Sunday, January 22, 2017

The Beast...

Me, "It just goes to show, electric cars can do some things just as good as gasoline cars, if not better."

From article, "An Electric Car Conquered The Dakar Rally For The First Time"


An Electric Car Conquered The Dakar Rally For The First Time

(Let there be no doubt about the capabilities of electric cars anymore.

If you were in any doubt about the capabilities of electric cars, there’s plenty of proof that they shouldn’t be underestimated. The reveal of the Faraday FF 91 has been hailed as the fastest-accelerating EV on the planet, while the Rimac Concept_One recently blitzed the Bugatti Veyron. This latest milestone isn’t about flatout speed, however, but endurance. Because, for the first time ever, an all-electric car successfully completed the grueling Dakar Rally, according to Electrek.

That accolade belongs to Acciona, a Spanish company which concentrates on renewable energy. It took five years to develop its own custom-built, battery-powered car to compete in the Dakar Rally. After two failed attempts, this year it conquered what is regarded as one of the most grueling and downright dangerous endurance rallies in the world when other experienced drivers couldn’t, successfully completing the 5,600 mile trek through Argentina, Bolivia and Paraguay. 18,000 vehicles have participated in the Dakar Rally since it began, but Acciona’s entry is the first to compete without emitting any carbon dioxide.

Driver Ariel Jaton commented on the victory: “The odyssey is over. This year’s Dakar was very tough, with some very intense stages complicated by the weather, and the altitude in Bolivia. It was the most grueling race in South America, so we are thrilled to have reached the finish line, particularly in an electric car.” This year’s Dakar Rally was especially grueling because the Río Grande burst its bank, forcing officials to reroute the race. Despite this, the electric car managed to tackle the tough terrain. It’s equipped with a 340 horsepower synchronous electric motor powered by a 150 kWh modular battery pack.

The six lithium battery modules inside can be individually charged to get to full power in just 60 minutes, while a 100-watt solar panel on the back of the roof captures additional energy. The body was constructed out of lightweight carbon fiber. The win is undoubtedly a tremendous achievement that shows how electric cars can be just as capable as their fuel-powered counterparts.)

Oil Energy Independence, in recent years, is possible. It just depends on...

Me, "Oil Energy Independence, in recent years, is possible. It just depends on the price of Oil. If it is more expensive per barrel, more oil companies will develop Oil Shale fields with new fracking technology. Just recently a huge Oil Shale field was found in Texas, a state thought to be on the way out of oil production. New fracking technology makes this field developable. But... 
It's all about the price of oil. U.S. consumers like it when the price of oil is down. It means less prices for gasoline at the pump. But it also makes it uneconomical to drill new oil wells. 
Not too long ago, North Dakota had so much oil on its hands that it pleaded, and got, from the Obama administration, the right to export oil again.
If new refineries were built, more oil shale was sent to them, thru new transporting pipeline, energy independence would be possible."   





(President Donald Trump’s pledge to make America independent from OPEC isn’t a new refrain in Washington.
His “America First Energy Plan” posted on the White House website Friday doesn’t echo just his own campaign pledges but also President George W. Bush’s vow to cut imports from the Middle East when he famously said the nation was “addicted to oil.” Shipments from OPEC rose 10 percent during Bush’s time in office.
It’s not an easy task. It would mean replacing about 3 million barrels a day of imports. That’s about three times as much as East Coast refineries consume.
President Trump’s goal may not be completely unobtainable as U.S. oil production has been on the rise and signs point toward possible energy independence. To achieve that, though, the country may need to reconsider a push for exports that was supported by Republicans. Since scrapping restriction on sales to countries other than Canada at the end of 2015, U.S. crude exports have risen to more than 700,000 barrels a day.)

Thursday, January 19, 2017

So, That's Why Wind Energy Expanded in Texas and Under Perry Could Expand Around The Nation


From article, "Rick Perry expresses ‘regret’ for pledging to abolish Energy Department|"
(Many people say that Perry, despite his past vow to dismantle the department, has valuable experience for running it. As governor, he benefited from a rapid expansion of oil and gas exploration in new shale oil and shale gas plays. But he also oversaw an expansion of transmission lines that made way for a rapid expansion of wind energy.

[Me, "So, the big thing that helped Wind Power expand in Texas, during Rick Perry's Gov. administration, was building out more transmission lines. If he expanded transmission lines in Texas, maybe he could expand transmission lines in other states. A lot of Wind Projects have the problem of strong winds in one area, of a state, but no transmission lines to get it to other areas of that state or neighboring states that need it."]

“Under Rick Perry’s leadership, Texas created a stable, long-term, competitive energy market, combined with robust infrastructure investment, which allowed new technologies, like wind, to enter,” the American Wind Energy Association’s chief executive, Tom Kiernan, said in a letter to the Senate Energy and Natural Resources Committee.

During Perry’s tenure, Texas became the nation’s leading wind energy state. In 2000, Texas wind energy production was 200 megawatts. By the end of 2015, the state had nearly 18,000 megawatts of installed capacity, driven by more than $32 billion of private investment in wind farms.

[Me, "That's a pretty impressive gain in Wind Energy."] 

Perry’s decision to support expansion of the Texas electric transmission lines spurred almost $7 billion in areas such as western Texas.)

[Me, "So, what is needed is more investment in U.S. transmission lines and Wind Power could become a hugely important national asset!"]

Monday, January 16, 2017

How to look at Aging, an Extended Lifespan, and raking in money from your robot job fleet?

Me, "This is basically the problem. People look at a longer life as a curse, but there are so many advantages to it. We used to be born, be fathers and mothers at 14 and then grandparents at 30.
No one looks down on our amazingly, present day, increased life span, with a lot more people living well into their 90 thru 100. So, why should we just assume, that the fact is we have to die at some point? With all our brilliant researchers, why can't we kick the can of death further down the road? to the point that it is not necessary.
I am a big believer in Medicine, Vaccines and lots of research. I really see a time where we don't need to age. Age is what occurs when cells in our body divide and divide to replace older cells. As they divide the strands of DNA get smaller and errors start to occur leading to what we call aging. You fix those cells in such a way as to prevent those errors and you have the fountain of youth.
But some people are like: I don't want to work forever. I want to be able to retire and enjoy life!
There is no reason you shouldn't be able too. A longer life will come with it new rules for living it. For example, Let's say you worked from your 20s to 60's and are burned out? You retire, on saved up money for a number of years (Think of it as an extended vacation) and at some point when you feel rested, bored? You reenter the workforce for another long period with then another period off. This could be your way of dealing with a longer life.
Another is if robots become better at dealing with your job. You outsource your job to your robot or a fleet of robots and rack in the paychecks. All interesting ways of dealing with a longer life and the age of robot helpers.
All these shows about Vampires feeling horrible about not being able to die, life being meaningless without the possibility of death, or experimental drugs turning people into zombies does not have to be.

Life is what you make it. We should all see our world as leading to a utopia because we have instilled values pushing for it. The thing is a future utopia in Movies or Book stories seems boring. To create an interesting story you need conflict, hence, movies and books that make people think a longer life would be a bad thing. It doesn't have to be."


(Mr. Thiel has, however, used human growth hormones and he has signed up for cryogenics. “We have to be more experimental in all our medical procedures,” he says. “We should not go gently into that good night.”

I ask why everyone in Silicon Valley seemed so obsessed with immortality.

“Why is everyone else so indifferent about their mortality?” he replies.

He has invested in many biotech companies and has been advising the Trump transition team on science. “Science is technology’s older brother who has fallen on hard times,” he says. “I have some strong opinions on this. At the F.D.A. today, aging is still not an indication for disease. And you’re not allowed to develop drugs that could stop aging. We have not even started yet.”)

What Companies that Manufacture Products outside the U.S. to be imported back into the U.S. Don't Understand is...

Me, "What companies that make their products outside of the U.S. borders do not understand is that they are taking away U.S. Workers jobs. If these people can not find new employment, because they specialized in a specific manufacturing industry job their whole lives, where is the money going to come from to pay for imported companies products? It's a vicious cycle. If you take away jobs in the U.S. you are taking away purchases of your product.
Sure, not all U.S. Workers work in the manufacturing industry, but a lot did. If you couldn't afford to go to college, and even if you did, and it didn't work out, a production line job was an easy way into the middle class. It may have been boring work but it was a sizeable check. Now you take those jobs away, and you try and trane them for a service economy, well, some people just can't handle that.
For years people have been encouraged to buy American. Now our U.S. policy should be to hold on to whatever manufacturing we have left and to institute laws that if you sell manufactured products in the U.S., you have to build plants here to sell your product. Make it like government mandated Automobile Gasoline Miles Per Gallon: If you want to sell products here, a certain percentage of your product must be Made in America.
That is the fair thing to do. Each year, either up the percentage, or lower it, depending on how the economy is doing."



From article, "Trump Attacks BMW and Mercedes, but Auto Industry Is a Complex Target"

( Mr. Trump has criticized other companies and industries for moving production out of the United States at the expense of American jobs, such as appliance makers and pharmaceutical companies.

In his latest criticism of what he sees as unfair trade, Donald J. Trump has taken aim at German cars. Why, the president-elect asked a German newspaper, do so many well-heeled drivers in New York drive a Mercedes-Benz, while Germans buy so few Chevrolets?

That Mercedes-Benz in New York, for example, may have been made in Tuscaloosa, Ala., depending on the model. BMW has a plant in South Carolina that exports 70 percent of the vehicles made there, it says. And Germans might not buy many Chevrolets, which are no longer sold in Germany, but they buy plenty of Opels, which, like Chevy, is owned by General Motors.


BMW and Mercedes-Benz — as well as the Japanese carmakers Honda, Nissan and Toyota — employ thousands of factory workers in Alabama, South Carolina, Texas and other states. G.M. gets more than a quarter of its auto-related sales outside North America, while Ford gets a third. Chrysler was bought by Fiat of Italy. Cars of all types increasingly have Chinese parts.
Nevertheless, Mr. Trump has been making a series of ever-broader demands that the auto industry manufacture in the United States to sell in the United States.
After praising German manufacturing prowess, Mr. Trump threatened to impose a 35 percent tariff — he called it a “tax” — on every car that BMW imported to the United States. BMW should build the factory in the United States, Mr. Trump said, where it would benefit from his plans to slash corporate taxes.

The main question lies in what Mr. Trump and his trade advisers decide to do once in office, auto industry officials and trade experts said. Measures to force manufacturers to shift assembly to United States factories and to use more American-made parts could drive up prices for American car buyers and make American vehicles less competitive in world markets.


In some respects, Mr. Trump has a point. The United States has been more open to imports than other large automotive markets, with the result that cars shipped in from abroad represent a considerably larger share of the American market than of markets elsewhere.
European governments have effectively limited imports by putting pressure on vehicle manufacturers not to close high-cost factories or to lay off workers. The Chinese government requires foreign automakers to partner with local manufacturers and sometimes requires them to transfer technology to Chinese companies.
BMW’s largest factory anywhere in the world is in Spartanburg, S.C. It employs nearly 9,000 people and exports 70 percent of the vehicles it makes, BMW says. Daimler makes Mercedes-Benz S.U.V.s and C-Class sedans in Tuscaloosa, Ala., and it is building a new factory in Charleston, S.C., to manufacture Sprinter vans, creating more than 1,000 jobs.
Daimler, which also builds Freightliner trucks in the United States, has 22 factories or research and development centers in the United States that employ 22,000 people.
Even Volkswagen has not given up on the United States despite an emissions scandal that has led to $20 billion in civil settlements and criminal penalties. The carmaker, which has long produced cars in Mexico, is expanding a factory in Chattanooga, Tenn., to manufacture a new full-size S.U.V.
For any move Mr. Trump makes, the devil is in the details. Options include tariffs on imported cars and possibly car parts. He could also prompt a rewrite of the American tax code so that imports — but not exports — are taxed, a move known as border adjustment.
The architect of the Reagan administration’s restrictions on Japanese car imports and of a Reagan-era law that temporarily reduced taxes on exporters was Robert E. Lighthizer. Mr. Lighthizer was deputy United States trade representative at the time. He is now Mr. Trump’s choice to become the United States’ top trade negotiator.)

Saturday, January 14, 2017

What Mexico Does Not Understand....

Me, "What Mexico does not understand is that the tariffs would be aimed at U.S. companies or companies that sell the bulk of their goods in the U.S., but pick Mexico to make them in, then shipping them into the U.S.
U.S. citizens have no problem with Mexico, except that U.S. companies are closing up factories and moving their jobs to Mexico. These companies can make the same products there that they made here, and pay workers less than they would in the U.S.
 I am sure if the reverse were true, it would be Mexico claiming it would institute tariffs. What really is needed, is a renegotiated NAFTA, that penalizes U.S. companies, from moving factory operations into Mexico.
Is it fair that a U.S. autoworker gets paid, 20? 30? or 40? dollars and hour to put together a car, but in Mexico it is half or even less than that? Is it fair that a U.S. company, Mexican made car, is then shipped back into the U.S. to be sold? No, it is not right and Mexico knows this. They know that if they renegotiate NAFTA, they could lose jobs and hurt the Mexican worker, which is probably why they are making a big deal over this. Hence the original problem, NAFTA was a poorly constructed trade agreement that hurts the present day U.S. worker and the future Mexican worker. Something needs to be done, to encourage both Mexico, and the U.S., to trade fairly and not game the system.

The other border tax being mentioned by Trump is a tax to build a border wall. I am sure most countries understand that it is necessary to know where one country ends and another begins and their needs to be a proper way of bringing in potential citizens in a legal way. Illegal immigration, while having some benefits, is really a problem because it makes a mockery of the legal immigration system.  A lot of people are waiting to enter the U.S. and illegal immigration sidesteps these lawful people. If Mexico does not want to pay this border tax, they should negotiate with future President Trump, a better legal immigration system between the two countries. Otherwise, it makes sense to charge some kind of tax on Mexican goods to enforce border fences and operations. If Mexico does not negotiate a better immigration policy, and also does not want to pay a border tax, it is Mexico that is the problem, not the U.S."

From article, "Mexico warns Trump on tariffs: We'll respond 'immediately'"

(Mexico's economy minister sent Donald Trump a fighting message: We will retaliate right away if you hit us with a "major border tax."

In tweets, Trump has singled out GM and Toyota as potential targets, though he indicated in a December tweet the tax would apply to all businesses, not just automakers.

And during his first press conference Wednesday since winning the election, Trump doubled down on his threat.
"There will be a major border tax on these companies that are leaving and getting away with murder," Trump said Wednesday.
Mexico heavily depends on trade with the United States to drive its economy and create jobs. And the U.S. Chamber of Commerce estimates six million U.S. jobs depend on trade with Mexico.
Trade experts on both sides of the border warn that stiff tariffs would risk jobs in both countries.)
Guajardo didn't say exactly how Mexico would hit back.
"There are ways -- it's very clear how -- to take a fiscal action that clearly neutralizes it," Guajardo said.

How Oil Pipelines elsewhere make the Keystone pipeline and the North Dakota Access pipeline protests irrelevant.

Me, "I think if the following article, "Path of Least resistance" had been publicized back when the Keystone Pipeline was being debated, and the Dakota Access pipeline became a rallying cry for encroachment on Native American Land, (and a possible polluter of their water source) less of an outcry would have occurred. This article basically states that with or without these two oil pipeline projects, oil from North Dakota and oil from the Alberta Tar Sands are still making their way thru the U.S. to market. This article leaves me shaking my head at a huge political issue that was created, that really was a, stop the oil pipeline projects, to stop pollution of the Earth's atmosphere. It really didn't matter. All those protesters, protested a dead cause, because other pipelines are carrying the oil regardlessly. I suggest that anyone interested, for, or against, these projects, should read this article. I have taken out snippets below, but really it's a good read as to how futile the actions against Keystone and the North Dakota Pipeline actually are. "

From article, "Path of least resistance"

(Cannon Ball, N.D. – A whiff of violence lingered in the campfire smoke at the Dakota Access Pipeline protest camp along the Missouri River last fall, where hundreds of protesters put their bodies on the line to stop the $3.7 billion project.

Some were environmental activists worried that the line would add to atmospheric carbon levels and climate change by whisking 470,000 barrels per day of the North Dakota shale oil to market, both in the U.S. and abroad.


The protesters won that battle; the Dakota line was put on hold by the administration of President Barack Obama.
But the controversy the pipeline unleashed will not be buried anytime soon. The work on the 1,200-mile steel tube is all but complete; the big question remaining is how to finish it in a manner that will respect the tribe’s concerns over potential spills into the Missouri River and the destruction of nearby areas it considers sacred.
The conflict is, in fact, only the latest chapter in the increasingly contentious saga over how — and whether — to bring North America’s unconventional oil reserves to market.
An earlier chapter ended in late 2015 after scientists, protesters and politicians persuaded Obama to reject the proposed Keystone XL pipeline that would have carried Alberta tar sands oil toward the Gulf of Mexico.
But there is another act in this drama that has, so far, drawn relatively scant attention.
It is one in which a pipeline route carved more than 60 years ago has continually — and quietly — grown in capacity to the point that today the pipes are bursting with oil, sometimes literally so.
...pipes capable of carrying roughly three times the volume of oil proposed for TransCanada’s Keystone XL already run down a rival company’s pipeline from Alberta into Wisconsin. And much more oil could be on the way — both from Canada and, perhaps, from the Bakken fields of North Dakota.
There is nothing on the continent like this ever-expanding pipeline network, owned by Canada’s Enbridge Inc. and its subsidiaries, and not just because it runs to the shores of the Great Lakes, a drinking water source for some 40 million people.
“The Enbridge Mainline system is the largest in the country,” said Paul Blackburn, an attorney who has represented a number of environmental groups in legal battles, including against Keystone XL. “A lot of oil goes through there. Much more than people understand.”
In fact, the system’s current capacity is equal to roughly 20% of the nation’s total oil imports. Enbridge also has plans for a new thousand-mile pipeline from Alberta to Superior that would add another 370,000 barrels per day to that flow, bringing the capacity for some 3 million barrels of oil to flow into Wisconsin each day.
That is more than all the oil the United States imports on an average daily basis from Saudi Arabia, Venezuela and Mexico — combined. It is more oil than is consumed daily by Germany, Europe’s economic engine and fourth largest economy in the world.
If it sounds surprising that Wisconsin has become such a player in the booming unconventional oil economy, it’s because the state isn’t actually much of a player economically. Most of the oil simply flows through on its way to far-flung refineries.
Calumet Superior Refining, Wisconsin’s only refinery, merely sips from the Enbridge stream. It has a processing capacity of about 45,000 barrels per day — less than 2% of the pipeline system’s capacity.
The oil that doesn’t get refined in Superior moves on, with much of it first going to dozens of huge holding tanks at Enbridge’s Superior facility, a few hundred feet from the Nemadji River that flows into nearby Lake Superior. These tanks can collectively hold about 13 million barrels of oil, enough to supply more than 60% of the daily U.S. oil diet.
The oil is cycled through these tanks into an underground tangle of pipes and pumped to out-of-state refineries. It rumbles around the clock and around the calendar along a vast, invisible infrastructure as essential as the power lines, water mains, sewers, cell towers and ribbons of concrete that make modern life possible.
More than 500,000 barrels a day can flow in a pipe that runs across Michigan’s Upper Peninsula. It briefly splits into two pipelines lying exposed on the bottom of the Straits of Mackinac that divide Lakes Michigan and Huron. On the other side of the Straits, the pipes merge back into a single tube for a final run across Michigan’s Lower Peninsula to the Ontario refinery city of Sarnia, northeast of Detroit.
Most of the oil leaving Superior runs in three pipelines down the middle of Wisconsin along an 80-foot-wide corridor stretching to the Illinois border. Much of it then flows to regional refineries to be turned into gasoline, diesel and other petroleum products.
Some of it moves easterly across Indiana and lower Michigan, headed for Sarnia and beyond. Oil now also flows in an Enbridge pipe east from Sarnia to Montreal, where it can be pumped onto tankers and shipped around the globe.
This was a primary criticism of the Keystone XL — that the U.S. would be used as a conduit for Canadian tar sands oil to flow to competing markets overseas.
In the critics’ view, the U.S. increasingly assumes much of the risk of oil transport, including spills, while getting little economic reward as the fuel makes it way toward rival economies before being burned off and unleashing its carbon into the atmosphere.
The same concern now exists with North Dakota shale oil because the U.S. recently lifted a 40-year ban on exporting most domestically produced oil. The result: Last April, the first shipment of North Dakota crude left a Louisiana port for a refinery in the Netherlands.
Thanks to new fracking extraction techniques, production of North Dakota shale oil grew from less than 100,000 barrels in 2005 to more than 1 million barrels per day by 2015, even though U.S. oil consumption dropped in the same time period by about 1 million barrels per day, thanks to fuel-efficient cars and other conservation moves.
Alberta tar sands production is also booming and is now in the neighborhood of 2.5 million barrels per day. At the same time, oil prices have plummeted in recent years from over $100 per barrel to less than $30, though the price has been on an uptick lately and now sits around $50 per barrel.
Both Canadian and North Dakota leaders see the economic potential to sell more oil overseas.
“Lifting the ban on crude exports will create jobs, grow our economy and keep the price of gasoline lower at the pump for consumers,” U.S. Sen. John Hoeven of North Dakota, a member of the Senate Energy Committee, said when the first barrels of shale oil left for Europe.
“Importantly, it will also bolster national security by providing our allies with alternative sources of oil and free them, as well as us, from reliance on energy from unstable parts of the world. We are just beginning to see the benefits to our state and our nation.”)

Friday, January 13, 2017

Indian Point Nuclear Power plant to close: What will replace its electrical power?

Me, "With Indian Point Nuclear power plant set to close in 2021, if we believe Gov. Cuomo, all our electric needs can be supplemented by offshore wind, Canadian Hydro power, and Solar power. While I don't disagree with him, especially with a lot of offshore wind around Lower New York State; there needs to be a lot of encouragements given to these industries. They will need either a relaxing of regulations, fast approval processes, even subsidies? so, they can quickly be built out before Indian point closes. 
Gov. Cuomo says there will be no more than a 1 percent increase in utility bills. The problem is, estimates made by government turn out to be less than accurate, ending up being more than was forecast. 
So, when Indian Point closes, all kinds of things can influence the NYC electric bill. All you need is delays in any or all of these projects meant to keep the electric bill low and we could have a much higher bill than Gov. Cuomo suggests."

From article, "New York’s Plan to Bridge From Nuclear Power to Offshore Wind"

(On Monday, New York Gov. Andrew Cuomo announced an agreement to shut down the 2-gigawatt Indian Point nuclear power plant by 2021, several years ahead of schedule.

[As a result.]

Overall, the plan is expected to lead to no more than a 1 percent increase in customers’ utility bills over the next five years, Morris said.

One big option is the $2.2 billion Champlain Hudson Power Express transmission project, which should be finished by 2021, he said. That has the potential to bring 1,000 megawatts of low-carbon hydropower from Quebec to New York City via underground high-voltage direct current (HVDC) cables, he noted.

New York already has about 2,000 megawatts of onshore wind as part of its system, and that figure is expected to increase over the next five years.

The state is also expecting more solar power under its NY-Sun initiative, with the potential to realize more than 3,000 megawatts of solar PV statewide by 2023, he noted.


New York's first offshore wind push will be a 90-megawatt project 30 miles southeast of Montauk, to be delivered to the Long Island Power Authority.

Beyond that, Norway’s Statoil has won a bid for rights to develop a much larger project, roughly equidistant to Long Island and the Jersey Shore, that could add up to as much as 800 megawatts of capacity. 

It’s important to note that New York isn’t abandoning nuclear power entirely, as California is doing with its decision to close its last remaining reactor by 2025. Gov. Cuomo has approved hundreds of millions of dollars of subsidies to help keep four financially struggling upstate nuclear plants stay open, a plan that is now the subject of a lawsuit by energy companies.)

Wednesday, January 11, 2017

What's the hold up with New Safer Nuclear Reactors? The N.R.C. (Nuclear Regulatory Commission)


Me, "This is an interesting article to read. It's about way too much bureaucracy, standing in the way of safer nuclear power plants that do not use water as coolant, and have passive safety technology; basic speak for it won't blow up if the power stops suddenly. It would also cut down dramatically on Nuclear Waste. The whole problem with commercial nuclear reactors in the U.S. is the fact that it relies on early Nuclear Submarine Technology that uses water as a coolant. Since submarines were already operating for years in the ocean using water to cool its reactor It made sense, from a commercial point of view, to just add this proven technology to the U.S. power grid.
The problem is they are not as safe as new non-water cooled reactor designs have shown. And, the reason that these new reactors can't even get a license to build, let alone operate, is because the NRC is basically broken. It does not work the way it should. It shouldn't take 5-10-15 years to get a license. It should take 1-2 at the most. By the time a company gets a license they have decided not to proceed. The NRC is not up to the challenge of producing nuclear reactor licenses, and should either be scrapped, and rebuilt as a new organization, with the top minds that can do the work, or we should just expect the fact that there will be no new reactors built.
Eventually, U.S. superiority in nuclear energy will fade as a fad; an interesting experiment that other countries have superiors skills in, killed by regulations and people who do not have the skills to do the required work."



From article, "NRC Vision And Strategy For Licensing Advanced Reactors Needs Improvement"

(The Nuclear Regulatory Commission has published its vision and strategy for preparing to review applications for permission to begin building reactors that do not use light water as the coolant.
[But!]
The NRC has a long history of claiming to be ready to review advanced reactors. Its institutional history, however, also includes at least half a dozen advanced reactor reviews that began and proceeded part way to completion before being abandoned.
[Why?]
They have stated that the cost and schedule uncertainty for obtaining a license and resolving other long-unresolved regulatory issues like emergency planning boundaries, insurance requirements, annual fee structures and control room manning requirements played a major role in their decision to quit trying.
[Hence.]
Unfortunately, the NRC hasn't displayed any understanding of the near impossibility of producing a complete design and high-quality application without access to any published criteria or a proven process of efficiently communicating the application requirements.
Not surprisingly, none of the 50 companies that are working on advanced reactors in the U.S. have announced any plans to apply to the NRC for permission to build their designs in the U.S.
The best hope for a change in that situation would be a clear declaration by the federal government that the widespread use of advanced nuclear energy systems is vital for protecting public health and safety, contributing to common defense and security of the United States and protecting the environment.
With that declaration, the NRC would be required by its existing mission statement to produce a more workable plan to review and approve advanced nuclear power systems. The people on the staff at the NRC are fully capable of completing that task as long as they are told that they can stop being agnostic about whether or not nuclear technology succeeds.

Policy makers who are interested in ensuring that American reactor developers have the opportunity to lead in the nascent – but potentially very lucrative field – of advanced nuclear reactor technology development and manufacturing should demand improvements to the plan. Funding appropriators should follow through with support for an implementation process that enables a quicker, less tortuous path to initial deployment, especially for those designs that allow simpler, less costly approaches to protecting public health and safety.)

Just like Oil companies opened up Gas Stations it makes sense that Electric Companies would open up recharging stations for electric cars.

Me, "It's like the saying, 'what came first the chicken or the egg?' If you build electric cars where will they get their charges from? and if you don't build electric cars, then no charging stations will open up.
Just like Oil companies opened up Gas Stations for gasoline cars, to make profit, it makes sense that Electric Companies would open up recharging stations, for electric cars. The normal business of electric companies are to provide electricity for businesses and residential customers. With more and more electric cars coming on to the road, it only makes sense that electric companies would start providing the service of public charging stations. In fact public charging stations will become more and more prevalent.
The problem car buyers have with electric cars is range anxiety. They don't want to run out of power and have to call a tow truck. But with new electric cars like the Chevy Bolt and the Tesla cars, these fears are becoming irrelevant. You can drive your car 200+ miles and charge your car at home.
A lot of people feel well that should be enough. As anybody can tell you, for long trips, or apartment dwellers, who do not have access to electric charging for their cars, there needs to be public charging stations. Why?  These stations can charge cars as fast as a gasoline car and make the process of going on long trips feasible. There is still the problem of finding a charging station, but with Tesla and other electric companies opening up charging stations this problem should go away.
Now what needs to be tackled is the time of a charge. I have heard figures of new charging station charging an electric car in between 5 to 20 minutes but of course this depends on what your electric car is designed to do. So, is waiting for the third or fourth generation of the electric car needed? or, should you just buy what is on the market? This depends on how you want to use your electric car.
 It is amazing, though, how fast the technology has progressed. President Obama wanted a million cars on the road by the end of his presidency, which won't happen, but we are definitely on the path to the next phase of the electric car, affordability, and distance capable."


From article, "California's PG&E utility now offers $500 rebate for electric-car use"

(In certain states, electric utilities are getting into the business of installing and operating electric-car charging infrastructure.
They may build public charging stations, or work with other entities that operate them, but that's usually as far as their efforts to promote electric cars go.

...PG&E received approval last month from California regulators to install 7,500 electric-car charging stations within its area of operations.
The project, which has an estimated cost of $130 million, was designed in concert with stakeholders, including environmental groups and automakers.
It is one of three charging-infrastructure projects currently being undertaken by California utilities.
Southern California Edison (SCE) and San Diego Gas & Electric (SDG&E) are involved in similar projects, expected to yield a combined 5,000 new charging stations.)

Sunday, January 8, 2017

The Electric Car is Here to Stay.

Me, "Depending on what you read Lithium Ion battery technology costs of production have either stayed the same or have greatly come down in price. Whatever you want to believe, the fact is that either is good news. If battery production costs had gone up, the feasibility of an affordable electric car would have been nil. Instead there has been a great deal of investment in battery production and development, which means electric cars are not going away. The future will probably see the electric car take over from the internal combustion engine, (ICE) car. The positives of an electric car are more numerous than an ICE car and, donated, at the end of their electric car life batteries, can be reused in the electric grid. These positives lead me to believe we will have a future of electric self driving cars for either short or moderate trips around a few close states and a flying self driving electric car for longer trips. The future looks bright."


From article, "How much have electric-car battery costs fallen? This much!"

(High costs of lithium-ion battery cells have been one of the main hindrances to large-scale electric-car adoption, as they typically lead to higher purchase prices for electric cars than comparable internal-combustion models.
But electric-car battery prices are falling fast, according to one recent study.
Global Trends in Renewable Energy, calls the price drop in batteries for electric cars "spectacular."
Citing improved chemistry, manufacturing processes and economies of scale, authors of the study (pdf) at the Frankfurt School of Finance & Management see a bright future ahead for electric cars.
According to the study, average electric-car battery costs declined every year between 2010 and 2015.
Between 2014 and 2015, average costs decreased by 35 percent.
In addition to cost reductions achieved through changes to cell chemistry and manufacturing processes, the study also notes cost decreases due to "aggressive pricing" by large battery manufacturers looking to defend their market share.
Tesla's opening of a massive "Gigafactory" in Nevada to provide greater economies of scale is also cited as a contributor.
The company began producing lithium-ion cells at the Gigafactory this month, using them for its Powerwall 2 and Powerpack 2 energy-storage battery packs.
Tesla hopes to begin cell production for the Model 3 electric car in the second quarter of this year, and expects to be making 35 gigawatt hours of cells per year at the Gigafactory by 2018.
Global electric-car sales reached 462,000 units in 2015, up from 290,000 in 2014, according to the study.
While sales have steadily grown since modern electric cars first went on sale in large numbers about six years ago, predictions about future growth differ widely.
On the less-optimistic side, OPEC expects 1.7 million electric cars to be on world roads by 2020.
But Bloomberg New Energy Finance estimates that 7.4 million electric cars will be on the road by that time, with 2 million sold in 2020 alone.
Bloomberg also expects electric cars to make up 35 percent of light-duty vehicle sales by 2040.
It's unclear which prediction will prove closer to reality, but lower battery costs can only help the cause of electric-car adoption.)

Saturday, January 7, 2017

Combat lasers: Can focused light protect Ships? Tanks? Airplanes? And ultimately countries? From enemy weapons? And Should Defensive Weapons Follow Humans into Space?

Me, "You don't have to be a genius to see the cost savings of using focused light to defend a country from attack. Where as a missile or bombs costs millions of dollars to use and you have to rebuild another, a laser is a weapon that just needs a good supply of energy to keep it shooting. It could be placed on a tank, an airplane, a large ship or out in space on a missile defense system. The problem has been can it be pumped up for combat and the latest from the UK is that they are officially awarding a contract to find out. A demonstration would come in 2019 and the first laser weapon would come into use in the 2020's. I don't see Laser weapons as a threat to the status quo because a lot of countries are testing all kinds of weapons that either don't pan out or are just used to ward off attack. Laser weapons will just be a new weapon in a country's defensive/offensive arsenal. 

As the movie Star Wars show, lasers can have a unique military use, and as Star Trek shows, even a ship of peace needs weapons for protection. 
Which is another reason why I believe Space will one day have weapons in it. 
I am not a warmonger. If done right, no one ever has to fear weapons in space. On a day to day operation, you probably would not even know they are there. 
They would be like nuclear missiles, hidden underground like on Earth but in a Moon or Mars base or inside a ship only, to be used for defense. How many people have seen Navy ships and Submarines and thought, eww... evil? Probably not because the ships do not tip over the line with an aggressive look, yet, they are floating weapons. The same can be done for space.
We put weapons on Land, in the Air, on the Sea, in the Sea, and Space is no different. We will need weapons in space to protect Earth from collision from asteroids; weapons in space to protect our future space colonies from one and other; weapons in space to protect countries here on Earth, because you never know what could institute trouble.  And, of course, however unlikely, weapons in space in case aliens ever attack. We are going to need something to stop them too. We humans are advanced thinking life, but we have our skirmishes. How do we know, if aliens exist, they aren't the same way?

The best offense is the best defense and Laser weapons are the most cost effective weapons for defense."     




From article, "UK building $38 million combat laser prototype by 2019 and field lasers in mid-2020s"
The UK Ministry of Defence has officially awarded a £30m (US$38 million) contract to produce a prototype laser weapon. The aim is to see whether "directed energy" technology could benefit the armed forces, and is to culminate in a demonstration of the system in 2019. If the demonstration is successful, the first laser weapons could come into service in the mid-2020s.

This would be a delay from previous targets of 2017 land based combat lasers and 2019 for the UK navy

The contract was picked up by a consortium of European defense firms.

The prototype will be assessed on how it picks up and tracks targets at different distances and in varied weather conditions over land and water.

The demonstrator was not being developed to counter any specific threat, but to assess whether such weaponry could be delivered as a capability for the armed forces.

But in general, directed energy weapons could potentially be used to destroy drone aircraft, missiles, mortars, roadside bombs and a host of other threats.

The US military has been experimenting with high energy lasers for decades. But, until recently, technical hurdles had prevented them from being used on the frontline.

However, the US Navy fielded a laser weapon system called Laws for testing on the USS Ponce during a deployment to the Gulf starting in 2014.)


Me, "Not only is the UK looking into Laser weapons but the U.S. Air Force is too."



Another article on Laser weapons, "Air Force getting bids for defensive lasers on fighter jets"

(The US Air Force (USAF) has issued a request for proposals (RFP) related to its efforts to field a laser-based self-protection system for its tactical combat aircraft.

The laser will be housed in a supersonic flight-capable pod to be developed under the Laser Pod Research and Development (LPRD) contract.


The RFP, posted by the Air Force Research Laboratory, Directed Energy Directorate, Laser Division (AFRL/RDL) on the Federal Business Opportunities (FedBizOpps) website on 5 January, seeks research proposals for the service's Laser Advancements for Next-generation Compact Environments (LANCE) project, which is geared at integrating a defensive laser weapon aboard current and future fighter-sized aircraft.)








The Future of the Electric Flying Car Starts Here...

Me, "The future of the flying car is being innovated by the same technology that powers you or your friend's camera drone. The first test was a man sitting on a very small chair surrounded by twirling blades back in 2011. This new machine, which can carry two people, in a helicopter like pod, has just been tested back in April 2016. It is powered by batteries and driven by electric motors and more importantly has been deemed safe enough to be given a license to fly in Germany.
I could tell when camera drones were becoming popular that this was an avenue that should be explored for the flying car. The dilemma has always been safety but this vehicle shows it can take off, fly, and land safely.  This flying platform is much more stable than a helicopter, can maintain a height that feels like you are still on the ground, and is simple to use. The next steps would be to install an automatic pilot that can do everything a human pilot can do: take off, fly and land at predetermined coordinates. Also, built as big as a regular car, with a more condensed wing span or one that easily folds up for easier parking in very small city landing storage areas.
It seems Back to The Future almost got it right. It may not be 2015, and the flying car will look more like a flying camera drone than a conventional automobile but flying cars are coming.
Obviously, the price will be high at first. Its marketed at $340,000, but I am sure there will be a big field of flying car makers, who will mass produce them, bringing the cost down for regular people (Just like there is today with small budget, middle budget, and very costly camera drones). It may not be too far in the future, when you want to go to a far off place, you hop in your flying car and take to the skyway."  


It will be certified for sport flying, Alexander Zosel told Wired , and he plans to sell the copters for about $340,000.
Me, "The future flying car?"





  • Picture and quotes From article, "Is this the future of commuting? Watch the first manned flight of the Volocopter 'personal drone' with 18 rotors Read more: http://www.dailymail.co.uk/sciencetech/article-3528834/Watch-manned-flight-personal-drone-18-rotors-Volocopter-replace-car-flies-passenger-groundbreaking-test.html#ixzz4V7YRRAoI Follow us: @MailOnline on Twitter | DailyMail on Facebook"

  • (Volocopter VC200 received permit-to-fly in February 2016, and has now been flown by a pilot for the first time
  • Took to the skies for a 3 minute flight  and traveled 20 to 25 meters in sky
  • It has automatic altitude control, and can hover without being controlled making it as easy to control as a car 
  • Several manufacturers are working on similar craft - some that can fly themselves to create 'air taxis

  • German firm has embarked on a new era in urban mobility with a manned flight in the world's first certified multicopter.
    With passenger in tow, The Volocopter VC200 took to the skies for a three minute voyage using its 18 gently humming rotors and eco-friendly electric propulsion.
    Not only does this offer more widespread use in conventional aircraft domains, but it brings us one step closer to air taxi services and full transportation systems in the third dimension, the firm says.
    The Volocopter VC200 took to the skies using its 18 gently humming rotors and electric propulsion.
    It is piloted one-handedly with a single joystick, which has shown to reduce the major reason behind fatal helicopter accidents: human error.
    The initial two-seat design uses battery packs, with a flight-time duration of only about 20 to 30 minutes. 
    Its inventors say it will be the most environmentally-friendly helicopter ever created.
    They also claim it will be the world's safest because it is unlikely to crash if a rotor fails.
    The initial two-seat design uses battery packs, with a flight-time duration of only about 20 to 30 minutes.
    It will be certified for sport flying, Alexander Zosel told Wired , and he plans to sell the copters for about $340,000.)