Hydroelectric Quotes

My father says that trying to stop hate is like trying to stop the tides,” Rashid said. “The best thing you can do is take advantage of it. Don’t stop the tide from flowing. Build a hydroelectric dam and make electricity instead, enough to power ten thousand houses. That’s how you stop hate.

fourth risk: the electrical grid. The river and its tributaries generate more than 40 percent of the hydroelectric power for the United States; were the dams to fail, the effects would be catastrophic.

The explosive development of technology was analogous to the grown of cancer cells, and the results would be identical: the exhaustion of all sources of nourishment, the destruction of organs, and the final death of the host body. He advocated abolishing crude technologies such as fossil fuels and nuclear energy and keeping gentler technologies such as solar power and small-scale hydroelectric power.

Its real deity, I saw, was no longer of a spiritual kind: it was Comfort. No doubt that there were still many individuals who felt and thought in religious terms and made the most desperate efforts to reconcile their moral beliefs with the spirit of their civilization, but they were only exceptions. The average European - whether democrat or communist, manual worker or intellectual - seemed to know only one positive faith: the worship of material progress, the belief that there could be no other goal in life than to make that very life continually easier or, as the current expression went, 'independent of nature'. The temples of faith were the gigantic factories, cinemas, chemical laboratories, dance halls, hydroelectric works; and its priests were the bankers, engineers, politician, film starts, statisticians, captains of industry, record airmen, and commissars.

The world that is being created by the accumulation of technical means is an artificial world and hence radically different from the natural world. It destroys, eliminates, or subordinates the natural world, and does not allow this world to restore itself or even to enter into a symbiotic relation with it. The two worlds obey different imperatives, different directives, and different laws which have nothing in common. Just as hydroelectric installations take waterfalls and lead them into conduits, so the technical milieu absorbs the natural. We are rapidly approaching the time when there will be no longer any natural environment at all. When we succeed in producing artificial aurorae boreales, night will disappear and perpetual day will reign over the planet.

People make reality. Hydroelectric dams. Undersea tunnels. Supersonic transport. Tough to stand against that.” Watchman smiles, tired. “We don’t make reality. We just evade it. So far. By looting natural capital and hiding the costs. But the bill is coming, and we won’t be able to pay.

the real risk with AGI isn’t malice but competence. A superintelligent AI will be extremely good at accomplishing its goals, and if those goals aren’t aligned with ours, we’re in trouble. As I mentioned in chapter 1, people don’t think twice about flooding anthills to build hydroelectric dams, so let’s not place humanity in the position of those ants.

Because immobility is the key to exploitation, fixed capital, like labor, can also be exploited in the short term. And, since some capital goods can last longer than the average life span of a worker, once a hydroelectric plant has been built, both local taxes and local unions can absorb much of its profits, to the point of making very difficult that someone is ever willing to build another hydroelectric plant in that jurisdiction.

The wind tonight Seems full of echoes Wind in the pine, fireflies, lamplight from a hydro-electric station All reminding me of a distant dream. My memory is like a small overloaded wooden bridge Spanning the banks of time

He believed that technological progress was a disease in human society. The explosive development of technology was analogous to the growth of cancer cells, and the results would be identical: the exhaustion of all sources of nourishment, the destruction of organs, and the final death of the host body. He advocated abolishing crude technologies such as fossil fuels and nuclear energy and keeping gentler technologies such as solar power and small-scale hydroelectric power. He believed in the gradual de-urbanization of modern metropolises by distributing the population more evenly in self-sufficient small towns and villages. Relying on the gentler technologies, he would build a new agricultural society.

Based on these two successes, Pan’s opinions on social issues had grown more and more influential. He believed that technological progress was a disease in human society. The explosive development of technology was analogous to the growth of cancer cells, and the results would be identical: the exhaustion of all sources of nourishment, the destruction of organs, and the final death of the host body. He advocated abolishing crude technologies such as fossil fuels and nuclear energy and keeping gentler technologies such as solar power and small-scale hydroelectric power. He believed in the gradual de-urbanization of modern metropolises by distributing the population more evenly in self-sufficient small towns and villages. Relying on the gentler technologies, he would build a new agricultural society.

Turbines designed for low-flow situations would be wasteful in times of high water. Turbines designed for high efficiency at, say, five hundred cubic feet per second might be ineffective in times of low water. Under certain conditions, turbines can go into a state of cavitation, wherein vaporizing water creates bubbles that implode on the metal and riddle it with tiny holes. The ideal turbine for a little mill up a creek somewhere in inconsistent country would be one that was prepared to take whatever might come, to sit there and react calmly in any situation, to respond evenly to wild and sudden demands, to make the best of difficult circumstances, to remain steadfast in time of adversity, to keep going, above all to press on, to persevere, and not vibrate, fibrillate, vacillate, cavitate, or panic - in short, to accept with versatile competence what is known in hydroelectrical engineering as the run of the river.

For electric vehicles, the power plant generators alimenting the electrical grind will then produce the GHGs, not the car engine itself. Concerns for GHG emissions would then shift to the source of electric power generation and away from car manufacturers. Currently, there is a wide difference in GHGs emissions in various electrical grids, depending on the source of energy fueling the generators. The low emissions from Swedish and French grids are explained by a combination of nuclear and hydroelectric generation, while the high emissions of the Polish and US grids stem from the use of coal as a fuel in some generators. However, the emissions from the Californian grid are nearly half those of the IS average! The regional differences in emissions in the US grid are also explained by the differences in fuels used for electricity generation: California has a high proportion of hydroelectricity and nuclear plants, while in Michigan generation plants the dominant production fuels are coal and crude oil. Anybody concerned with GHG emissions should certainly switch to electric cars in Sweden, France, and California, but should use gasoline when driving in Michigan or Poland!

Tegmark: That’s right, and there’s a more elemental example. In a certain sense, your genes have invented you. They built your brain so that you could make copies of your genes. That’s why you like to eat—so you won’t starve to death. And that’s why we fall in love—to make copies of our genes, right? But even though we know this, we still choose to use birth control, which is the opposite of what our genes want. Some people dismiss the idea that there will ever be anything smarter than humans for mystical reasons—because they think there’s something more than quarks and electrons and information processing going on in us. But if you take the scientific approach, that you really are your quarks, then there’s clearly no physical law of physics that precludes anything more intelligent than a human. We were constrained by how many quarks you could fit into a skull, and things like that—constraints that computers don’t have. It becomes instead more a question of time. And, as you said, there’s a relentless pressure to make smarter things, because it’s profitable and interesting and useful. The question isn’t if this will happen, but when. And finally, to come back to those ants. Suppose you’re in charge of a huge green-energy project, and just as you’re about to let the water flood the hydroelectric dam you’ve built, someone points out that there’s an anthill right in the middle of the flood zone. Now, you know the ants don’t want to be drowned, right? So you have to make a decision. What are you going to do? Harris: Well, in that case, too bad for the ants. Tegmark: Exactly. So we ought to plan ahead. We don’t want to end up like the ants.

The present historical account of the origins of political institutions needs to be seen in proper perspective. No one should expect that a contemporary developing country has to replicate all of the violent steps taken by China or by societies in Europe to build a modern state, or that a modern rule of law needs to be based in religion. We have seen how institutions were the products of contingent historical circumstances and accidents that are unlikely to be duplicated by other differently situated societies. The very contingency of their origins, and the prolonged historical struggles that were required to put them in place, should imbue us with a certain degree of humility in approaching the task of institution building in the contemporary world. Modern institutions cannot simply be transferred to other societies without reference to existing rules and the political forces supporting them. Building an institution is not like building a hydroelectric dam or a road network. It requires a great deal of hard work to persuade people that institutional change is needed in the first place, build a coalition in favor of change that can overcome the resistance of existing stakeholders in the old system, and then condition people to accept the new set of behaviors as routine and expected. Oftentimes formal institutions need to be supplemented by cultural shifts; electoral democracy won’t work well, for example, if there isn’t an independent press and a self-organizing civil society to keep governments honest.

Armstrong’s hydro-electric machine – to its visitors. This gargantuan piece of equipment could be used to mount a truly spectacular extravaganza of sparks and explosions. The press was duly primed to note its substantial dimensions, with a boiler 7.5ft long and 3.5ft in diameter, to produce steam; the steam then came gushing out of a series of nozzles to produce the electricity, which powered the whole contraption.

the Three Gorges Dam, the most ambitious and controversial hydroelectric development ever undertaken. It took fifty years to plan, fifteen years to build, $24 billion to pay for, and 16 million tons of reinforced concrete to fill. The giant barrier has created a reservoir that stretches back along the Yangtze almost the length of England.21 This mass of water drives twenty-six giant turbines to generate up to 18,000 megawatt-hours of electricity. There are few more fitting monuments to early twenty-first-century China.

One of my favourite anecdotes is the first electric street lighting in one Nelson suburb that was powered by a small hydroelectric generator, in the hills above the city. To switch the lights on and off, a chicken run was added to the power plant. At dusk every night the chooks would go inside their coop and roost on a special hinged perch. The perch sank under their weight, and connected a switch which turned on the street lights. At first light the hens would leave the coop, the spring-loaded perch swung back and the lights went out again.

hydropower is an obvious first choice for generating electricity. The Willamette Falls Electric Company installed the first AC hydroelectric power station in the United States in 1889 to send power from Oregon City to Portland, Oregon, thirteen miles away.

After Apollo, Norton, still with TRW, worked on a project to computerize the distribution of hydroelectric power in the Northwest. He was still writing his painfully detailed critiques of other people’s software. As it happened, a high school senior named Bill Gates came to work for him as a programmer. Gates has credited Norton with being among his best software teachers. Norton surely learned more from reading our code than we learned from him. Users of Microsoft software might wish he had learned more.

I’ve been a passionate adventurer in the solar industry and the sustainability movement my whole life. I try hard to walk my talk. My wife, Nantzy, and I live in an off-the-grid home (see page 70) built of recycled and green materials, powered by solar (passive and active) and hydroelectric energy, with gorgeous biodynamic gardens and fruit orchards that provide most of our food, a 15-acre biodynamic olive orchard, an 8-acre biodynamic vineyard, and a dozen beehives. I’m fortunate to benefit from the fruits of all our collective labors. As the solar industry continues to grow and mature, and as our cultural consciousness evolves, I remain hopeful that, once and for all, we will get things right in

This is the place to dispel the "solar myth." The United States is a relatively sunlit nation of low population density, a particularly favorable place for solar energy. Yet even in the United States the numbers don't work out for it. In 1971 the average United States energy use was 0.3 watts per square meter. Staying with those units, the use rate will be 4.4 a century from now, even at the very modest growth rate of 2.5 percent per year overall (including population increase). Windpower, tidepower, photosynthesis, and hydroelectric power are all forms of solar energy. If

Bhutanese believe that economic development should never come at the cost of their people’s happiness. Therefore, in every trade deal the government enters into (for example, the sale of hydroelectric power to neighboring India), culture is valued more than cash.

During Dorabji’s leadership, three hydroelectric power companies, two cement companies, a large edible oil and soap company, an insurance company and an airline were added to the Tata group. Dorabji’s role in building the Tata empire is often glossed over, perhaps because he was overshadowed by two particularly charismatic individuals—his predecessor Jamsetji and his successor JRD.

Thoughts at a Café Table Between the Kazan and the Iron Gates Progress has now placed the whole of this landscape underwater. A traveller sitting at my old table on the quay at Orsova would have to peer at the scenery through a thick brass-hinged disc of glass; this would frame a prospect of murk and slime [...] Moving a couple of miles downstream, he would fumble his way on to the waterlogged island and among the drowned Turkish houses; or, upstream, flounder among the weeds and rubble choking Count Széchenyi's road and peer across the dark gulf at the vestiges of Trajan on the other side; and all round him, above and below, the dark abyss would yawn and the narrows where currents once rushed and cataracts shuddered from bank to bank and echoes zigzagged along the vertiginous clefts would be sunk in diluvian since. [...] He could toil many days up these cheerless soundings, for Rumania and Yugoslavia have built one of the world's biggest ferro-concrete dams and hydro-electric power plants across the Iron Gates. This has turned a hundred and thirty miles of the Danube into a vast pond which has swollen and blurred the course of the river beyond recognition. It has abolished cayons, turned beetling crags into mild hills and ascended the beautiful Cerna valley almost to the Baths of Hercules. Many thousands of the inhabitabnts of Orşova and the riparian hamlets had to be uprooted and transplanted elsewhere. The islanders of Ada Kaleh have been moved to another islet downstream and their old home has vanished under the still surface as though it has never been. Let us hope that the power generated by the dam has spread well-being on either bank and lit up Rumanian and Yugoslav towns brighter than ever before because, in everything but economics, the damage is irreparrable. [... M]yths, lost voices, history and hearsay have all been put to rout, leaving nothing but this valley of shadow. Goethe's advice, 'Bewahre Dich vor Räuber und Ritter und Gespenstergeschichten',* has been taken literally, and everything has fled. _____________ * Beware of the robber, the cavalier, and ghost stories.

Jamsetji Tata set four long-term corporate goals. The first was to build an iron and steel plant. The second was to bring hydroelectric power to India. The third, which was truly remarkable for the time, was to create a world-class institute of science in and for the nation. Beyond these, his fourth goal was to give to Bombay and to India a world-class hotel.

While everything requires work to be produced, practically nothing can be produced with work alone. Farmers need land; taxi drivers, cars; the artists, something to paint and something to paint with. Even a comedian needs an inventory of jokes, his capital, as well as hydroelectric dams are the capital of the companies that generate electricity. Capital complements workers in the production process, but it also competes with them for jobs. In other words, many goods and services can be produced with either a lot of labor and little capital

Honor He Wrote Sonnet 8 Give me a spark of your nerves, I'll turn it into thunder strike. Give me a tremor of your lips, I'll turn it into landslide. Give me a teardrop of your eyes, I'll turn it into tsunami. Give me the sweat of your labor, I'll turn it into hydroelectricity. Give me a beat of your heart, I'll turn it into an earthquake. Give me a touch of your fingers, I'll turn it into society’s duct tape. Ingredients of reform are born of your veins. Renounce your apathy and reform will rain.

believed that technological progress was a disease in human society. The explosive development of technology was analogous to the growth of cancer cells, and the results would be identical: the exhaustion of all sources of nourishment, the destruction of organs, and the final death of the host body. He advocated abolishing crude technologies such as fossil fuels and nuclear energy and keeping gentler technologies such as solar power and small-scale hydroelectric power. He believed in the gradual de-urbanization of modern metropolises by distributing the population more evenly in self-sufficient small towns and villages. Relying on the gentler technologies, he would build a new agricultural society.

The plan was majestic. It contemplated two huge new dams on the Colorado River in Marble Gorge and Bridge Canyon, at opposite ends of Grand Canyon National Park. Both had been carefully situated so as not to flood the park itself—except for what the Bureau called “minor” flooding that would drown lower Havasu Creek, the canyon’s most beautiful side stream, and submerge Lava Falls, the river’s most thunderous rapid. But the park would sit inside a dam sandwich: Bridge Canyon Dam would back up water for ninety-three miles below it, entirely flooding the bottom of Grand Canyon National Monument, and Marble Gorge Dam would create a reservoir more than forty miles long right above it. The dams had one purpose—hydroelectric power—and a single objective: lots and lots of cash. They would not conserve any water, because there was none left to conserve; in some years, they would cause a net loss to the river through evaporation. They were there only to take advantage of the thousand feet of elevation loss between Glen Canyon and Hoover dams. Together, they would generate 2.1 million kilowatts of peaking power, marketable at premium rates. Later, the power revenues would finance an artificial river of rescue; for now it would pay for the other features of the plan. One of those features—actually, it was the centerpiece of the plan—was a pair of big dams on the Trinity River, in far-northern California, and a long hard-rock tunnel that would turn their water into the Sacramento River, where it would begin its journey to Los Angeles.

Politics don‘t stop love. He will say to her: "You are as beautiful as our new hydro-electric plant." And she will reply: "Comrade, how progressive of you.

Presented in the mainstream discourse as stimulus-response-driven or genetically programmed automatons, who lack agency and experiential perspective, animals are the archetypal Other, inferior to humans and an object that can be exploited for work, consumer goods, entertainment, science, or killed and displaced at liberty. This instrumental relationship served as a blueprint for the subjection of Nature, which transformed 'fish into fisheries, forests and trees into timber, animals into livestock, wildlife into game, mountains into coal, seashores into beachfronts, rivers into hydroelectric factories' and converted the animals’ homes into resources for unlimited human use and capitalist profit.

In 2011 Addis Ababa announced a joint project with China to build a massive hydroelectric project on the Blue Nile near the Sudanese border called the Grand Renaissance Dam. In 2017 the dam was almost complete, but it will take several years to fill the reservoir with water. The dam will be used to create electricity, and the flow to Egypt should continue; but in theory the reservoir could also hold a year’s worth of water, and completion of the project would give Ethiopia the potential to hold the water for its own use, thus drastically reducing the flow into Egypt.

You’re probably not an ant hater who steps on ants out of malice, but if you’re in charge of a hydroelectric green energy project and there’s an anthill in the region to be flooded, too bad for the ants. The beneficial-AI movement wants to avoid placing humanity in the position of those ants.

Your leadership skill-set might be what we have been waiting for, to bring order and finality to major challenges that affect the global village. The vast hydroelectric generation capacity in Africa, particularly the Great Lakes region and along the Nile River, still remains unutilized potential not benefiting the people of Africa most of whom continue to live in darkness and depleting the forests looking for wood fuel and more fertile farming land.

In the face of this vision, Powell put forth another. What was needed above all else, Powell believed, was to know the land, to understand the land, and to react accordingly. This had practical consequences: while a cow might properly graze on a half-acre in the lush East, it would require fifty times that amount of land in most of the West. It followed that the standard acreage of settlement should be different, and it followed that settlement should take into account sources of water. Powell’s goal with his survey was to clearly map out the western lands, to determine what land could be realistically used for agriculture, which meant also determining where irrigation dams should be placed for best effect. In other words, his goal, to use Wendell Berry’s phrase, was to think about “land use” and to do so on a massive scale. Specifically, Powell wanted to think out the uses of land that would be the most beneficial and fruitful for the human beings living there, and for the entire ecosystem (though that word did not yet exist). From the Mormons, Powell learned how “salutary co-operation could be as a way of life, how much less wasteful than competition.” In the late 1880s, Powell wrote a General Plan for land use in the West that “reached to embrace the related problems of land, water, erosion, floods, soil conservation, even the new one of hydroelectric power” that was based on “the settled belief in the worth of the small farmer and the necessity of protecting him both from speculators and from natural conditions he did not understand and could not combat.” It was a methodical, sensible, scientific approach, essentially a declaration of interdependence between the people and their land, and the miracle is that it came very close to passing into law. But of course it met with fierce opposition from those who stood to profit from exploitation, from the boosters and boomers and politicians who thought it “unpatriotic” to describe the West as dry. After all, how dare he call their garden a desert? What right did he have to come in and determine what only free individuals should? Powell was attacked in the papers, slandered in Congress. According to Stegner, Congressman Thomas M. Patterson of Colorado referred to Powell as “this revolutionist,” and the overall attack on Powell “distinguished itself for bombast and ignorance and bad faith.

Sometimes just to see what was happening, my father would drive to the airport. Newark Airport was the first major airport serving the greater New York area. It was opened for traffic on October 1, 1928, on 68 acres of reclaimed marshland next to the Passaic River. The Port Authority of New York and New Jersey later took it over from the Army Air Corps in 1948 and started a major improvement program. Driving by and seeing activity from the road, we drove to where Eastern Airlines had a shiny new DC-3 on display, and as luck would have it, it was open to the public. It was an exciting moment when I boarded this aircraft and discovered that it was first constructed in 1934, the same year I was born. An example of modern technology, it was the first modern airliner and the forerunner of commercial aviation. It would still be years before I would learn to fly an airplane, but for now, things could not get much better. On our way back to Jersey City, we drove over the Pulaski Skyway, one of the first elevated highways in the country. The United States was trying to crawl out of the worst depression ever and government projects, backed by stimulus money, were everywhere. The Tennessee Valley Authority was building dams to run hydroelectric generators in the South, and big projects like Boulder Dam were being built out West along the Colorado River. The nation’s electrical grid was expanding by leaps and bounds and highway construction projects with new bridges were being built. The United States was growing once again, and I was there to see it!

Neighborhood In the broadest sense, the neighborhood is a friendly atmosphere of security that lies between two or more human virtues and nobility. Therefore, the neighborhood is also spread out prevalently from human kindness and sympathy. Neighborhood is not something “scientific”, resembling a “scientific fact” that has the date of its discovery. The neighborhood, therefore, can not be defined as same way we define chemical formula. Neighborhood is not an object or concept that is somewhere in the institute's cabins made and then is applied to us. The neighborhood is above all the giving of to other people and creatures with spiritual tranquility and physical security, to live with them. The neighborhood firstly encompass us, not we him. The neighborhood, therefore, is the spiritual, psychological and physical space emerged from the whole set of moral relations among people. There is a moral neighborhood between us and our neighbor. The neighborhood is here, like the air here or the ground under the feet. The neighborhood reside in pious freedom of personal decision to live inpeace in with other people. Also: neighborhood is not a dictation law, similar to the dictation of the laws of modern parliaments. In the neighborhood establishment there is no “stronger” and “weaker” sides. Neighbors donate the neighborhood institution with their own goodness and that so they are enobling. Therefore, the neighborhood is not a prevalent rational project such as, for example, the construction of a hydroelectric power plant a project! Neighborhood is a spiritual institution that grounds itself, under condition that moral people provide a chance for that institution. Neighborhood is not led or moderated by any of the participants in it. In addition, the neighborhood is a consequence of moral courtesy, moral education. Our upbringing and our morale dams protect others from us. Furthermore, it is like a free and dignified conversation. A dignified conversation leads itself. If any interlocutor begins to dominate the conversation, then the conversation turns into something like a police interrogation. The neighborhood, of course, can be intimidated, but it is not a family alliance. Namely, our neighbor is not necessarily our cousin. Neighborhood is neither a material benefit nor a business, because the true neighborhood does not thickens anyone bank accounts. But the true neighborhood contributes to many prosperity, and among others to the material, of course. Although the neighborhood has nothing against the rules of “house rules”, the neighborhood is far more than that. The neighborhood is a moral characteristic of the neighbor, and the neighbor is here as someone who is “sown on Earth”, where are “sown” we too, his neighbors. The neighbor is in the midst of our vicinity, in the middle of the same street, in the middle of a common city, homeland and country. Further, the neighborhood is a moral responsibility. The neighbor is there to meet, to exchange greetings, to shake hands, to talk, to eat sometimes together, to exchange views, opinions about world and life. By our conversation with us, our neighbor moves in our time with non-violent footsteps, enters our language, steps into our spiritual mood, enters “our space”. We do the same with his time, language, spiritual mood, “his space”. But this participation in the space and the spirit of the neighborhood does not mean occupation. On the contrary, the neighborhood is participation without seizure without deprivation, as billions of fish participate in one ocean, but it is impossible to say that each other occupies their space ...

89 per cent of input used for power generation today is indigenous, from coal (55 per cent), diesel and gas (11 per cent), hydroelectricity (21 per cent), nuclear power (2 per cent) and renewable (11 per cent). Solar energy segment contributes just 0.5 per cent of our energy production today.

He had detailed plans for developing industry, using hydro-electric power – ‘the white coal of Ireland’.