Energy Harvesting System Market with COVID-19 Impact Analysis

Energy Harvesting System Market with COVID-19 Impact Analysis The energy harvesting system market growing demand for safe, power-efficient, and durable systems that require minimum or no maintenance surging implementation of IoT devices in automation and energy harvesting systems for building and home automation increasing trend for green energy and favorable initiatives by governments rising adoption of wireless sensor networks equipped with energy harvesting systems are some of the prominent factors for the growth of the market globally. Download PDF Brochure @ https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=734&utm_source=Freprosonali&utm_medium=sonali&utm_campaign=sonali The energy harvesting system market is estimated to be worth USD 468 million in 2021 and is projected to reach USD 701 million by 2026, at a CAGR of 8.4 %. The emergence of COVID-19, a deadly respiratory disease that originated in China, has become a pandemic and has spread globally at a fast pace. The impact of COVID-19 on the energy harvesting system market is currently limited, but the adoption of energy harvesting solutions may reduce more than expected in the short term as many service providers and integrators are involved in managing the unprecedented pandemic. The US is a major hub for the adoption of energy harvesting systems in applications such as building and home and industrial automation. Europe is home to many major players in manufacturing energy harvesting systems. With COVID-19 still impacting many economies across the world, it is impossible to predict the accurate impact on the market. As there are several suppliers of components and devices in Europe, the impact of lockdown is expected to affect global players. The disruption caused by the shortage of semiconductor components has resulted in a delay in the development of new energy harvesting modules and products. This has further stagnated the growth of existing orders received for energy harvesting systems. Inquiry Before Buying @ https://www.marketsandmarkets.com/Enquiry_Before_BuyingNew.asp?id=734&utm_sourc e=Frepro-sonali&utm_medium=sonali&utm_campaign=sonali Devices powered by harvested energy are used in industrial applications, building and home automation, consumer electronics, and wearable devices. The conventional cabling systems for sensor networking require a lot of time for installation and also incur high costs due to the wiring. Portable power equipment such as lithium-ion, magnesiumion, and lead-acid batteries have a short lifespan and are more prone to damage. Research has proven that it is possible to increase the energy density in lithium-ion batteries through paper folding techniques; however, it increases the risk of explosion if the temperature rises above the threshold due to overcharging. On the other hand, by harvesting a small amount of wasted energy, an increase in equipment uptime can be witnessed without using any battery as a primary power source.