What follows is a discussion in which I will post/share industry related articles that I believe to be of general interest to some who frequent this site.

Views: 3128

Replies are closed for this discussion.

Replies to This Discussion

Looks like they may be burning a lot of Natural Gas in California (Can'tafordya) this Summer.

 

Source: http://washpost.bloomberg.com/Story?docId=1376-MLFFUW1A74E901-79O31...

 

California Power Facing Biggest Test Since Enron: Energy Markets

Apr 19, 2013 9:44 am ET

April 19 (Bloomberg) -- California may face the biggest regional power shortages in more than a decade this summer, sending wholesale prices higher, as idled nuclear reactors and low hydroelectric output cut generating capacity.

The California Independent System Operator Corp. said last month that managing the state grid, especially in parts of Southern California, will prove “difficult” because the system will be operating without Edison International’s San Onofre nuclear power plant and two natural gas-fired units, while hydroelectric output will be at a three-year low. The nuclear plant, California’s single largest source of baseload power, accounts for 3.7 percent of the state’s capacity.

Southern California wholesale electricity for July through September already is at the highest level for this season since 2008 on the outlook for a shift to costlier, more volatile fossil fuels. A strain on the grid could lead to power failures reminiscent of the state’s worst energy crisis in 2000 and 2001, when generation shortfalls and market manipulation by traders at companies including Enron Corp. sent prices to record highs and triggered blackouts that affected millions of customers in the most populous U.S. state.

“California may see the biggest test since Enron manipulated the market,” Stephen Schork, president of Schork Group Inc., an energy consulting group in Villanova, Pennsylvania, said in an April 15 interview. “If you have a reactor down and you don’t have as much hydro, your fuel for air conditioning is going to have to come from gas.”

Electricity at Southern California’s SP15 hub for July through September rose $1.50, or 2.5 percent, to $61.35 a megawatt-hour yesterday, a five-year seasonal high.

Rising Prices

Electricity at the SP15 hub for next-day delivery has averaged $49.70 a megawatt-hour this year through April 18 on the Intercontinental Exchange, the most for the period in five years. Northern California’s NP15 hub has averaged $41.99 this year, the most since 2010.

The shutdown of the San Onofre reactors boosted prices at the southern hub to an average premium of $7.81 a megawatt-hour against the northern hub, the most in 12 years. The five-year average is 95.65 cents.

Abundant hydroelectric generation made up for the lost nuclear output in the Los Angeles basin last year, Michael Blaha, the principal analyst of North American power at Wood Mackenzie Ltd. in Houston, said in an interview.

“There is always a threat of brownouts and blackouts and I think it’s higher this summer because of San Onofre being out and you’re not putting hydro into the basin,” he said.

Weaker Hydro

Final snowpack measurements, which are used to predict the output at hydropower dams, will be 45 percent to 50 percent of normal, according to Maurice Roos, chief hydrologist with the state’s Department of Water Resources in Sacramento. Only six years in the past 60 have been that low, he said.

Low water levels in the U.S. Northwest may also cut electricity exports to California this summer, according to the Bonneville Power Administration, a federal agency that manages Columbia River basin power supplies. Transmission lines across the Oregon-California border have a combined capacity of 7,500 megawatts.

The snow-water equivalent in the region was 89 percent of normal as of yesterday, the lowest level for the time of the year since 2010, U.S. Agriculture Department data show. Genscape Inc., which tracks real-time plant data, said April 4 that Northwest hydropower is down 36 percent from a year ago.

Northwest Water

Unless there is a surge in precipitation in April through June, the amount of water available for hydro in the Northwest will be lower than it has been in the past two years, Doug Johnson, a spokesman for the BPA in Portland, Oregon, said in an April 18 e-mail. Water levels exceeded historical norms by 30 percent in 2011 and 20 percent last year, he said.

California, with a population of 38 million, struggled with similar hydropower shortages during the electricity crisis of 2000 and 2001. The state, the world’s ninth largest economy, was also dealing with unplanned power-plant shutdowns, a natural-gas pipeline rupture, unseasonably high temperatures and price manipulation by Enron and other companies.

Enron, once the world’s largest energy trader, filed for bankruptcy in 2001 following revelations that it used off- balance-sheet vehicles to hide billions of dollars in losses and inflate its stock price. Chief Executive Officer Jeff Skilling was convicted of fraud in 2006 and sentenced to 24 years in prison.

The shortages prompted regulators to overhaul state energy policy, which now requires utilities to show they’ve contracted enough power to meet demand.

‘Energy Crisis’

“The high Northwest hydro of last year probably obscured potential operation problems” on the California grid because of lower nuclear generation, Blaha said. “If we move to the other extreme of low hydro, we can move back to an environment like the energy crisis of 2000.”

The San Onofre generating station, located about 4 miles (6.4 kilometers) southeast of San Clemente, has been shut since January 2012, when workers discovered unusual wear on steam generator tubes in both reactors. Edison International is seeking federal permission to restart one of the reactors on June 1 at a reduced capacity of 70 percent.

California’s demand for gas-fired power generation rose 24 percent from January through July 2012 from a year earlier because of San Onofre, according to the Energy Information Administration, the U.S. Energy Department’s statistical arm.

Natural Gas

NRG Energy Inc., the biggest power provider to U.S. utilities, has been running gas-fired power plants in California two to three times more often than usual because of the shutdown, John Chillemi, the company’s regional president, said during a power conference in San Francisco on Feb. 26.

Dynegy Inc., the third-largest U.S. independent power producer, is seeking to enter new bilateral contracts to operate its gas-fired plants in Moss Landing and Morro Bay this summer, CEO Robert Flexon said in an April 8 interview in Las Vegas.

Natural gas delivered by Southern California Gas Co. to cities including Los Angeles rose on April 16 to $4.37 per million Btu on the Intercontinental Exchange, the most since Sept. 1, 2011. Spot prices are at their highest level for this time of the year since at least 2009, ICE data compiled by Bloomberg show.

The shutdown of the nuclear units in Southern California also eliminates key voltage support on transmission lines, which limits how much power can be imported into the region, Mark Repsher, a Denver-based energy industry specialist at PA Consulting Group, said in a telephone interview.

Reliability Questions

“It’ll be tight,” said Frank Wolak, an economics professor at Stanford University and former chairman of California ISO’s market surveillance committee for 13 years. “There could be reliability events that crash the system.”

Supply constraints on the grid this summer may point to even bigger shortages in the next decade as state environmental regulations force coastal plants to shut while the intermittent power from renewable sources gains, according to UBS AG and Wood Mackenzie Ltd.

The California ISO, responsible for delivering power to more than 30 million people, currently has about 60,000 megawatts of generating capacity.

About 16,000 megawatts from 18 units powered by fossil fuel may shut through 2020 because of environmental rules that restrict coastal-water intake by power plants, Julien Dumoulin- Smith, a utility analyst with UBS in New York, said in an April 4 interview. State regulations mandate that 33 percent of power come from renewable sources by 2020.

These regulations will reduce California’s reserve margins from 40 percent this year to about half of that by 2020 and shift supplies to more variable sources such as wind and solar that depend on the weather, said Dumoulin-Smith.

“This summer if there is an issue, it would highlight those structural problems because you are going to lose capacity,” he said.

--With assistance from Brian K. Sullivan in Boston, Mark Chediak in San Francisco and Erik Larson in New York. Editors: Bill Banker, Dan Stets, Richard Stubbe

I was in California in 2000 and witnessed the mess the so called environmentalists caused with their myriad regulations. Suffice it to say that they had barges with giant diesel generators puffing away into the atmosphere. They didn't care about the pollution then, they just needed their electric. A bit ironic don't you think?

California seems to be reaping the seeds that they have sown playing their games with power generation. 

This situation should be a wake up call to the rest of the country, but no one that matters will pay attention.

The fastest way to clear the eco-nuts is to defund them, bankruptcy will do them in.

I don't know...they're pretty resourceful. I wouldn't count on it, Ron...just because YOU 'choose' the G/O way...in extreme, doesn't mean that they HAVE to. (or should be try to pass a 'ban law' on them just because THEY don't 'agree' with you & the consortium?

Wouldn't calling 'them' ECO-NUTS be...maybe Chinese?...watch yourself. As I've said, "When you 'point a finger' - it points BACK at YOU!'...remember Frank? Who am I?

As one light lights another, nor grows less - so nobleness enkindles nobleness.

The 'Eco's' can 'stick it out'...they like that kind of thing...NOT the 'pseudo-Eco's' - THEY WILL 'wilt'....but the ECO's will be fine, me thinks?...

As one light lights another, nor grows less - so nobleness enkindles nobleness. They'll just go to beach, swim, & relax in the breeze with some Thai Tea...and YOU?...

They CAN 'afford' fans...forget about those?...no worries...and they probably have the Shan-gra-la$$$doe-ray-me to PAY for you 'high price Nat'l Gas, BUT they'll choose NOT to...so you won't be missin' anything anyway! tee hee

Here's hoping for a "Heat Storm" this summer. Everything south of Sacramento go dark for a week or two.

See how Gov. "Moonbeam" and his fools in state legislature handle that.

Hmmmm

This should hit about the same time as the 2014 budget (July) and the results show from those "fair share" Tax increases they got passed. They just might get the number (of people) leaving the state to go to 5000 a day. States can't file for Bankruptcy but cities and counties can. How fast can a few trillion disappear from the Muni market???

Source: http://aspousa.org/2013/05/interview-with-steven-kopits/

 

An Interview with Steven Kopits

ASPO-USA | May 1, 2013

Kopits Bio Photo - 2010 - Business AttireBy Steve Andrews – The following is taken from an interview with Steven Kopits, managing director of the New York office of Douglas-Westwood, an international energy analysis firm.  The views expressed are atttributable to Mr. Kopits and do not necessarily represent those of Douglas Westwood.

 

 

 Q:  You’re dialed in right now on the issue of compression of capital expenditures—or capex compression—in the oil industry.  Can you give us a quick definition of what that is?

Kopits:  Capex compression is a term we use to describe the reduction of upstream spending by the oil companies when their exploration and production costs are rising faster than their oil revenues.  That’s what’s happening today.  Hess is divesting oil producing properties to increase profits; BP has shelved the deepwater Mad Dog Phase 2 project in the Gulf of Mexico.  This is occurring because oil prices haven’t been increasing, and costs have.  So oil companies are looking at their portfolio of projects and deciding to postpone or cancel some of them.  Were the oil supply rising quickly and oil prices falling, this sort of capital restraint would be normal—the usual boom-bust cycle of the industry.  But oil is still in short supply, and very few of the large oil companies have been able to hold oil production over the last few years—even as they were investing massively in oil exploration and production.  Now, they are actually reducing investment in upstream projects, even in the face of historically high oil prices and falling production.  That’s capex compression.

Q:  And here I thought investments in exploration and development were still on their way up.  What’s changed?

Kopits:  In aggregate, upstream spend is still rising, but at a decreasing pace.

If we look at the issue more broadly though, there are some things happening in the oil business that are beginning to validate views that we, and analysts like Chris Skrebowski, have held regarding economic peak oil.

Peak oil does not occur when we run out of oil.  Peak oil occurs when the marginal consumer is no longer willing to pay the cost of extracting and processing the marginal barrel of oil.  And we can actually calculate what the related numbers are.

Q:  How do we do that?

Kopits: To begin with, we refer to the price a nation’s oil consumers are willing to pay as its “carrying capacity.”  For the US, carrying capacity is about $95-100 Brent [per-barrel oil price in London].  If the oil price is above this level, oil consumption will decline—which is exactly what we see and what we predicted four years ago.  But carrying capacity is not a static number.  It changes over time, specifically, with three things: GDP growth, efficiency gains in the use of oil, and dollar inflation.  So if GDP goes up, efficiency goes up and the CPI goes up, then the amount that consumers are willing to pay for oil will increase.  For China, by the way, we estimate the carrying capacity at around $115-120 / barrel Brent.  So oil consumption will increase in China at $115 Brent, but fall in the advanced economies—exactly the pattern we’ve seen in the last few years.

On the supply side, the global oil supply and related costs are determined primarily by two factors: geology and technology.  Geology is driving costs by forcing us to frontier areas like ultra deepwater and the Arctic.  Technology, on the other hand, is allowing us to access new resources like shale gas and shale / tight oil.  So, for any given oil price, depletion will always drive us to more difficult geologies and thus higher costs.  Technology, on the other hand, can move us back to easier geologies and lower costs.  Hydrofracking of shale oil and gas wells, for example, has done just that.

Also, if you are so inclined, you can add above-ground constraints—Saudi policy or Venezuelan policy or Alaskan tax and royalty rates, for example. But assuming these latter factors are relatively constant, geology and technology will determine supply for any given oil price.

So, to sum all this up: we hit peak production when the marginal consumer is no longer willing to buy the marginal barrel.

Q: I think I’ve read in your work elsewhere that you believe the consumer is already there. 

Kopits: The marginal consumer banged into the price of the marginal barrel, on a static basis, somewhere in 2011 at about $110-115 Brent.   And then, oil prices essentially stopped rising.  Those of us who use supply-constrained forecasting weren’t surprised.  It’s entirely consistent with the historical record.  But I think many in the oil business still thought, somehow, that oil prices would continue to rise as they had done in the 2000s.  After all, the oil supply is widely acknowledged as constrained, even by those who are not necessarily believers in peak oil.  So why wouldn’t prices continue to rise if we’re supply short?  Well, because there was a price at which the marginal global consumer would rather reduce oil consumption than pay more.  And that price is around $110-115 Brent, and from here on in, we should expect that number to rise only with the purchasing power of the marginal consumer.

On the other hand, the cost of extraction and production has continued to increase.  Last year costs increased somewhere between 10% and 13%, depending on who you talk to.  Exxon’s costs rose about 7% in excess of its increase in revenues, which were also falling.  And Petrobras’ costs were rising 10% to 13% faster than its revenues.  So what we can see is that in the contest between technology and geology, in recent times geology has been winning.  Oil has become more expensive to extract.

Q: But when costs increase to a certain level, production should fall; yet we haven’t seen that.

Kopits:  In fact, oil production is falling at most the of the oil majors.  It was even down at 2% at Petrobras last year.  But on a global scale, you’re right.  Oil production hasn’t fallen—for three reasons.  First, much of what passes for increased “oil” production is actually natural gas production.  This includes natural gas liquids from “wet” natural gas wells; LNG [liquefied natural gas] from gas wells; and gas-to-liquids diesel made from natural gas.  That’s about half of global oil supply growth in the last six years right there.  Check out any investor presentation from the majors.  LNG features prominently.

Second, we started throwing massive amounts of upstream spend into this business.  Upstream expenditures essentially went from $250 billion around 2005 to about $650 billion this year.  In essence, by really jacking up how much money we were putting into the system, we were able to increase production…a little bit.  To that we can add some changes in above-ground constraints, primarily in Iraq, which is a very important part of supply growth.

Finally, we made some important technological advances with hydrofracking technology.  US tight oil production and Canadian oil sands growth represent just about 100% of net oil supply growth in the last two years.

But leaving these aside, the system hit a wall in 2005—Ken Deffeyes was really spot on with his prediction—and the way we maintained and only slightly grew production after that was essentially by throwing money at it.

This was facilitated by dramatic oil prices jumps, from $25 in 2002 to $112 in 2012.  But since 2011, depending on rapidly rising oil prices is no longer a viable strategy.  The global economy has said, “this is how much we’ll pay and no more.”  At the same time, geology just kept marching along right down the back half of Hubbert’s peak, and costs have continued to rise.  That’s where we are today: price resistance from the consumer and E&P costs that just continue rising.  Despite the very high oil price environment, the upstream financial performance at most of the oil majors, including Exxon and Petrobras, has deteriorated.  True, Petrobras’ performance is distorted by government interference, but Exxon is arguably the most disciplined investor in the world.  But both of them face deteriorating upstream performance for oil.

Q:  Given that emerging reality, how are these companies responding? 

Kopits: Well, if you look at their capex plans then you see that Shell, BP, Total, Exxon and Hess are all cutting their upstream spend in their 2013-2017 plans going forward.  Only Chevron is raising theirs, and only modestly.  So in a world where we are struggling to increase global oil supply and the price itself remains high, the major oil companies are in fact beginning to carve back on their exploration and production investments.  It’s capex compression.

Q: Why are they going that route?

Kopits:  It’s because they’re not getting the bang for their buck.  Their megaprojects—ultra deepwater and LNG—are often not able to hold the line on costs.  The growing hit-list here includes Australia’s Browse, a $45 billion LNG project that was just cancelled.  It includes the Arctic, specifically Alaska, where Shell is sitting out the coming season, in part because they ran their drilling rig aground. But Statoil has said they won’t proceed in Alaska until Shell has shown some progress.  ConocoPhillips has just cancelled a jack-up rig order that was intended for the Alaskan market.  Total pulled out of Canadian oil sands at a loss.  Then we see just last week that BP pulled the plug on Mad Dog Phase 2, which would have been one of the major developments in the Gulf of Mexico—a $10 billion megaproject—and that cancellation was a surprise.

What we’re seeing is that the majors are looking at these high-cost projects, and they are beginning to take a more critical eye.  This is very much in line with what our model says, which is that oil prices can’t rise much faster than GDP and inflation, plus or minus.  And in fact geological costs, as you come down the back side of Hubbert’s peak, will increase and will do so at an accelerating rate.  I think we are beginning to see that process now.

Even when we look at the “good-news” shale / tight oil, some investment is slowing.  In the Bakken, for example, the rig count actually peaked in September of 2012, and the year-over-year production growth rate peaked at 90% three months earlier in June.  Today the growth rate, while still impressive, is down to about 40%.  If that trend continues, we could see single-digit growth in the Bakken much sooner than most think.

Bakken Graph

Q: So the shale oils won’t be the ever-growing cavalry that everyone expects them to be?

Kopits: If you take the plain vanilla interpretation of this, unless the shales start picking up rapidly from non-exploited plays—not the Permian and the Eagle Ford and the Bakken, but places like the Utica and Monterey, where results have been disappointing, or some other plays or even abroad—you are looking at a world in which the marginal consumer is beginning to reject the marginal barrel.  And if you run this out for a period of time, you will peak out the oil supply.  I think the peak occurs in a finite time frame—not 2030, not 2020.  Maybe  2014 or 2016—I’m not exactly sure, but sometime pretty soon, unless shale oil really takes off in new plays.

Q: So the story line getting a ton of ink of late—peak oil is dead….it isn’t actually quite dead yet, is it?

Kopits:   No.  But importantly, we’re going to peak out production not because we’re “running out of oil,” but because the marginal consumer is not willing to pay for the marginal barrel.  We seem to be pretty much at that level today.

We need to understand these dynamics better.  What are the combined effects of flat oil prices and rising production costs, that’s where I think the challenge is and where our professional work is focusing on the macro side…to better understand what these trends are, what they mean, and how companies in the industry should respond to it.

I’ll give you an example.  Normally, if you look at an oil production system, it tends to be symmetrical around the peak.  The rate at which you approach the peak is the rate at which you depart from the peak.  We haven’t done that.  What we’ve done is that we’ve approached the peak and we’ve leveled out production, the so-called “undulating plateau”.  But we’ve maintained that plateau by turning to non-oil liquids, by dramatic increases in upstream spend, and also by technological innovation related to hydrofracking.  All of these, as of today, look to be running their course.  Even shale oil.  Yes, it will grow for the next few years from the three majors plays in the US, but the peak of production growth is already behind us in the Bakken, for example.  On current trends, Bakken production will be increasing by single digits within two years.  Not a tragedy by any means, but not enough to move the global oil supply at that time, either.

Of course, we have one more arrow in the quiver after that: government take.  Governments typically take 60-90% of revenues of oil production.  There’s nothing wrong with that, as in most cases the oil belongs to the respective government.  But if the cost of production is increasing, then the value of reserves is falling.  Put another way, current levels of government take, whether production or profit sharing, royalties, lease payments or taxes of any sort, are likely unsustainable.  Oil companies will need tax relief in one form or another.  Far from being able to raise taxes on oil companies, the sober reality is that governments are going to have to get used to getting less.  Expect this theme to come front and center in the next couple of years.  If government take is reduced quickly, then oil production levels could be sustained for a few more years.

But what then?  What’s the outlook for oil production globally?  Will production at the high cost producers just ease off gently, or will global production rejoin the anticipated trend line from a 2005 peak sharply and quickly?  Will the major oil companies invest just a bit less, or do they start culling their new project list aggressively and without material replacement?

I don’t know what the answer to that is.  But that’s what we’re trying to find out.  That’s the focus of our macro thinking today.

Steven, thanks for your time and your thoughts.

 

Steven Kopits has been Managing Director for the New York office of energy business advisors Douglas-Westwood since 2008.  He is solely responsible for the views expressed here, which do not necessarily represent those of Douglas Westwood.

Steve Andrews is an independent investor and business owner based in Colorado and a co-founder of ASPO-USA.

Source: http://www.pennenergy.com/articles/pennenergy/2013/04/fpl-brings-ca...

 

FPL brings Cape Canaveral gas-fired energy center online

April 26, 2013
Source: Florida Power & Light Co.

 

Florida Power & Light Company has announced that its state-of-the-art Cape Canaveral Next Generation Clean Energy Center has begun generating electricity from clean, U.S.-produced natural gas. Over its operational lifetime, the new, fuel-efficient plant is expected to provide FPL customers hundreds of millions of dollars in fuel and other savings over and above the cost of construction.

FPL invested approximately $900 million to build the facility, which was constructed on the site of a 1960s-era plant that the company took down in 2010. Construction was completed more than a month ahead of schedule and approximately $140 million under budget.

The plant is capable of producing more than 1,200 megawatts of electricity or enough to power approximately 250,000 homes and businesses – roughly double the amount generated by the previous plant – without using any additional water or land.

"It's fitting that this historic Cape Canaveral site, which emerged to power American innovation and leadership in the space race more than half a century ago, will now be using some of the most advanced generation technology available and U.S.-produced natural gas to help power the Space Coast's bright future," said FPL President Eric Silagy. "This plant uses 33 percent less fuel to generate electricity, which will help us keep our typical residential customer bills the lowest in Florida and significantly lower than the national average. It's an important achievement for our company and our state. Investments in affordable, reliable, clean electricity will help our state's economy continue to grow."

FPL's investments in state-of-the-art, combined-cycle, natural gas power plants since 2001 have cut the company's fuel costs by more than $6 billion through 2012, and 100 percent of those savings have been passed on to customers. By using natural gas to generate electricity, FPL has reduced its use of foreign oil by 98 percent – from more than 40 million barrels of oil in 2001 to now less than 1 million barrels annually.

In addition to saving on fuel costs, the latest technology further improves FPL's emissions profile – already among the cleanest in the United States. Compared to the former Cape Canaveral plant, the new facility generates power with half the rate of carbon dioxide emissions and more than 90 percent fewer air emissions. Moreover, the plant site's administration building features rooftop solar panels as part of its U.S. Green Building Council's Leadership in Energy and Environmental Design (LEED) certification.

Also, FPL's investment in the new plant has important economic benefits locally. Construction of the plant employed more than 650 people at its peak, approximately three-quarters of which were filled by Floridians. It also supported numerous local businesses over the past three years, and during the plant's first full year of operation, it is expected to deliver $15 million in new tax revenue for local governments and school districts.

As part of the company's four-year rate agreement approved by the Florida Public Service Commission last year, the net increase on a typical 1,000-kWh residential customer bill will be 16 cents a month, or about half a penny per day, as the cost of building the plant is offset in large part by the fuel savings from the plant's efficiency.

"At FPL, we're investing billions of dollars every year in our infrastructure – improving the efficiency of our power plants to keep fuel costs and emissions down, hardening our infrastructure so we can provide reliable service year-round and supporting the state's economic development, which benefits all Floridians," Silagy said.

Pretty funny that a power company builds a nat gas dual gen power plant but has to put inefficient solar cells on the offices just to be PC.

Source: http://bbs.chinadaily.com.cn/thread-857779-1-1.html

 

Russian scientist predicts mini-ice age from 2040 onwards

 

 

 

 

Post time 2013-5-6 18:52:20 |

This post was edited by lebeast at 2013-5-6 21:25

The latest recruit to the ranks of Principia Scientific International is Dr Habibullo Abdussamatov the head of space research at the Russian Academy of Sciences Pulkovo Astronomical Observatory in St Petersburg and Director of the Russian segment of the International Space Station. Dr Abdussamatov graduated from Samarkand University in 1962 as a physicist and a mathematician. He earned his doctorate at Polkovo Observatory and the University of Leningrad and is undoubtedly one of the world`s leading solar physicists.



The Polkovo Observatory is one of the best equipped astronomical observatories in the world and has been since its founding in 1839. Both the Russian and Ukrainian space agencies under the leadership of Dr Abdussamatov were given priority space experiment status and room on the International Space Station to study the changes of the total solar irradiance. The project called Astrometry has yielded exciting results indicating a marked decline in the total solar irradiance which is clearly having a dramatic effect on the global climate.


With the data from the Astrometry project mankind will have prior knowledge of a century of falling temperatures during which the earth will enter a mini ice age. Dr Abdussamatov notes that the de-gassing of large amounts of carbon dioxide released into the atmosphere from the oceans have been triggered by the increased solar irradiance which warmed the earth`s oceans in the last decades of the 20th century. The lack of any warming for the past
seventeen years is a result of the decline of the total solar irradiance, a decline which is now accelerating. (see graphic below).

 


Hundreds have died in the last year due to the cold. Hundreds dead in eastern europe with temperatures of fifty below. Thousands treated for hyperthermia. In the US over 3,300 cold records have been set this week alone. (www.iceagenow.info. Site of Dr Robert Felix.). Dr Abdussamatov has revealed to me that over the last 1000 years there has been five deep cold periods which occurred around 1030, 1315, 1500, 1680 and 1805. these fell in respectively the Oort, Wolf, Sporer, Maunder and Dalton minimums. These are all separated by a period of about 200 years (.+/- 70). Given the last occurred about 1805 we are well on the way to the next deep cooling. The bicentennial cycle of the sun is one of the most intense solar cycles and part of the total solar irradiance. It is basic in considering solar cycles.


Dr Abdussamatov debunks the greenhouse effect:


Referring to the present debate on the causes of climate change he says ” there is no need for the Koyoto protocol now. A global freeze will come about regardless of whether or not industrialized countries put a cap on their greenhouse gas emissions. The common view that man`s industrial activity is a deciding factor in global warming has emerged from a misinterpretation of cause and effect” He goes on “ascribing `greenhouse` effect properties to the earth`s atmosphere is not scientifically substantiated. Heating greenhouse gases, which become lighter as a result of expansion, ascend to the atmosphere only to give the absorbed heat away. Mars has global warming - but without a greenhouse and without the participation of Martians. These parallel global warmings - observed simultaneously on Mars and on the earth can only be a consequence of the effect of the same factor: a long time change in solar irradiance.”


He notes that a new Little Ice Age will start around 2013/2014. the depth of the decline will occur around 2040 a deep freeze that will last for the rest of this century. Forget about global warming! (note: do the climate alarmist think that it was the Martians that produced the global warming on Mars in the later part of the 20th century?)


Note: With the biased reporting in sections of the mainline printed and television media in Britain especially it is clear that Britain, Europe and the United States are ill prepared for what lies ahead. Terri Jackson membership officer for PSI and founder of the Energy Group at the Institute of Physics in London and Dr Abdussamatov were both speakers at the recent 4th international climate conference at the Heartland Institute in Chicago.

 

 

Source: http://www.courant.com/business/hc-natural-gas-pipeline-spectra-ene...

Connecticut Natural Gas Pipeline Project Considered

McClatchy-Tribune News Service

12:39 p.m. EDT, May 9, 2013

Efforts to upgrade one of Connecticut's three major natural gas transmission lines will start next week as the owners of the Algonquin pipeline begin meeting with homeowners who live along its route.

Officials with Spectra Energy, the Houston-based company that owns the Algonquin pipeline, will hold meetings Monday, Tuesday and Wednesday to meet with landowners. The main part of the line extends from Danbury across the state to Thompson in Connecticut's northeast corner and includes major spurs into North Haven and New London.

Marylee Hanley, director of stakeholder outreach for Spectra Energy, said the meetings are just open to the landowners who might be affected by the improvements.

"These are informational meetings where we'll have maps that show the property of land owners and will allow them to express any concerns they might have about the proposed route," Hanley said. Because the project is in its preliminary stages, she declined to go into specific details about the route.

"We're to replace about 33 miles of older transmission lines with newer pipes in various segments along the route," she said. The plans also include adding an additional 19 miles of new pipeline to the spurs that go into North Haven and New London, Hanley said.

After getting input from landowners who live along the pipeline, Spectra Energy is expected to make its final recommendation by early summer to federal utility regulators as to where improvements should be made. The goal is to start construction on the pipeline in March 2015 and have the transmission line in service by Nov. 2016.

"The aim of this project is to provide the Northeast with a unique opportunity to secure a cost-effective, domestically produced source of energy," she said. Spectra Energy delivers natural gas from four points in North America: The Gulf of Mexico, the Rocky Mountain region, Sable Island of off the coast of Nova Scotia and the Marcellus Shale deposit, which stretches across central New York and western Pennsylvania southwest into five other states.

Hanley said part of the reason for the expansion is related to a facet of Connecticut's energy policy which calls for helping the state's natural gas utilities expand their customer base. State officials have said that 50 percent of the state's homes are heated with oil, and that, with natural gas prices at historic lows, consumers would benefit by having the option to switch.

Another large natural gas pipeline operator, Shelton-based Iroquois Transmission System, announced in January it was entering into a venture with the Constitution pipeline project that is being proposed west of Albany, N.Y. The agreement would allow Iroquois to increase its supply of natural gas into New England.

 

 

 

 

Source: http://www.spectraenergy.com/Operations/New-Projects-and-Our-Proces...

Jack's comment: Looks like Sean and Yoko will be able to heat their Condo at The Dakota with Clean, Green, Cheap Marcellus natural Gas. 

 

Spectra Energy's New Jersey - New York expansion is an expansion of its existing Texas Eastern Transmission and Algonquin Gas Transmission pipeline systems to deliver new, critically needed natural gas supplies to the New Jersey and New York areas, including Manhattan.

  • Location: New Jersey and New York
  • Scope: Approximately 16 miles of new pipeline and five miles of replacement pipeline
  • Capacity: 800 million cubic feet per day (MMcf/d)
  • Ownership Interest: 100 percent Spectra Energy
  • Projected Completion Date: November 2013

For more information, please contact our project office in Jersey City at 1-888-568-7269.

 

Man........why do we not just disconnect the gas to NY residents.  Their leaders ban energy development, I say they release the State if they want heat.

RSS

© 2024   Created by Keith Mauck (Site Publisher).   Powered by

Badges  |  Report an Issue  |  Terms of Service