There is enough in the world for everyone’s need, but there is not enough to meet everyone’s greed, said Mahatma Gandhi, Father of our nation. By these Mahatmaji is calling our attention towards the greed of the world’s most greedy species, namely the human being. As human beings are the only species which could think and feel, it is also the only species that exploits the nature in any which ways possible for their short-term gain. Ignoring the fact that human beings are comparatively new species when we consider the entire time frame of life on earth, we are behaving as if the entire planet and its resources are solely meant for making human lives easier.
The social and economic development of a country owes a lot to the development of energy resources. Man’s greed and uncontrolled use of these resources has resulted in its depletion and in turn has put a question mark on the future of this beautiful planet.
Scientists fear that the conventional energy sources like crude oil, natural gas, etc may become extinct before the end of this century. This has turned man towards the development and promotion of alternate energy resources.
The most important source is solar power because sun is the largest source of energy in this universe. Our country India receives 5000 trillion kilo watt of solar radiation per year. Most part of our country have not less than 300 clear days in a year. It is possible to generate 20 mega watt solar power per square kilometer land area. This energy can be used for a variety of applications like cooking, water heating, water pumping, lighting, etc. Latest innovations have made it possible to run vehicles like cars, trains and even small aircrafts. The German railway, a pioneer in the entire organization will be operated by solar energy by the end of another 25 to 30 years.
Another one is wind power. India now holds a significantly high position in the list of wind power capacity. The gross wind power potential of India is estimated to be above 45000 milli watt, while the present technical is only near one third of this capacity. It should be noted that the government has initiated several plans and policies to make use of this immense potential.
We can also obtain energy from biomass. It includes food and food waste, municipal waste, land fills gas and biogas. The use of Ethanol blended fuel and bio diesel is also an emerging trend which could replace several other means effectively.
Hydro power is also a prospect for the world with two third of the planet covered with water. If widely used hydro power could be generated from the enormous water resources available in this planet by setting up small hydro power plants.
As the eminent scholar professor Yashpal rightly quoted, “we have not inherited this world from our ancestors, but we have borrowed it from our children”. So, it is high time we turn to some alternative energy sources and leave something for our future generation also.
The Ministry of New & Renewable Energy (MNRE) observed the second day of its programme “New Frontiers: A Programme on Renewable Energy to celebrate Azadi ka Amrit Mahotsav. The Ministry organized an online session on “Women in Renewable Energy: Call for Action” to acknowledge the role of women entrepreneurs and leaders in the Renewable Energy Space. The session was attended by more than 200 participants including Padma Shree Awardee, Mr. Bunker Roy, officials of the Government of India, CEOs, CMDs, and representatives of NGOs, industries, banking institutions and, representatives from international organisations.
Delivering the keynote address Secretary, MNRE recognised the role and importance of women’s participation in Renewable Energy and committed to formulation of a scheme for DRE applications, grater engagement with Ministry of Women and Child Development and addressing women’s issues in industry consultations.
Women RE entrepreneurs across the country shared their success stories, shining light on the impact of clean energy access on women. This was followed by the response to Call for Action by the stakeholders across policy makers, NGOs, Industries, international organisations and the Banking Institutions. Mr. Bunker Roy, founder Barefoot college, called for active engagement of women on RE platform. Mrs. Vaishali Nigam Sinha, founding chair for ReNew Power, and Ms. Mara Beatriz Orlando, energy specialist from WePower, highlighted how regular trainings and capacity building can change the lives of women entrepreneurs. Ms. A. Manimekhalai, Executive Director from Canara Bank called for earmarking funds for women, awareness campaign focused on women and sensitisation among financial institutions.
Have you ever felt attracted towards something or someone just by a glimpse of sight? Yeah, that’s what the attraction of energy is. Everything in the universe has its unique energy with different frequencies and vibrations. There’s a famous quote by Nikola Tesla “If you want to find the secrets of the universe, think in terms of energy, frequency, and vibration.”
In childhood, we all have been taught to maintain a relationship with good people only. The reason being behind is if we attract the good people energy we will become good too but if we will be in a bad angry we will behave the same.
Each one of us desires to live in a calming and peaceful environment. It is important to understand the angry within us is affected by our surroundings, the better the energy the better you will feel, the better you will become
Everything starts with what kind of energy you are putting into the universe. And the energy you are attracting from the universe. If you think of something positive you will tend to attract that and if you think of negative vice-versa will happen. Here the law of attraction came into action. You will become what you will think. The more positive you are around the happier you become. The way to do this is by associating yourself with better energy.
Lastly, I would like to note that if you want to become better you will get rid of all negative energy aspects in your life. It could be negative people, negative things, bad habits. You will feel the benefit of all that bad energy lifted from your life. Then Your life will become better.
Device for harnessing terahertz radiation might help power some portable electronics.
Terahertz waves are electromagnetic radiation with a frequency somewhere between microwaves and infrared light. Also known as “T-rays,” they are produced by almost anything that registers a temperature, including our own bodies and the inanimate objects around us.
Terahertz waves are pervasive in our daily lives, and if harnessed, their concentrated power could potentially serve as an alternate energy source. However, to date there has been no practical way to capture and convert them into any usable form.
Now physicists at MIT have come up with a blueprint for a device they believe would be able to convert terahertz waves into a direct current, a form of electricity that powers many household electronics.
Their design takes advantage of the quantum mechanical, or atomic behavior of the carbon material graphene. They found that by combining graphene with another material, in this case, boron nitride, the electrons in graphene should skew their motion toward a common direction. Any incoming terahertz waves should “shuttle” graphene’s electrons, like so many tiny air traffic controllers, to flow through the material in a single direction, as a direct current.
The researchers have published their results today in the journal Science Advances, and are working with experimentalists to turn their design into a physical device.
“We are surrounded by electromagnetic waves,” says lead author Hiroki Isobe, a postdoc in MIT’s Materials Research Laboratory. “If we can convert that energy into an energy source we can use for daily life, that would help to address the energy challenges we are facing right now.”
Isobe’s co-authors are Liang Fu, the Lawrence C. and Sarah W. Biedenharn Career Development Associate Professor of Physics at MIT; and Su-yang Xu, a former MIT postdoc who is now an assistant professor chemistry at Harvard University.
Breaking graphene’s symmetry
Over the last decade, scientists have looked for ways to harvest and convert ambient energy into usable electrical energy. They have done so mainly through rectifiers, devices that are designed to convert electromagnetic waves from their oscillating (alternating) current to direct current.
Most rectifiers are designed to convert low-frequency waves such as radio waves, using an electrical circuit with diodes to generate an electric field that can steer radio waves through the device as a DC current. These rectifiers only work up to a certain frequency, and have not been able to accommodate the terahertz range.
A few experimental technologies that have been able to convert terahertz waves into DC current do so only at ultracold temperatures — setups that would be difficult to implement in practical applications.
Instead of turning electromagnetic waves into a DC current by applying an external electric field in a device, Isobe wondered whether, at a quantum mechanical level, a material’s own electrons could be induced to flow in one direction, in order to steer incoming terahertz waves into a DC current.
Such a material would have to be very clean, or free of impurities, in order for the electrons in the material to flow through without scattering off irregularities in the material. Graphene, he found, was the ideal starting material.
To direct graphene’s electrons to flow in one direction, he would have to break the material’s inherent symmetry, or what physicists call “inversion.” Normally, graphene’s electrons feel an equal force between them, meaning that any incoming energy would scatter the electrons in all directions, symmetrically. Isobe looked for ways to break graphene’s inversion and induce an asymmetric flow of electrons in response to incoming energy.
Looking through the literature, he found that others had experimented with graphene by placing it atop a layer of boron nitride, a similar honeycomb lattice made of two types of atoms — boron and nitrogen. They found that in this arrangement, the forces between graphene’s electrons were knocked out of balance: Electrons closer to boron felt a certain force while electrons closer to nitrogen experienced a different pull. The overall effect was what physicists call “skew scattering,” in which clouds of electrons skew their motion in one direction.
Isobe developed a systematic theoretical study of all the ways electrons in graphene might scatter in combination with an underlying substrate such as boron nitride, and how this electron scattering would affect any incoming electromagnetic waves, particularly in the terahertz frequency range.
He found that electrons were driven by incoming terahertz waves to skew in one direction, and this skew motion generates a DC current, if graphene were relatively pure. If too many impurities did exist in graphene, they would act as obstacles in the path of electron clouds, causing these clouds to scatter in all directions, rather than moving as one.
“With many impurities, this skewed motion just ends up oscillating, and any incoming terahertz energy is lost through this oscillation,” Isobe explains. “So we want a clean sample to effectively get a skewed motion.”
One direction
They also found that the stronger the incoming terahertz energy, the more of that energy a device can convert to DC current. This means that any device that converts T-rays should also include a way to concentrate those waves before they enter the device.
With all this in mind, the researchers drew up a blueprint for a terahertz rectifier that consists of a small square of graphene that sits atop a layer of boron nitride and is sandwiched within an antenna that would collect and concentrate ambient terahertz radiation, boosting its signal enough to convert it into a DC current.
“This would work very much like a solar cell, except for a different frequency range, to passively collect and convert ambient energy,” Fu says.
The team has filed a patent for the new “high-frequency rectification” design, and the researchers are working with experimental physicists at MIT to develop a physical device based on their design, which should be able to work at room temperature, versus the ultracold temperatures required for previous terahertz rectifiers and detectors.
“If a device works at room temperature, we can use it for many portable applications,” Isobe says.
He envisions that, in the near future, terahertz rectifiers may be used, for instance, to wirelessly power implants in a patient’s body, without requiring surgery to change an implant’s batteries.
“We are taking a quantum material with some asymmetry at the atomic scale, that can now be utilized, which opens up a lot of possibilities,” Fu says.
This research was funded in part by the U.S. Army Research Laboratory and the U.S. Army Research Office through the Institute for Soldier Nanotechnologies (ISN).
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