Future Market Insights has announced the addition of the “Energy Harvesting Market: Global Industry Analysis and Opportunity Assessment 2014 - 2020" report to their offering.
Valley Cottage, NY -- (SBWIRE) -- 02/06/2017 -- Energy harvesting, one of the most promising technologies to address the energy crises without altering the existing energy sources, is foreseen to witness staggering demand and innovation in the near future. The process of energy harvesting harnesses the power of ambient energy to use later in varied applications. With growing use of ambient energy and advent of the energy harvesting technology, the energy harvesting market is currently heading at a considerable pace globally.
FMI' extensive research indicates that the global energy harvesting market is anticipated to gain momentum and grow at a double-digit CAGR by 2020 end. A number of newly innovated efficient energy applications and widespread acceptance of renewable energy sources are expected to play a vital role in the growth of the global energy harvesting market during the forecast period 2014-2020.
Key Drivers: Energy Harvesting Market
During the past decade, there has been growing demand for safe, power efficient, and enduring systems, which require minimum or no maintenance. This is a major driver of market growth, expected to continue pushing the demand for devices based on the energy harvesting technology. Growing applications of the energy harvesting technology in building and home automation is another key driver to the market growth.
Moreover, industrial WSN demand energy harvesting on a large scale, which is expected to continue during the forecast period as well. The green energy trend is effectively governing the market, while favourable initiatives by various governments are also boosting the market on a global level.
Abundance of renewable energy sources, including tidal, wind, and ocean energy provide a dependable platform for the innovation of energy harvesting applications. This is also an influential factor contributing to the growth of market.
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Key Restraints to Market Growth
The technology based on energy harvesting is typically used off-grid or on-demand. However, both of these usage patterns possess some technological complexities, which may restrict the widespread demand for energy harvesting devices in the market. Another deterring factor includes inadequate awareness among consumers about the availability and usage of the devices based on harvested energy.
Moreover, relatively higher initial costs associated with these devices are expected to curtail the growth of the market globally. The energy harvesting technology generates lower current, which makes it incompatible for the application in all types of energy domains.
Global Energy Harvesting Market: Segmentation
FMI's research on the global energy harvesting market provides a six-year forecast, segmenting the market on the basis of different energy sources/fields, applications, and geography.
On the basis of different energy sources/fields, the energy harvesting market is segmented into radiation (solar, electromagnetic, and light), mechanical (fluid, elastic, kinetic, and potential), chemical (battery, fuel cells, and phase change), nuclear, magnetic, electric, thermal, and gravitational. Among these, electric and magnetic fields form the most common source for harvesting energy.
Based on the application, the energy harvesting market is segmented as wireless sensor network (WSN), consumer electronics, industrial, building, bicycle dynamo, military and aerospace, automotive, healthcare, and others (research, animals, and farming). Among these, consumer electronics, including mobile phones, wrist watches, calculators, and piezoelectric gas lighters cover the maximum share of the global energy harvesting market, followed by military and aerospace-based applications. However, building and home automation is the fastest growing application segment in the energy harvesting sector. Energy harvesting is also an integral part in a wireless sensor network (WSN) these days.
According to the geography, the energy harvesting market is segmented into North America, Latin America, Asia Pacific, Japan, Western Europe, Eastern Europe, and the Middle East and Africa. Among these, Americas are projected to remain the dominating markets in 2016, with a significant market share. However, Europe will be the fastest growing market, owing to burgeoning promotion and investments by The European Commission in R&D of energy harvesting and storage devices. North America and Asia Pacific will also account for remarkable market shares by 2020 end. In North America, the U.S. will dominate, whereas in APAC, Japan will reportedly contribute the largest share to the total energy harvesting market revenues.
Notable Market Trends
Building and infrastructure, automation of lighting, security, and electronics at homes, and WSNs for bridges include some of the most sought after applications of energy harvesting since the past few years.
The use of mmWave (millimetre wave) for 5G cellular networks has been a popular trend of wireless energy harvesting.
The market is expected to gain traction from growing application of energy harvesting in wearable devices and mobile phones.
Energy harvesting is estimated to find increasing applications in automobile industry in the near future.
The advent of nanotechnology has offered ample of growth opportunities to the energy harvesting market. Since nanotechnology helps manufacturing of compact-sized devices, the emergence of portable devices based on energy harvesting technology is the most likely occurrence in the market.
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Key Players: Global Energy Harvesting Market
Some of the prominent players competing in the industry include ABB Limited, Arveni, Enocean, Fujitsu, Cypress Semiconductor Corp., Green Peak Technologies, Honeywell International, Inc., Levant Power Corporation, Marlow Industries, Inc., Microchip Technology, Inc., MicroGen Systems, Maxim Integrated, G24 Innovations Limited, Texas Instruments Inc., and STMicroelectronics.
Other notable players include Silicon Laboratories, Inc., Siemens AG, Murata Manufacturing Co., Ltd., Mide Technology Corporation, Laird Plc., Lord Microstrain, EnOcean GmbH, Cymbet Corporation, POWERleap, Inc., Schneider Electric, Linear Technology, Microstrain, and Micropelt.