Solar Batteries Solar Quotes

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You can’t think of anything? Anything you might need a man for?” Berry blinked slowly, then gave him a wide smile. “Are you talking about sex? Because if you are, there are plenty of products on the market today that claim to be just as good as a man. Not to mention some of them come with rechargeable solar batteries… so good for the environment too.
Jane Cousins (To Bedevil A Beauty (Southern Sanctuary, #5))
I enjoy.... laughing for absolutely no reason at all, but I don't allow myself to cry as often as I need to. I have solar-powered confidence and a battery-operated smile. My hobbies include: editing my life story, hiding behind metaphors, and trying to convince my shadow that I'm someone worth following. I don't know much, but I do know this: Heaven is full of music, and God listens to my heartbeat
Rudy Francisco (Helium (Button Poetry))
No longer do African regimes have to spend vast sums maintaining land lines and telephone exchanges, exposed to the perils of looting or climate damage. A few mobile-phone beacons, powered by solar batteries, cost a fraction of the old, fixed system. And the cash earned by mobile-phone systems is much easier to control. Gone are the days of relying on a failing mail system to send bills to users of landline systems to chase up payment for calls already made. Top-up cards have to be paid for in advance. Mobile-phone networks are among the most cash-rich and fast-growing businesses in today’s Africa. It is no wonder that the sons, nieces and confidants of Africa’s dictators vie for ownership of mobile-phone companies.
Tim Butcher (Blood River: A Journey to Africa's Broken Heart)
Pathfinder LOG: SOL 0 BOOT SEQUENCE INITIATED TIME 00:00:00 LOSS OF POWER DETECTED, TIME/DATE UNRELIABLE LOADING OS… VXWARE OPERATING SYSTEM (C) WIND RIVER SYSTEMS PERFORMING HARDWARE CHECK: INT. TEMPERATURE: −34°C EXT. TEMPERATURE: NONFUNCTIONAL BATTERY: FULL HIGAIN: OK LOGAIN: OK WIND SENSOR: NONFUNCTIONAL METEOROLOGY: NONFUNCTIONAL ASI: NONFUNCTIONAL IMAGER: OK ROVER RAMP: NONFUNCTIONAL SOLAR A: NONFUNCTIONAL SOLAR B: NONFUNCTIONAL SOLAR C: NONFUNCTIONAL HARDWARE CHECK COMPLETE BROADCASTING STATUS LISTENING FOR TELEMETRY SIGNAL… LISTENING FOR TELEMETRY SIGNAL… LISTENING FOR TELEMETRY SIGNAL SIGNAL ACQUIRED…
Andy Weir (The Martian)
But for now, it even has a Gandhian approach to sabotage; before a police vehicle is burnt for example, it is stripped down and every part is cannibalized. The steering wheel is straightened out and made into a bharmaar barrel, the rexine upholstery stripped and used for ammunition pouches, the battery for solar charging. Should I write a play I wonder- Gandhi Get Your Gun. Or will I be lynched?
Arundhati Roy (Walking With The Comrades)
A solar-battery-powered chopper marked BELOVED BRETHREN MORATORIUM waited at the edge of the Zurich field. Beside it stood a beetle-like individual wearing a Continental outfit: tweed toga, loafers, crimson sash and a purple airplane-propeller beanie. The proprietor of the moratorium minced toward Joe Chip, his gloved hand extended, as Joe stepped from the ship's ramp onto the flat ground of Earth.
Philip K. Dick (Ubik)
Gene Berdichevsky, one of the members of the solar-powered-car team, lit up the second he heard from Straubel. An undergraduate, Berdichevsky volunteered to quit school, work for free, and sweep the floors at Tesla if that’s what it took to get a job. The founders were impressed with his spirit and hired Berdichevsky after one meeting. This left Berdichevsky in the uncomfortable position of calling his Russian immigrant parents, a pair of nuclear submarine engineers, to tell them that he was giving up on Stanford to join an electric car start-up. As employee No. 7, he spent part of the workday in the Menlo Park office and the rest in Straubel’s living room designing three-dimensional models of the car’s powertrain on a computer and building battery pack prototypes in the garage. “Only now do I realize how insane it was,” Berdichevsky said.
Ashlee Vance (Elon Musk: Inventing the Future)
If we analyse the classes of life, we readily find that there are three cardinal classes which are radically distinct in function. A short analysis will disclose to us that, though minerals have various activities, they are not "living." The plants have a very definite and well known function-the transformation of solar energy into organic chemical energy. They are a class of life which appropriates one kind of energy, converts it into another kind and stores it up; in that sense they are a kind of storage battery for the solar energy; and so I define THE PLANTS AS THE CHEMISTRY-BINDING class of life. The animals use the highly dynamic products of the chemistry-binding class-the plants-as food, and those products-the results of plant-transformation-undergo in animals a further transformation into yet higher forms; and the animals are correspondingly a more dynamic class of life; their energy is kinetic; they have a remarkable freedom and power which the plants do not possess-I mean the freedom and faculty to move about in space; and so I define ANIMALS AS THE SPACE-BINDING CLASS OF LIFE. And now what shall we say of human beings? What is to be our definition of Man? Like the animals, human beings do indeed possess the space-binding capacity but, over and above that, human beings possess a most remarkable capacity which is entirely peculiar to them-I mean the capacity to summarise, digest and appropriate the labors and experiences of the past; I mean the capacity to use the fruits of past labors and experiences as intellectual or spiritual capital for developments in the present; I mean the capacity to employ as instruments of increasing power the accumulated achievements of the all-precious lives of the past generations spent in trial and error, trial and success; I mean the capacity of human beings to conduct their lives in the ever increasing light of inherited wisdom; I mean the capacity in virtue of which man is at once the heritor of the by-gone ages and the trustee of posterity. And because humanity is just this magnificent natural agency by which the past lives in the present and the present for the future, I define HUMANITY, in the universal tongue of mathematics and mechanics, to be the TIME-BINDING CLASS OF LIFE.
Alfred Korzybski (Manhood of Humanity: The Science and Art of Human Engineering (Classic Reprint))
And he carefully stored what he considered the most vital piece of equipment: a satellite phone with solar-powered batteries, which would allow the men not only to record short audio dispatches but also to check in every day with an ALE operator and report their coordinates and medical condition. If the team failed to communicate for two consecutive days, ALE would dispatch a search-and-rescue plane—what Worsley called “the most expensive taxi ride in the world.
David Grann (The White Darkness)
This may be our last transmit for some time, we cannot spare the power. Sandstorm continues unabated, it will never end. We are down to 17% energy levels and have deactivated all non-essential systems. Solar array unable to recharge batteries due to darkened sky, running at only 7% efficiency. Plutonium power source has failed and attempts by EVA to find the fault have proved fatal. Those who have ventured outside to investigate have not returned. If the storm does not clear we
Gerald M. Kilby (Colony One Mars (Colony Mars, #1))
Modern economies will always be tied to massive material flows, whether those of ammonia-based fertilizers to feed the still-growing global population; plastics, steel, and cement needed for new tools, machines, structures, and infrastructures; or new inputs required to produce solar cells, wind turbines, electric cars, and storage batteries. And until all energies used to extract and process these materials come from renewable conversions, modern civilization will remain fundamentally dependent on the fossil fuels used in the production of these indispensable materials. No AI, no apps, and no electronic messages will change that.
Vaclav Smil (How the World Really Works: The Science Behind How We Got Here and Where We're Going)
By the early twenty-second century, the technology for self-replicating robots should be perfected, and we may be able to entrust machines with the task of constructing solar arrays and laser batteries on the moon, Mars, and beyond. We would ship over an initial team of automatons, some of which would mine the regolith and others of which would build a factory. Another set of robots would oversee the sorting, milling, and smelting of raw materials in the factory to separate and obtain various metals. These purified metals could then be used to assemble laser launch stations—and a new batch of self-replicating robots. We might eventually have a bustling network of relay stations throughout the solar system, perhaps stretching from the moon all the way to the Oort Cloud. Because the comets in the Oort Cloud extend roughly halfway to Alpha Centauri and are largely stationary, they may be ideal locations for laser banks that could provide an extra boost to nanoships on their journey to our neighboring star system. As each nanoship passed by one of these relay stations, its lasers would fire automatically and give the ship an added push to the stars. Self-replicating robots could build these distant outposts by using fusion instead of sunlight as the basic source of energy.
Michio Kaku (The Future of Humanity: Terraforming Mars, Interstellar Travel, Immortality, and Our Destiny BeyondEarth)
Is that what we do? We pitch our tents, do our little clown shows, and then take off up the road to the next town ahead? Leaving our science-fictional debris on the blasted dirt to poison the minds of future generations, like the alien litter in STALKER and ROADSIDE PICNIC. Flying cars rusting out like Saturn Five rockets propped up as roadkill talismans at Kennedy, leaking toxins into the soil. Jetpacks oozing fuel from cracks in their tanks and poisoning the grass. Three-ring moonbases crumbling in the solar wind. Birdshit on the time machines. Big fat rats scavenging broken packs of food capsules, Best Before Date of 1971. A Westinghouse Robot Smoking Companion, vintage of 1931, slumped up against a tree, tin fingers still twitching for a cigarette. Vines growing through a busted cyberspace deck. The shreds of inflatable furniture designed for the space hospitals of 1955. Lizards perched atop a weather control cannon. Atomic batteries mouldering inside the grips of laser pistols abandoned in the weeds.
Warren Ellis (CUNNING PLANS: Talks By Warren Ellis)
Building a Better Battery Boyoun Kim By BRIAN X. CHEN and NICK BILTON SAN FRANCISCO — The next breakthrough smartphone, or maybe the one after that, might not have a traditional battery as its sole source of power. Instead, it could pull energy from the air or power itself through television, cellular or Wi-Fi signals. Engineers at Apple even tried for many years to build a smarter battery by adding solar charging to iPhones and iPods, a former Apple executive said. And they have continued to experiment with solar charging, two people who work at the company said. Batteries, long the poor cousin to computer chips in research-obsessed Silicon Valley, are now the rage. As tech companies push their businesses into making wearable devices like fitness bands, eyeglasses and smart watches, the limitations of battery technology have become the biggest obstacle to sales and greater profits. Consumers are unlikely to embrace a wristwatch computer like the one being worked on by Apple, or Google’s smart glasses, if they work only a few hours between charges and must be removed to be plugged in.
Anonymous
Two German kayakers arrive from the north at nightfall. They set up camp on the cape beach, about a third of a mile from the cabin, and come up to recharge their equipment on my solar batteries. We have to look at their photos, their films, exchange e-mail addresses. When you meet someone nowadays, right after the handshake and a quick glance you write down the website and blog information. Conversation has given way to a session in front of the screen. Afterwards, you won’t remember faces or tones of voice, but you’ll have cards with scribbled numbers. Human society’s dream has come true: we rub our antennae together like ants. One day we’ll just take a sniff.
Sylvain Tesson (Consolations of the Forest: Alone in a Cabin in the Middle Taiga)
Candles and waterproof matches.” “Check.” “Weather radio, flashlight, batteries…” “Check, check, check…” “Hurricane-tracking chart, potable water, freeze-dried food, can opener, organic toilet paper, sensible clothes, upbeat reading material, baseball gloves, compass, whistle, signal mirror, first-aid kit, snake-bite kit, mess kit, malaria tablets, smelling salts, flints, splints, solar survival blanket, edible-wild-plant field almanac, trenching tool, semaphores, gas masks, Geiger counter, executive defibrillator, railroad flares, lemons in case of scurvy, Austrian gold coins in case paper money becomes scoffed at, laminated sixteen-language universal hostage-negotiation ‘Kwik-Guide’ (Miami-Dade edition), extra film, extra ammunition, firecrackers, handcuffs, Taser, pepper spray, throwing stars, Flipper lunch box, Eden Roc ashtray, Cypress Gardens felt pennant, alligator snow globe, miniature wooden crate of orange gumballs, acrylic seashell thermometer and pen holder, can of Florida sunshine…” “Check, check, check…. What about my inflatable woman?
Tim Dorsey (Hurricane Punch (Serge Storms, #9))
the ability to move from idea and invention to technologies and innovation and finally into the marketplace. This is not something that necessarily happens fast—energy is not software. After all, the lithium battery was invented in the middle 1970s but took more than three decades before beginning to power cars on the road. The modern solar photovoltaics and wind industries began in the early 1970s but did not begin to attain scale until after 2010. Yet the pace of innovation is accelerating, as is the focus, owing in part to the climate agenda and government support, in part to decisions by investors, in the part to the collaboration of different kinds of companies and innovators, and in part to the convergence of technologies and capabilities—from digital to new materials to artificial intelligence and machine learning to business models and more.
Daniel Yergin (The New Map: Energy, Climate, and the Clash of Nations)
As they grow, wind and solar and EVs will need “big shovels” to meet their increasing call on mined minerals and land itself. It is estimated that an onshore wind turbine requires fifteen hundred tons of iron, twenty-five hundred tons of concrete, and forty-five tons of plastic. About half a million pounds of raw materials have to be mined and processed to make a battery for an electric car.
Daniel Yergin (The New Map: Energy, Climate, and the Clash of Nations)
Some people will be tempted to use a car battery as it is cheaper to buy. Car batteries are really good at giving out huge wads of power to start your car, but you don’t need massive amounts of power in short bursts in order to power your 12 volt devices.  You need a battery that is good at giving lower levels of power over a long period of time to power lights and laptops etc.
George Eccleston (Solar & 12 Volt Power for beginners: Off grid power for everyone)
•Buy batteries with the maximum amp hours that you can afford.
George Eccleston (Solar & 12 Volt Power for beginners: Off grid power for everyone)
Go and get a deep cycle marine type battery!
George Eccleston (Solar & 12 Volt Power for beginners: Off grid power for everyone)
What’s more, SolarCity is a key part of what can be thought of as the unified field theory of Musk. Each one of his businesses is interconnected in the short term and the long term. Tesla makes battery packs that SolarCity can then sell to end customers. SolarCity supplies Tesla’s charging stations with solar panels, helping Tesla to provide free recharging to its drivers. Newly minted Model S owners regularly opt to begin living the Musk Lifestyle and outfit their homes with solar panels. Tesla and SpaceX help each other as well. They exchange knowledge around materials, manufacturing techniques, and the intricacies of operating factories that build so much stuff from the ground up.
Ashlee Vance (Elon Musk: How the Billionaire CEO of SpaceX and Tesla is Shaping our Future)
night vision binoculars, a bag of survival tools, small solar panels for charging batteries and some freeze-dried food. “That should come in handy.” Tyler’s brow furrowed. “Um. Not to point out the obvious but why did you dig this up when we could just go to the cabin?” “He can’t know about this trip.” “Which brings me full circle to what I said earlier. We need everyone we can get. This is a large group and believe me, they are not playing around. I’m talking fully armed and dangerous,” Tyler said. Corey lifted his eyes as he sifted through the contents.
Jack Hunt (Rules of Darkness (Survival Rules, #3))
I found out later that some of the Amish allow Rollerblades. Rubber tires are forbidden, so bikes are out, but Rollerblade wheels are made of plastic. Likewise, though electricity is banned, tools using batteries, solar power, or gas are sometimes OK. Hence the leaf blower. The lesson from my weekend with the Amish is this: You cannot stop religion from evolving.
A.J. Jacobs (The Year of Living Biblically: One Man's Humble Quest to Follow the Bible As Literally As Possible)
There are, without a doubt, an incredible number of new and improved technologies arriving every day. Self-driving cars, gene editing, low-cost solar panels, more efficient batteries, biofuel, quantum computers, 3-D printing of metals, artificial intelligence, and on and on and on, Any, or all, of these could generate profound changes in how we live and how we produce the goods and services that go into GDP. That said, it isn't obvious that we'll see profound effects on the growth rate of the economy. Many of those innovations make the production of goods more efficient, but that would only accelerate the shift into services. And there may be a larger question about whether we want to adopt or pursue these innovations at all. As Charles Jones suggested in a recent paper, given our current life expectancy and living standards, the risks inherent in any technology - to the environment, society, or our own health - may not be worth pursuing just to add a fraction of a percentage point to the growth rate.
Dietrich Vollrath (Fully Grown: Why a Stagnant Economy Is a Sign of Success)
growth of both solar power and electric cars, there’s now a bigger need for better energy storage systems, resulting in a next generation of lithium-ion batteries with increased range, and, as an added bonus, enough power to lift flying cars.
Peter H. Diamandis (The Future Is Faster Than You Think: How Converging Technologies Are Transforming Business, Industries, and Our Lives)
We Offer a wide range of premium solar power and car battery products to match your application, budget and save you time. Secure yourself peace of mind and add to that long life expectancy backed by a great warranty. At BFO we pride ourselves in supplying reliable, long-lasting products and here's why you should consider us. We have been doing business for more than 9 years in South Africa.
BFO Solar
Water. Drinking water, water purification system (or tablets), and a water bottle or canteen. Food. Anything that is long lasting, lightweight, and nutritious such as protein bars, dehydrated meals, MREs24, certain canned goods, rice, and beans. Clothing. Assure it’s appropriate to a wide range of temperatures and environments, including gloves, raingear, and multiple layers that can be taken on or off as needed. Shelter. This may include a tarp or tent, sleeping bag or survival blanket, and ground pad or yoga mat. A camper or trailer is a fantastic, portable shelter, with many of the comforts of home. If you own one keep it stocked with supplies to facilitate leaving in a hurry, as it can take several hours load up and move out if you’re not ready. In certain circumstances that might mean having to leave it behind. Heat source. Lighter or other reliable ignition source (e.g., magnesium striker), tinder, and waterproof storage. Include a rocket stove or biomass burner if possible, they’re inexpensive, take very little fuel, and incredibly useful in an emergency. Self-defense/hunting gear. Firearm(s) and ammunition, fishing gear, multi-tool/knife, maps, and compass, and GPS (it’s not a good idea to rely solely on a GPS as you may find yourself operating without a battery or charger). First aid. First aid kit, first aid book, insect repellant, suntan lotion, and any needed medicines you have been prescribed. If possible add potassium iodide (for radiation emergencies) and antibiotics (for bio attacks) to your kit. Hygiene. Hand soap, sanitizer, toilet paper, towel, toothbrush, toothpaste, dental floss, and garbage bags. Tools. Hatchet (preferably) or machete, can opener, cooking tools (e.g., portable stove, pot, frying pan, utensils, and fuel), rope, duct tape, sunglasses, rubber tubing, and sewing kit. Lighting and communications. LED headlamp, glow sticks, candles, cell phone, charger (preferably hand crank or solar), emergency radio (preferably with hand crank that covers AM, FM, and Marine frequencies) and extra batteries, writing implements, and paper. Cash or barter. You never know how long an emergency will last. Extensive power outages mean no cash machines, so keep a few hundred dollars in small bills, gold or silver coins, or other valuables on hand.
Kris Wilder (The Big Bloody Book of Violence: The Smart Person's Guide for Surviving Dangerous Times: What Every Person Must Know About Self-Defense)
Those who do surya namaskars regularly find that their batteries last longer, with less need for recharge or replenishment. Additionally, the surya namaskar aids the balance or reorganization of inner energies, in terms of right and left, or lunar and solar dimensions. This produces an innate physical and psychological equilibrium that can be an enormous asset in one’s daily life. As
Sadhguru (Inner Engineering: A Yogi's Guide to Joy)
Into this stronghold of royalist tradition and prejudice, Shelley unloaded truckloads of French philosophy, German horror novels, his solar microscope and several crates of chemical and electrical equipment, including a system of Voltaic batteries and a hand-cranked generator.
Richard Holmes
SolarShare enables Irish homeowners to generate and harness their own electricity from sunlight using solar PV panels and energy storage batteries.
SolarShare
In 2015, JB Straubel, Tesla’s CTO, developed yet another new line of business for the automaker, selling large battery packs for home and commercial spaces, which appealed to solar customers eager to capture the energy they were creating by day to use at night.
Tim Higgins (Power Play: Tesla, Elon Musk, and the Bet of the Century)
If Tesla was positioning itself to build battery packs and sell them as part of solar panel systems, they should control the entire customer experience. To board members such as Gracias, it crystallized the understanding that they were moving into a new era for the company: the electricity storage business.
Tim Higgins (Power Play: Tesla, Elon Musk, and the Bet of the Century)
He wanted to, he wrote, “create a smoothly integrated and beautiful solar-roof-with-battery product that just works, empowering the individual as their own utility, and then scale that throughout the world. One ordering experience, one installation, one service contact, one phone app.
Tim Higgins (Power Play: Tesla, Elon Musk, and the Bet of the Century)
And then the great excitement of the solar breakthrough dimmed. As Pearson would later recall, the installation was “a huge technical success, but a financial failure.” The solar battery could power the remote telephone equipment with ease. But for the power they generated, the solar cells, at several hundred dollars per watt, simply cost too much.19 In 1956, Daryl Chapin figured that it would cost the average homeowner nearly $1.5 million to buy enough Bell solar cells to power his house.20 By one of Kelly’s fundamental dictums of innovation—something that could do a job “better, or cheaper, or both”—the cost of the cells and the results in Georgia suggested solar power was not going to be a marketable innovation anytime soon. Sometimes, in describing a new invention that seemed technically brilliant but impractical, industrial scientists would quip that they had found “a solution looking for a problem.” The silicon solar cell needed a problem, as yet unimagined, to appear.
Jon Gertner (The Idea Factory: Bell Labs and the Great Age of American Innovation)
Although be aware that this value is deceiving due to other efficiency losses (heating/wiring resistance/Inverter switching). The maximum safe “continuous” amps to draw from a battery is AH/10. So if your battery has a 100Ah rating the maximum that should be drawn is 100Ah/10=10amps max over an extended period of time. If you’re just running a power drill or high current appliance for a couple minutes then it shouldn’t bother it. Voltage ratings The common voltage ratings for a solar setup are 12v, 24v, 48v.
Steven Miller (Basic Solar Component Guide)
Batteries are rated by an Ah (Amp Hour Rating).  The rating is given by the manufacturer as indicator to how much current the battery can supply over a given amount of time. 10Ah = 10amp load for 1 hour or 1 amp load for 10 hours. Although be aware that this value is deceiving due to other efficiency losses (heating/wiring resistance/Inverter switching). The maximum safe “continuous” amps to draw from a battery is AH/10. So if your battery has a 100Ah rating the maximum that should be drawn is 100Ah/10=10amps max over an extended period of time. If you’re just running a power drill or high current appliance for a couple minutes then it shouldn’t bother it. Voltage ratings The common voltage ratings for a solar setup are 12v, 24v, 48v.
Steven Miller (Basic Solar Component Guide)
RENEWABLE ENERGY REVOLUTION: SOLAR + WIND + BATTERIES In addition to AI, we are on the cusp of another important technological revolution—renewable energy. Together, solar photovoltaic, wind power, and lithium-ion battery storage technologies will create the capability of replacing most if not all of our energy infrastructure with renewable clean energy. By 2041, much of the developed world and some developing countries will be primarily powered by solar and wind. The cost of solar energy dropped 82 percent from 2010 to 2020, while the cost of wind energy dropped 46 percent. Solar and onshore wind are now the cheapest sources of electricity. In addition, lithium-ion battery storage cost has dropped 87 percent from 2010 to 2020. It will drop further thanks to the massive production of batteries for electrical vehicles. This rapid drop in the price of battery storage will make it possible to store the solar/wind energy from sunny and windy days for future use. Think tank RethinkX estimates that with a $2 trillion investment through 2030, the cost of energy in the United States will drop to 3 cents per kilowatt-hour, less than one-quarter of today’s cost. By 2041, it should be even lower, as the prices of these three components continue to descend. What happens on days when a given area’s battery energy storage is full—will any generated energy left unused be wasted? RethinkX predicts that these circumstances will create a new class of energy called “super power” at essentially zero cost, usually during the sunniest or most windy days. With intelligent scheduling, this “super power” can be used for non-time-sensitive applications such as charging batteries of idle cars, water desalination and treatment, waste recycling, metal refining, carbon removal, blockchain consensus algorithms, AI drug discovery, and manufacturing activities whose costs are energy-driven. Such a system would not only dramatically decrease energy cost, but also power new applications and inventions that were previously too expensive to pursue. As the cost of energy plummets, the cost of water, materials, manufacturing, computation, and anything that has a major energy component will drop, too. The solar + wind + batteries approach to new energy will also be 100-percent clean energy. Switching to this form of energy can eliminate more than 50 percent of all greenhouse gas emissions, which is by far the largest culprit of climate change.
Kai-Fu Lee (AI 2041: Ten Visions for Our Future)
This transmutation of the reproductive energy gives great vitality to those practicing it. They will be filled with great vital force, which will radiate from them and will manifest in what has been called "personal magnetism." The energy thus transmuted may be turned into new channels and used to great advantage. Nature has condensed one of its most powerful manifestations of prana into reproductive energy, as its purpose is to create. The greatest amount of vital force is concentrated in the smallest area. The reproductive organism is the most powerful storage battery in animal life, and its force can be drawn upward and used, as well as expended in the ordinary functions of reproduction, or wasted in riotous lust. The majority of our students know something of the theories of regeneration; and we can do little more than to state the above facts, without attempting to prove them. The Yogi exercise for transmuting reproductive energy is simple. It is coupled with rhythmic breathing, and can be easily performed. It may be practiced at any time, but is specially recommended when one feels the instinct most strongly, at which time the reproductive energy is manifesting and may be most easily transmuted for regenerative purposes. The exercise is as follows: Keep the mind fixed on the idea of Energy, and away from ordinary sexual thoughts or imaginings. If these thoughts come into the mind do not be discouraged, but regard them as manifestations of a force which you intend using for the purposes of strengthening the body and mind. Lie passively or sit erect, and fix your mind on the idea of drawing the reproductive energy upward to the Solar Plexus, where it will be transmuted and stored away as a reserve force of vital energy. Then breathe rhythmically, forming the mental image of drawing up the reproductive energy with each inhalation. With each inhalation make a command of the Will that the energy be drawn upward from the reproductive organization to the Solar Plexus. If the rhythm is fairly established and the mental image is clear, you will be conscious of the upward passage of the energy, and will feel its stimulating effect. If you desire an increase in mental force, you may draw it up to the brain instead of to the Solar Plexus, by giving the mental command and holding the mental image of the transmission to the brain. The man or woman doing metal creative work, or bodily creative work, will be able to use this creative energy in their work by following the above exercise, drawing up the energy with the inhalation and sending it forth with the exhalation. In this last form of exercise, only such portions as are needed in the work will pass into the work being done, the balance remaining stored up in the Solar Plexus. You will understand, of course, that it is not the reproductive fluids which are drawn up and used, but the etheripranic energy which animates the latter, the soul of the reproductive organism, as it were. It is usual to allow the head to bend forward easily and naturally during the transmuting exercise.
William Walker Atkinson (The Hindu-Yogi Science Of Breath)
Therma are an established Solar Panel & Solar Battery Storage company based in Essex with over 5 years' experience in the industry.
Therma
The Keeling Curve is a useful reality check, one that cuts through all the noise and confusion of the climate and energy debates. Unlike the slopes of the huge volcano on which it is measured, the initially gentle upward curve gets steeper the higher you go. That means that the rate of CO2 accumulation in the atmosphere is steadily increasing, from roughly 1 ppm in the early years to about 2 ppm annually today. There is no visible slowdown, no sudden downwards blip, to mark the implementation of the Kyoto Protocol, still less 2009’s Copenhagen ‘two degrees’ commitment or the landmark Paris Agreement of 2015. All those smiling heads of state shaking hands, the diplomats hugging on the podium after marathon sessions of all-night negotiating – none of that actually made any identifiable difference to the Keeling Curve, which is the only thing that actually matters to the planet’s temperature. All our solar panels, wind turbines, electric cars, lithium-ion batteries, LED lightbulbs, nuclear plants, biogas digesters, press conferences, declarations, pieces of paper; all our shouting and arguing, weeping and marching, reporting and ignoring, decrying and denying; all our speeches, movies, websites, lectures and books; our announcements, carbon-neutral targets, moments of joy and despair; none of these to date have so much as made the slightest dent in the steepening upward slope of the Keeling Curve.
Mark Lynas (Our Final Warning: Six Degrees of Climate Emergency)
Since 2010, the price of electricity from utility-scale solar farms has fallen almost 90 percent. Onshore wind fell 60 percent in the same time. Advanced batteries, which power electric cars and are increasingly finding a role in balancing fluctuations on the electric grid, fell more than 80 percent. When highly efficient light bulbs made with light-emitting diodes, or LEDs, first came out just over a decade ago, you could easily pay $50 for one; nowadays they sell at Home Depot for $1.24 apiece, a decline of 97 percent.
Hal Harvey (The Big Fix: Seven Practical Steps to Save Our Planet)
Germany, richer than India, has about seventy energy-storage projects, about a third of which collect the output from wind and solar plants into banks of batteries. The price of batteries, like the price of photovoltaics, has been falling. Renewable-energy enthusiasts imagine great warehouses full of batteries, soaking up excess sun power by day, releasing it by night, keeping the lights on in the dark. But no matter how cheap the batteries are, such facilities will involve constructing a second, parallel infrastructure for energy storage, adjacent to the first, for energy production, a costly step for the foreseeable future. Today, as in Mouchot’s time, free energy from the sun is surprisingly expensive.
Charles C. Mann (The Wizard and the Prophet: Two Remarkable Scientists and Their Dueling Visions to Shape Tomorrow's World)
Sun power’s image as the province of baling-wire hippies was at odds with reality. Today’s multibillion-dollar photovoltaic industry owes its existence mainly to the Pentagon and Big Oil. The first wide-scale use of solar panels had come in the 1960s: powering military satellites, which couldn’t use fossil fuels (too bulky to lift into space) or batteries (impossible to recharge in orbit). By the 1970s photovoltaics were cheaper, but the industry had acquired only one major new user: the petroleum industry. Some 70 percent of the solar modules sold in the United States were bought to run offshore drilling platforms.
Charles C. Mann (The Wizard and the Prophet: Two Remarkable Scientists and Their Dueling Visions to Shape Tomorrow's World)
failed to create an arm of the government that will be forever attached to his name, nothing like Obamacare or remotely resembling social security. But the thrust of the Inflation Reduction Act can still be described as transformational—and it will change American life. The theory of the legislation is that the world is poised for a momentous shift. For a generation, the economy has taken tentative steps away from its reliance on fossil fuels. New technologies emerged that lowered the costs of solar panels and wind turbines and batteries; the mass market showed genuine interest in electric vehicles and heat pumps. But the pace of adaptation was slow, painfully slow given the looming changes to the climate. On its own, the economy was never going to evolve in time to avert the worst consequences
Franklin Foer (The Last Politician: Inside Joe Biden's White House and the Struggle for America's Future)
of climate change. What was needed was a massive nudge in the right direction. In the past, the stick of regulation and the rod of taxation were the methods that environmentalists believed could break the fossil fuel economy. But the Inflation Reduction Act doesn’t rely on such punitive tactics, because Manchin culled them from the bill. Instead, it imagined that the United States could become the global leader of a booming climate economy, if the government provided tax credits and subsidies, a lucrative set of incentives. There was a cost associated with the bill. By the Congressional Budget Office’s score, it offered $386 billion in tax credits to encourage the production of wind turbines, solar panels, geothermal plants, and battery storage. Tax credits would reduce the cost of electric vehicles so that they would become the car of choice for Middle America. But $386 billion was an estimate, not a price tag, since the legislation didn’t cap the amount of money available in tax credits. If utilities wanted to build more wind turbines or if demand for electric vehicles surged, the government would keep spending. When Credit Suisse studied the program, it estimated that so many businesses and consumers will avail themselves of the tax credits that the government could spend nearly $800 billion. If Credit Suisse is correct, then the tax credits will unleash $1.7 trillion in private sector spending on green technologies. Within six years, solar and wind energy produced by the US will be the cheapest in the world. Alternative energies will cross a threshold: it will become financially irresponsible not to use them. Even though Joe Biden played a negligible role in the final negotiations, the Inflation Reduction Act exudes his preferences. He romanticizes the idea of factories building stuff. It is a vision of the Goliath of American manufacturing, seemingly moribund, sprung back to life. At the same time that the legislation helps to stall climate change, it allows the United States to dominate the industries of the future. This was a bill that, in the end, climate activists and a broad swath of industry could love. Indeed, strikingly few business lobbies, other than finance and pharma, tried to stymie the bill in its final stages. It was a far cry from the death struggles over energy legislation in the Clinton and Obama administrations, when industry scuppered transformational legislation. The Inflation Reduction Act will allow the United States to prevent its own decline. And not just economic decline. Without such a meaningful program, the United States would have had no standing to prod other countries to respond more aggressively to climate change. It would have been a marginal player in shaping the response to the planet’s greatest challenge. The bill was an investment in moral authority.
Franklin Foer (The Last Politician: Inside Joe Biden's White House and the Struggle for America's Future)
SolarCity is a key part of what can be thought of as the unified field theory of Musk. Each one of his businesses is interconnected in the short term and the long term. Tesla makes battery packs that SolarCity can then sell to end customers. SolarCity supplies Tesla’s charging stations with solar panels, helping Tesla to provide free recharging to its drivers. Newly minted Model S owners regularly opt to begin living the Musk Lifestyle and outfit their homes with solar panels. Tesla and SpaceX help each other as well. They exchange knowledge around materials, manufacturing techniques, and the intricacies of operating factories that build so much stuff from the ground up.
Ashlee Vance (Elon Musk: How the Billionaire CEO of SpaceX and Tesla is Shaping our Future)
The vast majority of major, collaborative infrastructure projects around the world have been guided by government policy and funded by public resources: sanitation systems, road systems, railway networks, public health systems, national power grids, the postal service. These are not the spontaneous outcomes of market forces, much less of abstract growth. Projects like these require public investment. Once we realise this, it becomes clear that we can fund the transition quite easily by directing existing public resources from, say, fossil fuel subsidies (which presently stand at $5.2 trillion, 6.5% of global GDP) and military expenditure ($1.8 trillion) into solar panels, batteries and wind turbines.
Jason Hickel (Less Is More: How Degrowth Will Save the World)
Batteries: The Key to a Renewable Future Modern civilization depends upon a constant, reliable stream of energy. However, renewables such as wind and solar are notoriously intermittent; wind depends on the whim of nature, and solar power dries up as the sun goes down. Batteries solve this problem by storing excess power generated throughout the day and supplying it in the absence of sunlight or wind. In addition, batteries respond well to high electricity demands, help lower energy costs, and ensure reliability. They are the most crucial components in any clean power future. Power storage is a much more difficult technological problem than power generation. From lithium ion to rechargeable flow, inventors and developers have experimented with many new ideas. There is not yet a magic bullet to solve our power storing needs. The good news, however, is that in the past decade, batteries have made great strides in capacity and lower prices. This is due in part to the electric vehicle industry, which relies heavily on efficient lithium ion batteries. In 2016, Tesla Inc. began manufacturing its Powerwall and Powerpack energy products at its Gigafactory, currently the world’s largest lithium ion battery factory. The goal of the plant is to drive down the cost of the company’s electric vehicle and energy storage batteries while also spurring innovation. Doing so, according to the company, will make renewable energy storage a more accessible and viable option.
Al Gore (An Inconvenient Sequel: Truth to Power: Your Action Handbook to Learn the Science, Find Your Voice, and Help Solve the Climate Crisis)
Ultimately, it doesn’t matter how cheap solar gets unless we can store that energy, and storage on this scale has never been achieved before. Grid-level storage requires colossal batteries. Today’s lithium-ion batteries are woefully inadequate. Their storage capacity would need to be improved ten- to twentyfold, and—if we really want them to be scalable—they have to be built from Earth-abundant elements.
Peter H. Diamandis (Abundance: The Future is Better Than You Think)
Tesla is a vehicle for an idea: that we humans have better ways to power our lives than to burn a dinosaur-era compaction that dirties the air and skanks up the chemistry of the atmosphere. That notion applies to more than just cars. Tesla also sells its batteries as energy storage units. Since it acquired SolarCity in 2016 and added solar panels to its offerings, Musk has made his intentions clear: Tesla is an energy company. This is the story of how the electric car became a Trojan horse for a new energy economy. I believe it is the most important technology story of the twenty-first century.
Hamish McKenzie (Insane Mode: How Elon Musk's Tesla Sparked an Electric Revolution to End the Age of Oil)
How does one power a spacecraft that will be traveling for at least a decade on a journey so far from the Sun that our star shines there at less than a thousandth of its brightness at Earth? Solar arrays won’t work that far from the Sun, and no battery is powerful and light enough to do the job of powering a decade-long mission. But the radioactive decay of plutonium (an element that was discovered in 1940 and was named for Pluto) passively generates heat without fail—and that heat can be turned into electricity. For this reason, plutonium-fueled nuclear batteries have been the power supplies of choice for deep-space interplanetary missions to the most distant planets from the Sun.
Alan Stern (Chasing New Horizons: Inside the Epic First Mission to Pluto)
A typical 100-kilowatt-hour Tesla lithium-ion battery is built in China on a largely coal-powered grid. Such an energy- and carbonintensive manufacturing process releases 13,500 kilograms of carbon dioxide emissions, roughly equivalent to the carbon pollution released by a conventional gasoline-powered car traveling 33,000 miles. That 33,000-miles figure assumes the Tesla is only recharged by 100 percent greentech-generated electricity. More realistically? The American grid is powered by 40 percent natural gas and 19 percent coal. This more traditional electricity-generation profile extends the “carbon break-even” point of the Tesla out to 55,000 miles. If anything, this overstates how green-friendly an electric vehicle might be. Most cars—EVs included—are driven during the day. That means they charge at night, when solar-generated electricity cannot be part of the fuel mix.*
Peter Zeihan (The End of the World is Just the Beginning: Mapping the Collapse of Globalization)