Reference terms from Wikipedia, the free encyclopedia
 

Energy development

Energy development is the field of activities focused on obtaining sources of energy from natural resources. These activities include production of conventional, alternative and renewable sources of energy, and for the recovery and reuse of energy that would otherwise be wasted. Energy conservation and efficiency measures reduce the demand for energy development, and can have benefits to society with improvements to environmental issues.

Societies use energy for transportation, manufacturing, illumination, heating and air conditioning, and communication, for industrial, commercial, and domestic purposes. Energy resources may be classified as primary resources, where the resource can be used in substantially its original form, or as secondary resources, where the energy source must be converted into a more conveniently usable form. Non-renewable resources are significantly depleted by human use, whereas renewable resources are produced by ongoing processes that can sustain indefinite human exploitation.

Thousands of people are employed in the energy industry. The conventional industry comprises the petroleum industry, the natural gas industry, the electrical power industry, and the nuclear industry. New energy industries include the renewable energy industry, comprising alternative and sustainable manufacture, distribution, and sale of alternative fuels.

 
Note:   The above text is excerpted from the Wikipedia article Energy development, which has been released under the GNU Free Documentation License.
 

Check out these latest Nanowerk News:

 

Researchers develop a new predictive model for designing 2D perovskites

By separating dielectric-screening effects from structural distortion, the study offers practical design rules for tuning excitons in 2D perovskites.

Orbitronics breakthrough points to low-power memory

Researchers directly used orbital currents in a magnetic device, producing much stronger signals for future low-energy memory and processors.

Microscopy at the space-time limit

Ultrafast scanning tunneling microscopy reaches the quantum mechanical space-time limit for the first time.

Programmable molecular machines are getting closer

Researchers created a highly stable electrically controlled DNA origami switch that regulates molecular functions and keeps working through hundreds of thousands of cycles.

Nanozyme tags reveal where nanoparticles go in cells

A new nanozyme labeling method maps nanoparticle interactions in living cells, showing how targeting alters trafficking and could guide better nanomedicines.

Light-written magnetic memory moves closer

Researchers used laser pulses to write and read antiferromagnetic data, opening a path to faster, lower-energy memory linked to optical networks.

Laser-controlled molecules reveal hidden reaction dynamics

Synchronized infrared lasers steer molecules between structures, exposing clear spectral fingerprints and new ways to study chemical reactions.

MOF thin films reveal a denser, less porous structure than expected

Advanced diffraction and modeling show a widely studied MOF thin film is densely packed, reshaping expectations for sensors, microelectronics and magnetic storage.

Atomic-scale insights clarify hidden defect signals in carbon materials

New analysis links long-ambiguous carbon defect peaks to specific atomic structures, helping improve material design for energy and electronics.

Room-temperature photon source brings quantum security closer to deployment

A compact plug-and-play device produces single photons without cryogenic cooling, easing integration with quantum-secure communication networks.