Energy harvesting (original) (raw)
حصاد الطاقة هو العملية التي يتم من خلالها الحصول على الطاقة من مصادر خارجية مثل الطاقة الشمسية والطاقة الحرارية وطاقة الرياح وتدرجات الملوحة والطاقة الحركية، والمعروفة أيضًا باسم (الطاقة المحيطة)، والتقاطها وتخزينها للأجهزة اللاسلكية الصغيرة المستقلة، مثل تلك المستخدمة في الالكترونيات وشبكات الاستشعار اللاسلكية.
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| dbo:abstract | حصاد الطاقة هو العملية التي يتم من خلالها الحصول على الطاقة من مصادر خارجية مثل الطاقة الشمسية والطاقة الحرارية وطاقة الرياح وتدرجات الملوحة والطاقة الحركية، والمعروفة أيضًا باسم (الطاقة المحيطة)، والتقاطها وتخزينها للأجهزة اللاسلكية الصغيرة المستقلة، مثل تلك المستخدمة في الالكترونيات وشبكات الاستشعار اللاسلكية. (ar) Pojem energy harvesting lze volně přeložit jako získávání energie, ovšem v praxi se používá anglický výraz.[zdroj?] Zpravidla se takto označují techniky získávání malého množství energie ze zdrojů, jako je okolní teplota, vibrace nebo proudění vzduchu. V praxi je toho využíváno zejména u mobilních zařízení, u kterých je nutné zajištění bezdrátového přísunu energie. Takto získané množství energie je relativně malé, proto tímto způsobem lze napájet pouze nízkopříkonová zařízení. (cs) Captació d'energia (energy harvesting en anglès) és el procés mitjançant el qual l'energia d'una font externa (ex: solar, tèrmica, eòlica, cinètica, RF) és captada i emmagatzemada per petits dispositius sense fils. Possibles aplicacions en dispositius portables i xarxes de sensors. Els captadors d'energia proveeixen una petita quantitat d'energia que alimenta circuits electrònics de molt baix consum. Tipus de captació d'energia més importants: * Energia cinètica captada per alguns rellotges de polsera. * Elergia fotovoltaica captada per alguns rellotges i calculadores. * Energia tèrmica captada en punts amb diferent gradient de temperatura. * Energia piezoelèctrica captada en punts amb vibracions mecàniques. * Energia radiant captada per petites antenes o rectenes. (ca) Als Energy Harvesting (wörtlich übersetzt Energie-Ernten) bezeichnet man die Gewinnung kleiner Mengen von elektrischer Energie aus Quellen wie Umgebungstemperatur, Vibrationen oder Luftströmungen für mobile Geräte mit geringer Leistung. Die dafür eingesetzten Strukturen werden auch als Nanogenerator bezeichnet. Energy Harvesting vermeidet bei Drahtlostechnologien Einschränkungen durch kabelgebundene Stromversorgung oder Batterien. Das Energy Harvesting hat eine Bedeutung für die Energieversorgung von Miniaturgeräten in der digitalen Welt. Die nationale Normung wird in Deutschland von der Deutschen Kommission Elektrotechnik Elektronik Informationstechnik und die internationale Normung wird vom Technical Committee 47 "Halbleitergeräte" der International Electrotechnical Commission bearbeitet. (de) Energy harvesting (EH, also known as power harvesting or energy scavenging or ambient power) is the process by which energy is derived from external sources (e.g., solar power, thermal energy, wind energy, salinity gradients, and kinetic energy, also known as ambient energy), and then captured, and stored for small, wireless autonomous devices, like those used in wearable electronics and wireless sensor networks. Energy harvesters usually provide a very small amount of power for low-energy electronics. While the input fuel to some large-scale generation costs resources (oil, coal, etc.), the energy source for energy harvesters is present as ambient background. For example, temperature gradients exist from the operation of a combustion engine and in urban areas, there is a large amount of electromagnetic energy in the environment because of radio and television broadcasting. One of the earliest applications of ambient power collected from ambient electromagnetic radiation (EMR) is the crystal radio. The principles of energy harvesting from ambient EMR can be demonstrated with basic components. (en) El cosechamiento de energía (también conocido como recolección de energía o captación de energía) es el proceso por el cual la energía se obtiene de fuentes externas (por ejemplo, energía solar, energía geotérmica, energía eólica, los y la energía cinética), es capturada y es almacenada para pequeños dispositivos autónomos inalámbricos, como los utilizados en la y redes de sensores inalámbricas. Los recolectores de energía proporcionan una muy pequeña cantidad de energía para la electrónica de bajo consumo. Mientras que el combustible de entrada para la generación a gran escala suele ser costoso (petróleo, carbón, etc), la fuente de energía para los recolectores está presente como fondo ambiental y es gratis. Por ejemplo, en las zonas urbanas, hay una gran cantidad de energía electromagnética en el medio ambiente debido a las emisiones de radio y televisión. (es) La récolte d'énergie (energy harvesting ou energy scavenging en anglais) est le processus par lequel de l'énergie est tirée de sources externes (solaire, éolienne, thermique, vibratoire, cinétique, chimique, etc.) en quantités infinitésimales, puis emmagasinée pour servir au fonctionnement autonome d'appareils portables de petite taille comme ceux de l' (wearable electronics en anglais), les réseaux de capteurs sans fil mais aussi des applications de grande taille, notamment pour les sources thermiques: fonderies, spatial (générateur thermoélectrique à radioisotope), etc. Les systèmes récupérateurs d'énergie fournissent en général de très faibles quantités de courant électrique à des circuits électroniques à basse consommation, à partir de sources d'énergie présentes dans l'environnement. Par exemple, il existe des gradients de température partout où l'on trouve des moteurs à combustion, ou des environnements urbwins (avec des bâtiments souvent chauffés ou réfrigérés). Dans le domaine thermique, on trouve aussi des générateurs de moyenne puissance (quelques dizaines de Watts voire des centaines). Le marché de ces dispositifs (toutes sources confondues) pourrait passer de 10 millions d'unités en 2013 à 18.7 millions d'unités en 2020 et remplacer peu à peu les batteries des appareils portables ou les dynamos sur les vélos. Le marché des systèmes de récupération d'énergie (à source thermique) de faible puissance (inférieure au watt) a été estimé à 100 000 unités en 2014 et pourrait atteindre 9 millions d'unités en 2020 (fr) 環境発電(かんきょうはつでん)またはエネルギーハーベスティング(Energy Harvesting)とは太陽光や室内光(照明),振動、廃熱、体温、電磁波等のエネルギーを電力に変換する発電方法。メガソーラー発電や水力発電,風力発電が連想されるが,いわゆる自然エネルギーを使った系統電源(送電網)に接続する低コスト・大容量の電源とは異なる概念である。 (ja) 에너지 하베스팅(영어: energy harvesting, power harvesting, energy scavenging, ambient power) 또는 에너지 수확( - 收穫)은 태양 에너지나 인체의 운동에너지 등 외부의 에너지를 모으고 저장하는 기술을 말한다. (ko) Energie oogsten is het proces waarbij energie wordt onttrokken uit de directe omgeving en vervolgens wordt opgeslagen voor gebruik in kleinschalige draadloze systemen. Voorbeelden van dergelijke bronnen zijn stralingsenergie, thermische energie, mechanische energie, magnetische energie en biochemische energie. De opgeslagen energie is gering, maar voldoende om laagverbruikende apparaten, zoals draadloze sensornetwerken, van kracht te voorzien. Dergelijke energie-oogstsystemen worden meestal gebruikt in apparaten en toegepast in omstandigheden waarbij het vervangen van een conventionele batterij moeilijk is of gevaarlijk kan zijn. Daarbij hebben deze systemen het voordeel dat energie in sommige omgevingen in overvloed aanwezig is en bovendien gratis is. (nl) Energy Harvesting (anche conosciuto come Power Harvesting, Energy Scavenging e tradotto alle volte come Energia racimolata) è il processo per cui l'energia, proveniente da energie alternative e spesso non costanti nel tempo (come quella solare, termica, eolica o cinetica) viene catturata e salvata. Tale processo le converte in energia elettrica direttamente utilizzabile. (it) Colheita de energia (ou captura de energia), do inglês energy harvesting, é o processo pelo qual a energia é derivada de fontes externas (por exemplo, energia solar, térmica, eólica, cinética), capturada e armazenada para aparelhos pequenos, autônomos e sem fio através de transdutores. A colheita de energia provê uma pequena quantidade de energia para eletrônicos de baixa-energia. Enquanto o combustível para a geração de energia em larga escala custa dinheiro (óleo, carvão, etc.), as fontes de energia de coletores de energia estão presentes no ambiente e são gratuitas. Por exemplo, os gradientes de temperatura existem na operação dos motores de combustão e em áreas urbanas, em que há grandes quantidades de energia eletromagnética no ambiente por causa das ondas de rádio e televisão. (pt) |
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| rdfs:comment | حصاد الطاقة هو العملية التي يتم من خلالها الحصول على الطاقة من مصادر خارجية مثل الطاقة الشمسية والطاقة الحرارية وطاقة الرياح وتدرجات الملوحة والطاقة الحركية، والمعروفة أيضًا باسم (الطاقة المحيطة)، والتقاطها وتخزينها للأجهزة اللاسلكية الصغيرة المستقلة، مثل تلك المستخدمة في الالكترونيات وشبكات الاستشعار اللاسلكية. (ar) Pojem energy harvesting lze volně přeložit jako získávání energie, ovšem v praxi se používá anglický výraz.[zdroj?] Zpravidla se takto označují techniky získávání malého množství energie ze zdrojů, jako je okolní teplota, vibrace nebo proudění vzduchu. V praxi je toho využíváno zejména u mobilních zařízení, u kterých je nutné zajištění bezdrátového přísunu energie. Takto získané množství energie je relativně malé, proto tímto způsobem lze napájet pouze nízkopříkonová zařízení. (cs) 環境発電(かんきょうはつでん)またはエネルギーハーベスティング(Energy Harvesting)とは太陽光や室内光(照明),振動、廃熱、体温、電磁波等のエネルギーを電力に変換する発電方法。メガソーラー発電や水力発電,風力発電が連想されるが,いわゆる自然エネルギーを使った系統電源(送電網)に接続する低コスト・大容量の電源とは異なる概念である。 (ja) 에너지 하베스팅(영어: energy harvesting, power harvesting, energy scavenging, ambient power) 또는 에너지 수확( - 收穫)은 태양 에너지나 인체의 운동에너지 등 외부의 에너지를 모으고 저장하는 기술을 말한다. (ko) Energy Harvesting (anche conosciuto come Power Harvesting, Energy Scavenging e tradotto alle volte come Energia racimolata) è il processo per cui l'energia, proveniente da energie alternative e spesso non costanti nel tempo (come quella solare, termica, eolica o cinetica) viene catturata e salvata. Tale processo le converte in energia elettrica direttamente utilizzabile. (it) Captació d'energia (energy harvesting en anglès) és el procés mitjançant el qual l'energia d'una font externa (ex: solar, tèrmica, eòlica, cinètica, RF) és captada i emmagatzemada per petits dispositius sense fils. Possibles aplicacions en dispositius portables i xarxes de sensors. Els captadors d'energia proveeixen una petita quantitat d'energia que alimenta circuits electrònics de molt baix consum. Tipus de captació d'energia més importants: (ca) Energy harvesting (EH, also known as power harvesting or energy scavenging or ambient power) is the process by which energy is derived from external sources (e.g., solar power, thermal energy, wind energy, salinity gradients, and kinetic energy, also known as ambient energy), and then captured, and stored for small, wireless autonomous devices, like those used in wearable electronics and wireless sensor networks. One of the earliest applications of ambient power collected from ambient electromagnetic radiation (EMR) is the crystal radio. (en) Als Energy Harvesting (wörtlich übersetzt Energie-Ernten) bezeichnet man die Gewinnung kleiner Mengen von elektrischer Energie aus Quellen wie Umgebungstemperatur, Vibrationen oder Luftströmungen für mobile Geräte mit geringer Leistung. Die dafür eingesetzten Strukturen werden auch als Nanogenerator bezeichnet. Energy Harvesting vermeidet bei Drahtlostechnologien Einschränkungen durch kabelgebundene Stromversorgung oder Batterien. (de) El cosechamiento de energía (también conocido como recolección de energía o captación de energía) es el proceso por el cual la energía se obtiene de fuentes externas (por ejemplo, energía solar, energía geotérmica, energía eólica, los y la energía cinética), es capturada y es almacenada para pequeños dispositivos autónomos inalámbricos, como los utilizados en la y redes de sensores inalámbricas. (es) La récolte d'énergie (energy harvesting ou energy scavenging en anglais) est le processus par lequel de l'énergie est tirée de sources externes (solaire, éolienne, thermique, vibratoire, cinétique, chimique, etc.) en quantités infinitésimales, puis emmagasinée pour servir au fonctionnement autonome d'appareils portables de petite taille comme ceux de l' (wearable electronics en anglais), les réseaux de capteurs sans fil mais aussi des applications de grande taille, notamment pour les sources thermiques: fonderies, spatial (générateur thermoélectrique à radioisotope), etc. (fr) Energie oogsten is het proces waarbij energie wordt onttrokken uit de directe omgeving en vervolgens wordt opgeslagen voor gebruik in kleinschalige draadloze systemen. Voorbeelden van dergelijke bronnen zijn stralingsenergie, thermische energie, mechanische energie, magnetische energie en biochemische energie. De opgeslagen energie is gering, maar voldoende om laagverbruikende apparaten, zoals draadloze sensornetwerken, van kracht te voorzien. (nl) Colheita de energia (ou captura de energia), do inglês energy harvesting, é o processo pelo qual a energia é derivada de fontes externas (por exemplo, energia solar, térmica, eólica, cinética), capturada e armazenada para aparelhos pequenos, autônomos e sem fio através de transdutores. (pt) |
| rdfs:label | Energy harvesting (en) حصاد الطاقة (ar) Captació d'energia (ca) Energy harvesting (cs) Energy Harvesting (de) Cosechamiento de energía (es) Récolte d'énergie (fr) Energy harvesting (it) 에너지 하베스팅 (ko) 環境発電 (ja) Energie oogsten (nl) Colheita de energia (pt) |
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