Applied Mechanics 05, no. 03 (September 2013): 1350031. http://dx.doi.org/10.1142/s1758825113500312.

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A coupled thermal-structural model of a laminated composite plate is proposed by using the absolute nodal coordinate formulation, the transverse shear and normal deformations through element thickness are included. The dynamic equations of structure are established by applying the d'Alembert's principle and then solved numerically to determine dynamic responses and transient heat conduction in the structure due to the nonlinear elastic force and thermal radiation. A cantilevered flexible solar panel subjected suddenly to a solar radiation is examined, it is found that by considering the coupling between the thermal and structural responses, thermal flutter of the composite panel can be well predicted. The coupled behavior of the composite solar panel with a satellite is also analyzed by idealizing it as a rigid-flexible multibody system in the low earth orbit, in which a natural coordinate formulation is established to analyze the attitude of the satellite rigid hub, the thermal snap phenomenon is also well predicted.
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Mikhaylenko, L. A., V. V. Ustimenko, and A. V. Chubar. "Designing a control system for the orientation of solar panels in the dynamic simulation environment of SimInTech technical systems." Spacecrafts & Technologies 4, no. 3 (September 2020): 178–85. http://dx.doi.org/10.26732/j.st.2020.3.06.

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The energy efficiency of solar panels is largely determined by the accuracy of their orientation to the Sun. The article presents the results of the development of a software control system for the orientation of the solar panel, depending on the geographical location and calendar date. The system model is implemented in the environment of dynamic modeling of SimInTech technical systems and includes a model of a complex of electromechanical devices for solar panel orientation, a discrete PID controller and a software control unit, which are implemented on the basis of standard SimInTech blocks and submodels. The panel orientation system allows to change the coordinates of the azimuth and location that determine the orientation of the panel in three-dimensional space and control them according to a given program. The system is implemented as a package of projects that interact through a common signal base, which provides information exchange between projects, making the system model flexible and universal. The result of the control system is presented in the 3D module of the visual editor, which allows you to visually track the results of management and the efficiency of equipment use. To confirm the quality indicators of the orientation control of the solar panel the percentage of the received energy capacity is calculated.
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Ovchinnikov, M. Yu, S. S. Tkachev, D. S. Roldugin, A. B. Nuralieva, and Y. V. Mashtakov. "Angular motion equations for a satellite with hinged flexible solar panel." Acta Astronautica 128 (November 2016): 534–39. http://dx.doi.org/10.1016/j.actaastro.2016.07.038.

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Dissertations / Theses on the topic "Flexible solar panel"

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Fernández, Bravo Elena. "Modelling and testing of a solar panel structure for KNATTE (Kinesthetic Node and Autonomous Table-Top Emulator)." Thesis, Luleå tekniska universitet, Institutionen för system- och rymdteknik, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-87200.

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One of the challenges that satellites face is the interaction between control movement and vibration of flexible appendages such as solar arrays and antennas that can negatively affect the performance of the spacecraft. The aim of this thesis is to develop a numerical model of a solar panel structure for KNATTE, a frictionless platform developed by the Onboard Space Systems group at Luleå University of Technology, and develop a control law that reduces the flexible vibration of the solar arrays when attitude control manoeuvres are performed. A set of solar panel structures have been designed and tested, the mathematical model of the multibody system, which consists of KNATTE and two flexible solar panels, has been developed in MATLAB by applying the finite element method. A finite element analysis has been performed in MATLAB to extract the natural frequencies of the system. The model has been numerically verified using a commercial software, and experimentally verified by performing testing on the frictionless vehicle, KNATTE, equipped with the solar panel structures and a number of piezoelectric sensors. Once the model has been verified, a Linear Quadratic Gaussian (LQG) controller has been developed using the results from the finite element model in order to reduce the amplitude of the vibrations of the flexible solar panel structure. The behaviour of the system has been simulated when the spacecraft performs an attitude manoeuvre. The finite element model provides the modal behaviour of the multibody system, obtaining its natural frequencies with low relative error. The LQG controller reduces the amplitude of the vibrations of the flexible solar panel structure.
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Hampl, Petr. "Design pouliční svítilny s nezávislým napájením." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2009. http://www.nusl.cz/ntk/nusl-228418.

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Oblast problémů, ze kterých konkrétní téma projektu vychází, zahrnuje současnou globální transformaci zdrojů energie a jejich dodávek se zvláštní pozorností na obnovitelné zdroje energie. Důraz je kladen zejména na hodnoty jež přináší produkt určený k užívání ve veřejných prostorách. Autorovým zadáním bylo navrhnout osvětlovací jednotku nezávislou na vnějším zdroji napájení. Cílem návrhu je přehodnotit způsob, jakým jsou dnes technologie využívání sluneční a větrné energie běžně používány, a navrhnout řešení přinášející nové vlastnosti a užitné hodnoty pro přímého uživatele i celou společnost. Autor přináší návrh produktu jenž je reakcí na současné globální hrozby a příležitosti. Výsledkem projektu je návrh pouliční lampy kombinující fotovoltaický článek a větrnou turbínu s cílem získat elektrickou energii jež je dočasně akumulována a následně dodávána svítidlu. V návrhu je kladen důraz na požadavky ergonomie a estetickou hodnotu produktu. Navržené řešení znamená finanční přínos z hlediska šetření neobnovitelnými zdroji energie a případnými finančními výhodami pro investora plynoucími z provozování veřejného osvětlení. Pouliční lampa nezávislá na vnějším zdroji napájení má navíc menší negativní dopad na životní prostředí a představuje technologie využívání větrné a solární energie v přívětivé a nerušivé podobě.
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Zhang, Jin. "Low-Cost Industrial Manufacturing of CIS-Based Flexible Solar Panels Using Roll-to-Roll Technology." Thesis, The University of Arizona, 2012. http://hdl.handle.net/10150/244825.

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Harnessing the power of the sun through photovoltaic cells is a new area of research and development and may hold the key to sustainable energy on earth. Currently, solar cells and panels with high efficiencies have been successfully created on a laboratory scale. However, in order for solar panels to be marketable and serve as a realistic replacement for current energy sources, a large-scale, high-throughput, and low-cost production system must be devised that is competitive with very cheap fossil fuels that currently dominate the market. The goal of this project is to mass scale the production and manufacturing of inorganic solar cells using cost-effective, roll-to-roll printing methods. Annually, 676 MW of power will be produced, representing 71% of the total US market share for photovoltaic technology, and sold to market at the price of $1/Watt. The design of the solar cell is based on a CuInS₂ absorber layer, ZnS buffer layer and ZnO and ZnO:Ga window layer. The film is printed on a flexible aluminum substrate, 20 inches wide, at a continuous rate of 100 ft/min and a silver-based metal contact is deposited on top. Over the project lifetime, a net present value assuming a 15% nominal interest of $1.7 billion is anticipated.
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Maninnerby, Henrik. "Simulering av ett elnät med hänsyn till förnybar energi : En studie av möjliga lösningar på problemet med fler elbilar i elnätet." Thesis, Karlstads universitet, Institutionen för ingenjörsvetenskap och fysik (from 2013), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-68306.

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The purpose of this thesis is to simulate different scenarios where all vehicles are replaced by electric vehicles in the future.   An addition of electric vehicles to the electric grid is not easy to handle, especially not if the consumers choose to charge their vehicles with higher power. As can be seen in the results of this report, flexible demand through power management is a good option to reduce overall power consumption. Of course, customers will have to agree to that their consumption is controlled in this manner.   Using solar cells during the summer works well, but it’s harder wintertime as the largest electric demands arise during the night, when there is close to no sunlight. However, in the case of batteries, they may be helpful. Possibly by letting the solar cells charge the battery during the day and then use it to help charge the electric vehicle during the night. Unfortunately, it was not possible to include this scenario as the used software was unable to handle batteries in that way.   By completely replacing the heat source, in this case with district heating, and thus releasing available power in the transformer, turned out to be the best option. In this way, virtually all predicted amounts of electric cars could be charged with optional charging strength between 3.7 and 11 kW.   As for the T422 transformer, there is no choice but to replace it if a larger number of electric vehicles wants to start charging there. At present, it can handle a maximum of 10-20 electric vehicles that charge at the lowest power as there is only about 50 kW available there winter time. District heating cannot be applied either as the connected customers do not use electric heating.
Detta arbete har till syfte att simulera olika scenarier i ett område där samtliga fordon ersätts av elbilar i framtiden.   En tillkomst av elbilar i elnätet är inte lätt att hantera, speciellt inte om kunderna i nätet väljer att ladda med högre effekt. Vilket kan ses i resultatet i denna rapport, är flexibel förbrukning genom effektstyrning ett bra alternativ för att sänka den totala effektförbrukningen. Fast det gäller då givetvis att kunderna går med på att förbrukningen styrs på detta sätt.   Att använda solceller fungerar bra sommartid, men vintertid är det värre, då det största elbehovet uppstår på natten, när det inte är lika stor solljustillgång. I samband med batterier kan de dock vara till hjälp. Möjligen genom att låta solcellerna ladda upp batteriet under dagen och sedan använda det för att hjälpa till att ladda elbilen under natten. Dessvärre var det inte möjligt att simulera detta scenario på grund av brister i mjukvaran som användes.   Att helt ersätta värmekällan, i detta fall med fjärrvärme, och därmed frigöra effekt i transformatorn visade sig däremot vara det bästa alternativet. På så sätt kunde i stort sett samtliga mängder elbilar laddas med valfri laddningsstyrka mellan 3,7 och 11 kW.   Vad gäller transformator T422, ses inget annat val än att byta ut den om ett flertal elbilar ska börja ladda där. I nuläget klarar den av högst 10-20 elbilar som laddar på lägsta effekt eftersom det endast finns ca 50 kV tillgängligt vintertid. Fjärrvärme kan inte användas där heller som komplement då de tillkopplade kunderna inte använder elektrisk uppvärmning.
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Book chapters on the topic "Flexible solar panel"

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Mistry, Uren, Nidhi Panchal, Ujas Modi, Chetan O. Yadav, and P. V. Ramana. "Development of Flexible Solar PV Panel Cleaning System." In Advances in Engineering Materials, 603–13. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-6029-7_56.

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Tanwar, Mangila Prasad, Anshul Agarwal, and Abhishek Mishra. "Output Power Enhancement by Flexible Solar Panel with Optimal Solar Field." In Lecture Notes in Electrical Engineering, 1233–42. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-6772-4_108.

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Fu, Peihua, Jiachen Zhang, Yunhong Huang, Chenghua Ding, Yongjie Zhang, and Wanliang Zhao. "Research on Flexible Interference Suppression Technology for Large Solar Panel of Spacecraft." In Advances in Intelligent Systems and Computing, 153–60. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-1843-7_20.

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Shi, Chaoyi, and Yong Wang. "Decoupled Tracking Control for a Flexible Multi-body Satellite with Solar Panels and Manipulator." In Proceedings of 2016 Chinese Intelligent Systems Conference, 529–40. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-2335-4_48.

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Nicolescu, Adrian Florin, George Enciu, Tiberiu Gabriel Dobrescu, and Georgia-Cezara Avram. "Flexible Manufacturing Cells for Wafer Manipulation and Control in Solar Panel Manufacturing." In Proceedings of the 23rd International DAAAM Symposium 2012, 0583–86. DAAAM International Vienna, 2012. http://dx.doi.org/10.2507/23rd.daaam.proceedings.137.

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Sivagami, Arasu, Michael Angelo Kandavalli, and Bhaskarrao Yakkala. "Design and Evaluation of an Automated Monitoring and Control System for Greenhouse Crop Production." In Next-Generation Greenhouses for Food Security. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.97316.

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An embedded system integrated with sensors based on nanomaterial is proposed for closely monitoring and control microclimate parameters 24 hours a day to maximise production over the whole crop growth season by introducing greenhouse for the cultivation of plants or specific plant species. The system will also eliminate errors in human intervention to optimise production of crops. This system consists of sensors and actuators, an Analogue to Digital Converter (ADC) and a Raspberry Pi. The system will determine whether a defined threshold is passed by any climate parameter and systematically changes via the controller. The current work reduces human input through automated irrigation to optimally utilize a scarce resource, namely water. Climatic parameters for plant growth such as, moisture, humidity, temperature, water pressure in drip pipe, soil salinity etc. are monitored and optimized. Furthermore, work was extended to include GSM to control the entire farm remotely. For its success, it is very important to choose a greenhouse location. For instance, the problems are quite different when choosing an adjoining greenhouse, for instance a sunroom or greenhouse. The greenhouse location should be chosen for sunlight, proximity to power and water sources, wind, drain and freeze pockets, and the proximity of the garden and house. The intention behind accomplishment and devise of GSM based Fertigation System is to construct and evaluate the requirement of water in the yield as farming is the major resource of production which habitually depends on the water accessibility. Irrigation of water is usually done by manual method. To ease the work of the farmer GSM based automatic Fertigation (includes chemigation too) system can be implemented so that water wastage can be reduced and also the fertilizer can be added accordingly. Also the Soil Salinity can be checked and reduced if exceeds certain limit. By using GSM, only GSM command via GSM mobile can control the start and stop action of a motor that feeds the field with the water. GSM is used for controlling the entire process and the entire system backbone. It can be used from any distance to control irrigation. The results are assessed by electronic simulator PROTEUS using the desired optimised parameters, the design of this automated greenhouse system with PIC controller. As the inputs to the microcontroller and as an LCD screen record the respective outputs, the model produces a soil moisture sensor, light sensor and temperature sensor. The system performance is accurate and repeatable for measuring and controlling the four parameters that are crucial for plant growth - temperature, humidity, soil moisture and light intensity. With the reduction in electricity consumption, maintenance and complexity, and a flexible and precise environment control form for agriculture, the new system successfully cured quite a couple of defects in existing systems. Nano composite film sensors (Graphene and Graphene mixed in order to optimise the input of fertilisers for chemical composition determination. Using nano technology in agriculture enforces the firm bond between the engineer and farmer. Nano material film-based gas sensors were used to measure the presence of oxygen and CO2.using graphene nano composite sensors integrated into an embedded system, to detect the presence and levels of gases. Improve crop growth with combined red and blue light for lighting under the leavened and solar-powered LED lighting modules. This was achieved by graph/solar cells. The light was measured at the photosynthesis flux (PPFD) of 165 μmol m-2 s-1 by 10 cm of its LED module. LED lights were provided between 4:00 a.m. and 4:00 p.m. in the daytime treatments and night treatments from 10 to 10 hours. The use of the nighttime interlumination of LEDs was also economical than the interlumination of charts. Thus, nightlighting LEDs can effectively improve plant growth and output with less energy than the summer and winter times. Solar panels are best functioning during times of strong sunlight today, but begin to wan when they become too hot and cloudy. By allowing Solar Panels to produce electricity during harsh weather conditions and increase efficiency, a breakthrough in graphene-based solar panels can change everything. Ultimately with a fully autonomous system, agricultural productivity and efficiency, the length of the growing season, energy consumption and water consumption were recorded and monitored by exporting the data over GSM environment. With the steady decrease in the cost of high-performing hardware and software, the increased acceptance of self-employed farming systems, and the emerging agricultural system industry, the results will be reliable control systems covering various aspects of quality and production quantity.
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Conference papers on the topic "Flexible solar panel"

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Fujii, Hironori A., Hiroyuki Fukudome, and Kazuma Sekikawa. "Vibration Control of Flexible Solar Panel by Tethe..." In 56th International Astronautical Congress of the International Astronautical Federation, the International Academy of Astronautics, and the International Institute of Space Law. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2005. http://dx.doi.org/10.2514/6.iac-05-c2.p.23.

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Xenophontos, Antony, Jonathan Rarey, Anthony Trombetta, and Ali M. Bazzi. "A flexible low-cost photovoltaic solar panel emulation platform." In 2014 IEEE Power and Energy Conference at Illinois (PECI). IEEE, 2014. http://dx.doi.org/10.1109/peci.2014.6804542.

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Quadri, Imran Ahmad, Shivanshu Rastogi, Shreyank Dwivedi, and Md Sarwar. "Innovative approach for power and voltage improvement of flexible solar panel." In 2016 IEEE 1st International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES). IEEE, 2016. http://dx.doi.org/10.1109/icpeices.2016.7853532.

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Li, Lijun, and Liang Tang. "Modeling of spacecraft with flexible solar panel considering thermally induced motion." In 2016 12th World Congress on Intelligent Control and Automation (WCICA). IEEE, 2016. http://dx.doi.org/10.1109/wcica.2016.7578437.

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Sei, Rissyu, Toshiaki Yachi, Yoichi Hirata, and Yasuyuki Watanabe. "Power generation estimate of flexible PV Panel for a solar matching house." In 2017 IEEE 6th International Conference on Renewable Energy Research and Applications (ICRERA). IEEE, 2017. http://dx.doi.org/10.1109/icrera.2017.8191285.

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Hu, S. D., H. Li, and H. S. Tzou. "Distributed Actuation Effectiveness of Flexible Parabolic Cylindrical Panels." In ASME 2012 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/detc2012-70886.

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Abstract:
Open parabolic cylindrical panel plays a key role in radial collection and transmission applied to radar antennas, space reflectors, solar collectors, etc. Piezoelectric active vibration control can suppress unexpected fluctuation and maintain precision surface and operations. This study aims to investigate the distributed actuation behavior of adaptive open parabolic cylindrical panels using piezoelectric actuator patches. Motion equations of parabolic cylindrical panels laminated with a piezoelectric patch is presented first. Then, the actuator induced modal control force is derived with an assumed mode shape function. As the area of actuator patch varies due to the curvature change, the normalized actuation effectiveness (i.e., modal control force divided by actuator area) is further evaluated. When the actuator area shrinks to infinitesimal, the expression of microscopic point modal control force is obtained to theoretically predict the actuation distribution behavior. The actuation behaviors of the total control force and its components exhibit distinct characteristics with respect to shell geometries, modes and actuator properties. Analyses show that the control force component contributed by the membrane force dominates the total control effect. The bending-contributed component increases with corresponding vibration mode number, while the membrane-contributed component decreases. Three shell geometries from shallow to deep are evaluated in case studies. Analysis of optimal actuator location shows that actuators are preferred to locate where the curvature of shell panel is larger in order to maximize the control effectiveness.
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Scheepers, Gerhard, Reza Malekian, Dijana Capeska Bogatinoska, and Biljana Risteska Stojkoska. "A low-power cost-effective flexible solar panel powered device for wireless livestock tracking." In 2017 25th Telecommunication Forum (TELFOR). IEEE, 2017. http://dx.doi.org/10.1109/telfor.2017.8249349.

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Li, Lijun, and Jun Yuan. "Analysis and modeling of spacecraft with flexible solar panel disturbed by thermally induced motion." In 2014 33rd Chinese Control Conference (CCC). IEEE, 2014. http://dx.doi.org/10.1109/chicc.2014.6896039.

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Al-Adhami, Yasir, and Ergun Ercelebi. "A Compact Ultra-thin Flexible Solar Panel based Metamaterials Characterizations for Self-Powered Wireless Systems." In 2018 Third Scientific Conference of Electrical Engineering (SCEE). IEEE, 2018. http://dx.doi.org/10.1109/scee.2018.8684161.

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DongXu Li, Wang Liu, and JianPing Jiang. "The influence of orbital motion of flexible space vehicle on the dynamic traits of solar panel." In 2011 International Conference on Communications, Computing and Control Applications (CCCA). IEEE, 2011. http://dx.doi.org/10.1109/ccca.2011.6031207.

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Reports on the topic "Flexible solar panel"

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Xiang, Chunhui, Mashud Alam, Sameul R. Vande Loo, Nicholaus G. Steffensmeier, and Ran Dai. Characterization of Flexible Solar Panels for sustainable smart solar powered apparel. Ames: Iowa State University, Digital Repository, 2017. http://dx.doi.org/10.31274/itaa_proceedings-180814-323.

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