Sunday 26 February 2017

Wind and Solar Power Drain the Lifeblood Out Of The Economy !

Hot off the press:     All in the one Government document - both employment data and TWh generated in 2016, for Solar, Wind and Nuclear Power:



From the enlarged view it's possible measure the bar-lengths and accurately estimate the TWh generated for Nuclear - Solar - Wind, using the 1000 TWh line as a datum. TWh generated for the whole of 2016 taken to be the estimate for 'Sept 2016 YTD' x 4/3. 



"...Energy is the lifeblood of the economy.  
The primary 
objective of the 
energy sector 
is to supply 
cost-effective 
energy to the 
broader economy, 
allowing it to 
grow and increase the standard of living of its citizens. 

Artificially pumping up employment in the energy sector per se - and thereby driving down productivity, 
while driving up costs to the broader economy - is counterproductive to overall net job creation and economic growth. It is a sign of increased efficiency if more energy can be produced and delivered with fewer workers, because this expands the overall output potential of the economy..."

Nuclear Power - 1 Job = 100% UEL (a)
Wind Power ----- 1 Job = 27% UEL
Solar Power ----- 1 Job = 1.25% UEL
Note (a): 'Use of Economic Lifeblood'


Tuesday 7 February 2017

Secrets Revealed About The UK's Biggest Onshore Wind Farm - Criminal Levels Of Environmental Impact!

The topography of the area is of a relatively flat plateau with occasional hills rising above the flatter plateau landmass, all of which is overlain with deep peat, in some places reaching down past 8 meters. 

On top of this is found a mixture of plants that are specialised in living in the low nutrient peat environment and which give the area its distinctive appearance.

One further factor had to come into play for the peat to form of course - a high rainfall (oceanic) climate. This coupled with the underlying geology of Whitelee meant that blanket bog formed over the scarred hills.


No-one knows exactly when blanket bogs began to form but its accepted that it was somewhere between 6000 and 9000 years ago.

Whitelee Landscape


Utopia - Dystopia ???
Commenting on the official opening of Whitelee Wind Farm, Friends of the Earth's Executive Director Andy Atkins said it was "...an exciting step towards a greener future..."
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3,200 MW Hinkley Point C [HPC] will operate at 90% capacity factor [cf]. 539 MW Whitelee has a cf of 27%. It needs 20 wind farms the size of Whitelee to generate the same amount of intermittent electricity in a year, as the 24/7 electricity delivered by HPC.

"...With the current windfarm covering 78 km²..."

20 x 78 km² = 1,560 km²


  • A windfarm constructed sympathetically on peat can produce a positive CO2 return within 3 years of operation. If however the windfarm is poorly built, the CO2 payback can take 30 years - longer than the lifespan of the windfarm
  • About 70% of the roads at Whitelee are built using floating road construction methods because of the deep and sometimes fluid peat
  • 900 hectares of non-native conifer plantation was removed as part of the development of Phase-1 of the windfarm - around 2.25 million trees
  • Deepest peat encountered was 7m. Average peat depth was 3.3m
  • Approximately 850,000m3 of peat excavated and spread
At 7:29, a walk through Whitelee Windfarm and a description of peat removal.
--------------------//--------------------
"...No-one knows exactly when blanket bogs began to form but its accepted that it was somewhere between A6000 and 9000 years ago..."

6,000 to 9,000 years of carbon storage - then it's all released in an instant. And for what? To cut an *unknowable* amount of greenhouse gas emissions 

*unknowable* - The calculation can only be modelled because of the impossibility of measuring the amount of methane released during construction, forest removal and peat bog excavation !
--------------------//--------------------
And that's not the end of the story. Whitelee's lifespan is stated as 20 years, but it will probably produce for 25 years, which is the norm [claimed by wind power bodies]. So the 20 wind farms would have to be built a 2nd and be 10 years into the 3rd build to deliver for 60 years. That's a factor of X2.4

That's 2.4 x 20 x 539 MW = 25,872 MW of installed capacity.
--------------------//--------------------
At £600 million for 539 MW:
25,872 MW Costs £28,800 million !!!!!!!