Results 241 to 250 of about 2,770,785 (296)

Triboelectric Nanogenerators for Blue Energy Harvesting

ACS Nano, 2016
Blue energy in the form of ocean waves offers an enormous energy resource. However, it has yet to be fully exploited in order to make it available for the use of mankind. Blue energy harvesting is a challenging task as the kinetic energy from ocean waves is irregular in amplitude and is at low frequencies.
Usman, Khan, Sang-Woo, Kim
openaire   +2 more sources

Mocean Energy unveils Blue X wave energy converter

The Engineer, 2021
Technology aims to provide renewable energy to subsea systems
openaire   +1 more source

Generation of 5.2 fs, energy scalable blue pulses

Optics Letters, 2022
In this Letter, ultrashort blue pulses spanning 350–500 nm are generated by combining the broadband frequency doubling technology with the two-stage multiplate continuum (MPC) generation scheme. We prepare relatively broadband input pulses and use a two-stage configuration for MPC generation, allowing us to employ thinner and less solid plates for ...
Feilong Hu, Qingbin Zhang, Jinxing Cao, Zuofei Hong, Wei Cao, Peixiang Lu   +5 more
openaire   +2 more sources

New ionomer membranes for blue energy

2005 International Conference on Future Power Systems, 2005
Blue energy is energy gained from the difference between fresh and salt water. As this type of power generation does not consume fossil fuel, it belongs to the green energy sources, i.e. a type of sustainable energy. There are two methods of blue power generation: osmosis and reverse electrodialysis. Both types require membranes. The paper explains the
R. Ross, J. Krijgsman
openaire   +1 more source

Harvesting Large-Scale Blue Energy

2016
Harvesting water wave energy is a great challenge to traditional electromagnetic generator (EMG) mainly due to its low frequency, large area of distribution, random in amplitude and high cost. This chapter presents how TENG can be an effective technology for harvesting water wave energy by using triboelectric effect and electrostatic induction effect ...
Wang, Zhong Lin, Lin, Long, Chen, Jun, Niu, Simiao, Zi, Yunlong   +4 more
openaire   +2 more sources

Nanogenerators: A new paradigm in blue energy-harvesting

2021
The depletion of natural energy sources demands non-conventional efficient alternatives with sustainable utility. The outstanding performance of nanomaterials resolves the energy scarcity issue through the introduction of small-scale, energy-harvesting devices, called nanogenerators.
Arpita Adhikari, Joydip Sengupta
openaire   +1 more source

Blue Energy: Salinity Gradient for Energy Conversion

2015
Similar to a difference in elevation, potential energy is also associated with a difference in salt concentration so that electric power can eventually be produced by exploiting the salinity gradient between freshwater of rivers and seawater. Unfortunately, exploiting the salinity gradient for power production is not so easy as waterfalls.
CHIESA, PAOLO, ASTOLFI, MARCO, GIUFFRIDA, ANTONIO   +2 more
openaire   +1 more source

Winter energy requirements of blue grouse

Canadian Journal of Zoology, 1992
We measured the effects of temperature (Ta) on the metabolic rate of 6 blue grouse (Dendragapus obscurus) during winter with indirect respiration calorimetry. The standard metabolic rate was 0.812 L O2∙(kg0.734)−1∙h−1 and was 24% higher than that predicted allometrically.
Peter J. Pekins, James A. Gessaman, Frederick G. Lindzey   +2 more
openaire   +1 more source