A moment’s employment of our critical faculties reveals just why wind and solar will never be meaningful power sources. STT is dedicated to explaining why. But, for the uninitiated, we’ll simply mention sunset and calm weather as the most obvious starting points.
Explaining how readily the naïve and gullible have been taken in by the rent seekers that sit behind and profit from the so-called wind and solar ‘industries’ takes a little more intellectual horsepower, however.
You’d be hard pressed to find a group of people turning up to venerate the moment when a reliable power source – like a gas turbine or coal-fired power plant – is launched into operation. So, why is it that retired school teachers and Uni academics will drive miles out of their way to genuflect in the middle of a field carpeted with these things, with a like-minded group, equally keen to display their self-perceived ‘virtue’?
Andy West has been studying that peculiar phenomenon, for some time now.
As West explains in this detailed article, there’s a quasi-religious element to what is more readily explained as a cultural crusade, driven by a mixture of fear and ignorance.
Cultural motivations for wind and solar renewables deployment
19 November 2020
“For me the question now is, now that we know that renewables can’t save the planet, are we going to keep letting them destroy it?”. – Michael Schellenberger
There have been many technical analyses of Wind and Solar energy, covering a raft of issues from energy density and efficiency, through subsidies and land usage, to maintenance, grid impacts, intermittency and more. The angle examined here is in no way intended to replace such necessary views, whether they lean to the pessimistic or the optimistic or anywhere in-between. Rather, a complementary view is provided regarding an aspect that such technical analyses cannot address, albeit it often features in the conclusions and questions these analyses raise at the end. Right here at Climate Etc, the first of the excellent analyses by ‘Planning Engineer’ (on his retirement revealed to be Russ Schussler, ex-VP of Transmission Planning at Georgia Transmission Corporations), laudably highlighted the limitation of technical analyses with his very first line: “Power System Planners do not have the expertise or knowledge to say whether or not the benefits of reducing carbon emissions are worth the costs. However they should be respected as experts for obtaining a better understanding of what the implications and costs of such programs are.”
So, who does have this critical knowledge and expertise regarding ultimate cost / benefit? The answer is highly likely to be no one at all, because not only is this issue deeply disputed, it is culturally (as well as technically) disputed. Indeed, to the extent that the overwhelming public and authority narrative about climate change contradicts mainstream science let alone any skeptical science, which also means that, especially in some nations such as the US, there are cultural counter-narratives too. Hence debates about policy, including renewables deployment, aren’t legitimately resolved, because the potent cultural angle corrupts or polarizes or simply overrides any such debate.
Schussler acknowledges this cultural dispute, saying in the line following the above quote: “Unfortunately many non-experts, driven by fear of AGW, have done much to cloud, distort and ignore critical issues around the cost and capabilities of renewable energy and the realities relating to the provision of electrical power.” He also returns to this theme at the very end of his post: “…I believe most planners and utilities recognize that the overall impacts to society (unless needed to aver environmental disaster) would be extremely harmful in the net analysis. I hope that the voices of concerned utility experts are not drowned out by the noise of ‘true believers’ or disbelieved because of false accusations of self-interest.” For sure ‘true belief’ is a cultural feature and may often prompt ‘false accusations’. Plus that caveat of ‘unless needed’, or more subtly ‘how much needed’, is a major issue within the dispute above. An apparent need, could be partly or wholly the result of emotive belief, of which ‘fear of [C]AGW’ is a major component.
Schussler’s title, ‘Myths and realities of renewable energy’, emphasis mine, is inclusive of the element that technical analysis cannot ultimately probe regarding character and impact, because myths are cultural phenomena. Others cite myth as Renewables motivation, and David Archibald goes further in directly framing this element as ‘religious’ in nature (religions being just one brand of cultural entities). In a recent article on renewables (and focusing on hydrogen) at Jo Nova’s, he employs religiously orientated terms such as ‘believers’ and ‘government encyclicals’:
“Briefly, the only reason solar and wind get a look-in is because solar panels and wind turbines are made using energy from coal at $0.04 per kWh and turn out power at $0.20 per kWh… …You can’t use solar and wind power to make solar and wind power equipment; as such they are neither renewable nor sustainable. And they certainly won’t be replacing fossil fuels when the fossil fuels run out.
Even some lefties are figuring this out and thus the documentary Planet of the Humans. So the global warming clerisy, headed by Alan Finkel in this country [Australia], needs to keep coming up with new content to satisfy their simple-minded believers… …Vast sums are to be spent on hydrogen. The language of the Government encyclicals suggests that hydrogen is a new source of energy that just has to be tapped to guarantee a wonderful future.”
Needless to say, Archibald views this ‘religious’ influence as overwhelmingly negative, adding as part of his conclusion: “Global warming doesn’t build orphanages or hospitals. As a religion it doesn’t do any good at all.” And others claim a cultish / ‘religious’ motivation too. Yet whether viewing culture as only a clouding / distorting influence, or as an overwhelmingly negative force, technical analyses critical of renewables inevitably falter or get speculative when it comes demonstrating cultural sway (for example, across nations invested in renewables). An alternate approach is needed to progress this.
There are less critical / more optimistic analyses of Solar or Wind ‘renewables’, which nevertheless tend to justify some amount of pain in achieving rosier end-scenarios, upon the premise that this is needed to avoid an otherwise inevitable and imminent global catastrophe (apart from the most wildly optimistic, in which all changes are apparently painless). Yet mainstream science says such a justification is unfounded (notwithstanding the cultural dispute above).
Meanwhile the implementation of Solar and Wind is surging ahead, and has done so for decades in some countries. So, is this global implementation largely due to pragmatic considerations that are consistent with mainstream science? After all, these things do actually produce power. Or instead, largely due to cultural motivation that spreads solar-panels and wind-turbines as merely icons for the ‘secular religion’ of certain and catastrophic climate change? And no matter the costs, fiscal or environmental. This question is resolvable, as hard social data on the cultural attitudes of many nations to climate-change, allows national motivations to be mapped to Renewables deployment.
Cultural attitudes to climate-change across national publics
Prior posts here, show that supportive attitudes to climate-change (CC) across national publics, have a dual and systemic strong relationship with religiosity. CC supportive public responses to unconstrained climate survey questions correlate with national religiosity, while oppositely, CC supportive responses to reality-constrained questions anti-correlate with national religiosity. [Reality-constrained questions force survey participants to consider and compare other reality issues in relation to climate change, typically by asking them to nominate the X ‘most important’ from a larger list of Y issues, of which one represents a climate-change issue, or literally just ‘climate-change’. Unconstrained questions don’t force such a comparative choice]. Using some data-series from the prior posts, Chart 1 below summarizes this dual relationship. For many nations and plotted against national religiosity, it shows the CC supportive public responses measured (and for the dashed lines, intuited) for different strengths of both unconstrained and reality-constrained survey questions.
Strength for the unconstrained questions (blue lines) reflects how aligned these are to the emotive and existential values of catastrophic climate change culture (CCCC), plus how much this is targeted at the personal. Another way of thinking about this strength, is how biased the questions are towards CCCC, emotive content being a feature of bias and not of rationality. Strength for reality-constrained questions (orange lines) reflects the tightness of the constraint. Picking the ‘most important’ single issue of 12, for example, is a stronger reality-constraint, a stronger clash with the other issues, than say picking the top 3 of 12, which is stronger in turn than the top 5 of 12. Table 1 at the end of this post, shows which actual climate-change survey questions generated the data-series each line represents (each is depicted as just the stand-alone trendline), along with the related r/r2/p values.
The most important conclusion to draw from these trends is that, as revealed by their strong relationships with religiosity (an entirely cultural phenomenon), attitudes to climate-change across nations are likewise cultural. In fact, they’re the net result of interaction between 2 cultures, i.e. CCCC and religion. So, this means they are not due to rationality (cultural attitudes are emotively driven), or anything physical such as the characteristics of the climate-system, or indeed the particular climates or climate exposures of nations, or likewise any views on same as expressed by mainstream (or any) climate science.
With the exception of one historical coincidence (annual sunshine duration – see later) no matters encompassed by these categories would exhibit a systemic relationship with religiosity. And for sure none can exhibit both correlation and anti-correlation simultaneously, depending only upon the type of question asked; yet such is certainly possible for cultural responses. This duality raises apparent contradictions. For instance, maximum climate concerns (RH ends of blue trends in Chart 1) occur in the same nations as minimum support for climate action / priority (RH ends of orange trends). But such apparent contradictions aren’t unusual for cultural causation. From the prior series here at Climate Etc, see : Apparent Paradoxes in the relationship of Climate ‘Concerns, Skepticism, Activism, and Priority’ explained by Religiosity.
In fact, the full situation is more complex than depicted by Chart 1. See the Summary File linked below (and especially Chart 2 in there, not in the main post) for more explanation, visualized via more series plus features added to the above Chart 1. However, the conclusion remains that climate-change attitudes across nations are mainly cultural, so not from either rationality or physical factors. [Note: the attached summary is more distilled and easier going than the 3 prior posts linked above. Regarding the US, see the note at the very end of this post].
Probing motivations for Renewables Commitment
If a particular domain is dominated by cultural attitudes, spending and policy support within the domain should ultimately be rooted in those attitudes. Hence, armed with the above cultural attitudes to climate-change, we now need to explore the relationship across nations, between these and actual Renewables deployment. It isn’t that mass publics rush out and purchase Wind Turbines with their credit cards, in proportion to their national attitudes. The actual commitment works via elites who enact policy. Yet the limits on such policy should still be in proportion to the national public attitudes (which doesn’t mean alignment in an absolute sense).
Culture works to this end whether or not a nation is a democracy, or in the latter case whether or not democratic processes are actually involved (e.g. in the UK, ‘net-zero by 2050’ was nodded through without a parliamentary vote, and with essentially no costing or scrutiny or meaningful opposition). As per the Introduction above, the primary justification for Renewables is indeed climate-change. So, if culture does rule the roost for this particular policy area, Renewables deployment per nation should be governed by its (cultural) attitudes to climate-change. In which case, we must see a very strong correlation between these two aspects.
But which of the above attitudes to climate-change are relevant, when comparing on a national basis with renewables commitment? As there is at least some reality-constraint on deploying renewables (because all nations have budgets and competition for same), if indeed the expression of renewables policy is mainly cultural, this ought to align with a reality-constrained (orange) trend, not an unconstrained (blue) trend. Plus, because public and also elite / authority knowledge about renewables is likely very poor on average, this makes the constraint weak at best (if the downsides of deployment were better understood, then the constraint would be stronger).
So, we should be looking at a comparison with the attitude data from the ‘WC’ series in Chart 1. This comes from an enormous UN survey on policy priorities in many nations, the vote share for ‘action on climate-change’ forming the series Y-values. Nations can be matched from this series to those with major Solar deployment (40 nations), Wind turbine deployment (also 40, with 5 nations different to the Solar list), plus a common set (of 35) deploying both.
Looking at the combined commitment for Wind and Solar should produce a more reliable result, as each may have technology / policy idiosyncrasies that could buck the trend in some way, but which are more likely to average out over the combination of both (though we can start by examining each type in turn). In practice, there’s highly unlikely to be zero or full correlation. Policy decisions are very rarely 100% free of cultural factors, yet they’d rarely be wholly cultural either. So, we can set reasonable thresholds for the test. If ‘r’ for the correlation of renewables commitment with weakly-constrained climate attitudes is say ~0.33 or less, then we can say culture (per above inherent in those attitudes) doesn’t dominate. But if r~0.66 or above, then we can say that cultural motivation does dominate renewables commitment. If the value lands in-between, I guess we’d have to see where and think more about dual modes.
Commitment for Wind Turbines across 40 nations
Preamble: 1] Due to various impacts on very long-term social development, it is well-known that with some exceptions (which aren’t an issue here) GDP-per-capita across nations strongly negatively correlates with religiosity (see Chart F1 in Xcel datafile). 2] Hence if above this, deploying Wind Turbine capacity is indeed motivated by a ‘WC’ type climate-attitude, which itself negatively correlates with religiosity (see Chart 1), then national religiosity plotted against each nation’s Wind Turbine capacity per-capita, should yield a power type function. It does (see Chart F2 in Xcel datafile). 3] Power functions are more difficult to deal with or apply our test thresholds for ‘r’ to (based on linear).
So, normalizing the Wind Turbine capacity per-capita wrt to GDP per-capita (I used Spain’s GDP as the arbitrary standard), will remove the long-term effect of religiosity upon societies and any unequal fulfillment of motivation (the same motivation, so ~fraction of GDP, will purchase more Wind Turbines if the GDP is bigger). So, this resets our expectation back to a linear function…
The plot: Across the 40 nations, UN vote share for ‘action on climate change’ (from ‘WC’ data), versus GDP-per-Capita-normalised Wind Turbine Capacity / Population (to 2018), shows a +ve correlation. This suggests that Wind Turbines are significantly motivated by a ‘WC’ type cultural climate-change attitude:
An ‘r’ of 0.64 just misses our test threshold for dominance; but this is only half the story so far. And it looks like there are idiosyncrasies regarding individual national policies for Wind deployment. E.g. the Czech Republic has very little despite a high vote for ‘action on climate-change’. And with a vote share that is a little lower, Portugal nevertheless seems to have a huge Wind capacity. In summary it seems that as motivation rises towards the right, especially beyond the green line, the range of expression in Wind Turbines, grows. This likely reflects larger and more targeted Renewable Energy policies, which hence spread from gung-ho for Wind Turbines right down to minimal deployment, because other Renewables are or aren’t more prioritized instead (e.g. Solar, Biomass, etc). So, to better insulate against the effects of targeted policies, we can add into the mix the identical analysis for Solar deployment.
Commitment for Solar Power across 40 nations
Preamble: 1] The equivalent charts for F1 and F2 in the Wind Turbine case, are F3 and F4 (see the Excel datafile). 2] However, there’s an extra issue for Solar Power, which is that we need to adjust the MW that each nation has deployed, according to its annual sunshine hours. Otherwise the same spend (where spend corresponds to motivation), hence the label MW, will produce different actual power per year in different nations. So in Chart 4, Solar Capacity deployed is normalized (to Spain) for Annual-Sunshine-DurationP1.
The plot: Across the 40 nations (5 different to the Wind Turbine set) UN vote share for ‘action on climate change’ (from ‘WC’ data), versus GDP-per-Capita-normalised Annual-Sunshine-Adjusted Solar Capacity / Population (to 2018), shows a +ve correlation. See Chart F7 in the Excel datafile. This chart is very similar to Chart 2 above, with a greater range of expression in Solar Power to the right of the green line. However, different nations than for Chart 2 are either high and low within this expression, because the idiosyncrasies associated with Solar Power are different to those for Wind Turbines.
An ‘r’ of 0.48 is somewhat lower than the case for Wind Turbines alone; much of the reduction appears to stem from Japan going nuts on Solar despite only middling climate concerns, while Sweden has very modest Solar despite very high climate concerns. But this is only half the story too. Combining the results for both the technologies, will give us a more robust picture for Renewables motivation overall.
Commitment for combined Wind / Solar Renewables across 35 (common) nations
Across 35 nations, Chart 3 below shows UN vote share for ‘action on climate change’ (from ‘WC’ data), versus GDP-per-Capita-normalised Combined Renewables Commitment / Population (to 2018). The +ve correlation has improved. Surpassing the upper test threshold with some to spare, ‘r’ is now at 0.73.
The greater range of spread of nations at the RHS has considerably reduced (excepting for Germany), this being consistent with expected total renewables motivation, which nevertheless may express much more in Wind Turbines than Solar for any particular single nation, or vice versa. The lens we used to see in the first place that attitudes to climate-change are cultural, i.e. the religiosity of nations, is color-coded onto Chart 3. This falls from left to right, albeit fuzzily because aside from some random noise, there’s a minor secondary variable at play which impacts religiosity as seen in this view (see Postscript 2).
Notwithstanding some utility, the main motivation for Wind and Solar Renewables is cultural. Thus, their installations are more akin to churches than to power-stations. This also means that, just like the cultural attitude it is rooted in, Renewables deployment per nation directly anti-correlates with religiosity; see Postscript 2.
While it seems highly intuitive that national attitudes for action on climate-change would align with the corresponding renewables deployments, going straight for the jugular might not result in understanding exactly how to compare (or at least, there’d be more chance of making a mistake in so doing), or indeed what the result actually means. For instance, without the benefit of the big picture in Chart 1 and what this is about in cultural terms, we wouldn’t have known that those attitudes are not due to rationality. Plus, we may have ended up comparing the attitudes from an unconstrained climate survey question, and still be wondering why more Renewables correlates with dramatically less concern about climate-change. And the steps in the above preambles, usefully confirm the roles of GDP-per-capita and sunshine duration.
Note: widespread public knowledge of Renewables issues would increase constraints on policy, likely collapsing motivation from the ‘WC’ line in Chart1, to the ‘FC’ line. Note: This post says nothing about actual physical climate change, nor about the mainstream science of same (which the CCCC narratives contradict). It’s only about public attitudes and their expression in Renewables policy.
Michael Shellenberger, the environmentalist who tirelessly advocates for Nuclear Power as a solution to our energy needs, says this of Renewables (and he’s talking largely about Solar and Wind deployments): “For me the question now is, now that we know that renewables can’t save the planet, are we going to keep letting them destroy it?” An insight consistent with the fact that the ‘purpose’ of cultural narratives is to gain emotive commitment, in turn only to hold the cultural group together; it’s irrelevant to this actual purpose that the resulting actions may undermine or even reverse their stated purpose; this happens.
In the blurb for his book ‘Apocalypse Never’ Shellenberger also speaks about the character of modern environmentalism, the motivation beneath it, which along with much else drives Renewables deployment (and also a net resistance to Nuclear Power as a ‘solution’): “What’s really behind the rise of apocalyptic environmentalism? There are powerful financial interests. There are desires for status and power. But most of all there is a desire among supposedly secular people for transcendence. This spiritual impulse can be natural and healthy. But in preaching fear without love, and guilt without redemption, the new religion is failing to satisfy our deepest psychological and existential needs.” Emphasis mine.
Shellenberger rightly identifies the overall motivation as cultural. He uses the term ‘religion’, as indeed do many others, simply because this is the most familiar example of a bounded cultural entity that people tend to have. Regarding a ‘climate catastrophe’ generally, the social data completely agrees with him, as shown in Chart 1 (and more fully elsewhere, see the Summary File below). And as demonstrated above, this is exactly the case too for the specific motivation behind Renewables deployment.
However, I believe Shellenberger has one thing wrong. Catastrophic climate culture is so pervasive exactly because it does satisfy deep psychological needs, which needs stem from signaling in-group identification via emotive, and preferentially existential, narratives. These in turn activate deep mental mechanisms which bypass our rationality, be that the advice of Planning Engineer or any other mere reason, via whatever expertise, experience or analysis. Anyone or any group that contradicts or even questions in-group narratives, is automatically out-group, and so passionately resisted.
Postscript 1: Historical accident and irony regarding Solar Deployment
Via the historical accident of atheism spreading outwards from NW Europe, and hence from mostly very cloudy (annually averaged) countries towards typically sunnier climes, the annual sunshine duration of countries has a pretty decent linear correlation with national religiosity, albeit some major individual exceptions. See Chart F5 in the datafile, ‘r’ is 0.56. Note: annual sunshine duration per country is derived from the average measurements for between 2 cities (smaller countries) and 5 cities (larger countries, excepting 10 for Russia); see the Excel datafile for tables of same, plus original sources. So, if national sunshine hours are substituted as a proxy for national religiosity in Chart F4, this still shows a power type function, see Chart F6 in the datafile. Similarly to above, we can then normalize this wrt GDP-per-capita, thereby removing the simple effect of spending power (and too its long-term relationship to religiosity). This reveals the relative priority of Solar deployment (and so relative motivation) for each of the nations.
The result of this operation, shown in Chart 4 below, demonstrates a significant irony that stems from the cultural motivation behind Renewables. Which is that, as the annual sunshine hours experienced by nations reduces, then more nations choose to deploy more Solar MW per capita – i.e. within exactly those geographies it is least useful.
The increasing spread of nations right to left in the green triangle, represents the same increasing range of expression in Solar that is also seen in F7 (see datafile), and likewise for Wind Turbines in Chart 2 above, which in both cases is more obvious to the right of the green lines. That increasing range is due to an increasing cultural motivation for Renewables, coupled with targeted policies which for particular nations may preference other Renewables options over Solar, to some degree.
Postscript 2: Renewables Commitment versus Religiosity
Religiosity is used as a ‘lens’ in Chart 1, which allows us to ‘see’ that national climate-change attitudes are indeed cultural. The two strong cultures interact to produce the various trends, and in particular the correlation with religiosity of climate-change supportive answers to unconstrained questions, yet also anti-correlation with religiosity of climate-change supportive answers to reality-constrained questions, for sure is extremely hard to explain any other way. One wouldn’t expect this lens or proxy itself to have quite such a robust correlation with national Renewables Commitment as the ‘WC’ climate attitude, but it’s a useful ‘parity check’ to graph this and demonstrate that it should still be pretty strong. Chart F9 in the Excel datafile shows this. ‘r’ is ~0.65 against ranked Renewables Commitment (compresses some of the outliers a bit, especially Germany), and ~0.6 against actual values. In practice, there is more than just extra randomity via looking through this proxy.
The series of ‘weaker strengths’ in Chart 1 (so ‘WC’ and ‘WA’) have some systemic variability about trend, due to the GDP-per-Capita of each nation relative to its religio-regional group. This variability is faithfully reflected in Chart F9, and is color-coded onto the chart. See also Chart F10 and F11, which show the consistency of the religio-regional-GDP-per-Capita group averages between the ‘WC’ and Renewables Commitment series. See the Summary File for a full explanation, plus some ‘weaker strength’ climate attitude series as full-data visualizations, to better see the raw effect. For a version of ‘WC’ using the same 35 nations as in Chart 3, with hi / lo Renewables commitment and hi / lo GDP-per-religio-regional-group both encoded, see Chart F8 in the Datafile.
Note: Norway is excluded from above charts as policy bias to immense amounts of natural hydro-power available, denudes Solar and Wind Turbine motivations. This could be accommodated by the inclusion of a third renewables string across all nations for hydro-power, but there’d be little value for this extra effort.
- Climate Survey Data-source: International 2019 YouGov climate-change attitudes survey.
- Climate Survey Data-source: European Perceptions of Climate Change (EPCC) 2016 survey.
- Climate Survey Data-source: UK government 2015 public attitudes tracker.
- Climate Survey Data-source: YouGov ‘What the world thinks’ (2016), composite with ‘Special Eurobarometer 459’ (2017).
- Climate Survey Data-source: The huge 2015 UN ‘My World’ poll with ~10 million participants across many nations.
- Climate Survey Data-source: Climate questions in the Reuters / University of Oxford ‘Digital News Report 2020’ survey.
- Original Excel chart: ‘3xy’ here (24 nations, x/y reversed, raw X scale, delete US & Vietnam rows).
- Original Excel chart: ‘1yx’ here (22 nations, debiased X scale), ‘2xy’ here (24 nations, x/y reversed, raw X scale, delete US & Vietnam rows).
- Original Excel chart: ‘F1yx’ here (22 nations, debiased X scale), ‘4xy’ here (24 nations, x/y reversed, raw X scale, delete US & Vietnam rows).
- Original Excel chart: See ‘3yx’ here (red crosses, and just left of chart, column G and J for data).
- Original Excel chart: See ‘F6’ here (and superimposed on other series, chart 3yx just to the left).
- Original Excel chart: See ‘4yx’ and ‘5yx’ here (4yx faith color-coded, 5yx religio-regional color-coded).
- Original Excel chart: Not on the Internet yet, see Footnote 9 in the attached Summary File below.
Link to Summary File regarding the generic relationship between national religiosities and attitudes to climate change: [SUMMARY Religiosity Predicts CC Beliefs 2]
Note: the above file includes a short separate section on the situation in the US, where there is a 4-way cultural dance (the extra dancers being Rep / Con and Dem / Lib cultures). See Footnote 14 in the file. In the other 59 nations covered, there is a simpler 2-way cultural dance (i.e. religious faith and catastrophic climate-change culture). The same basic principles apply, however, which allows the framework derived from the 59 nations to produce some insight on the US situation. I may expand on this in a future post. Outside of the US, religiosity as a predictor of national climate-change attitudes dwarfs any net political considerations. (And incidentally within nations on this issue, polarization due to political affiliation is much less than in the US; various literature cites the US situation as exceptional).
Burying The Truth: No Sensible Environmentalist Supports Filthy Wind & SolarIn “Big wind industry”
Michael Shellenberger Exposes Climate Industrial Complex in ‘Apocalypse Never’In “Australia”Filed Under: Big wind industry, Big wind politics, ending renewable energy subsidies Tagged With: Andy West Cultural motivations for wind and solar renewables deployment, climate change renewable energy, Community support renewables, Cultural basis for renewable energy support, Michael Shellenberger climate change, Michael Shellenberger nuclear power, Michael Shellenberger renewable energy, Politics of renewable energy, Support for renewable energy« Beyond Redemption: Germany’s Suicidal Wind & Solar Obsession Delivers Energy DebacleAbout stopthesethings
We are a group of citizens concerned about the rapid spread of industrial wind power generation installations across Australia.
- Alan Lowey says:November 30, 2020 at 6:39 pmIn order to Stop These Things the current sunspot cycles need to be predicted with accuracy. Historically, connections were made with climate change and disturbances on the surface of the Sun. The mechanism of such a correlation was never achieved. The solar energy output didn’t appear to vary by nearly enough to create climate shifts on Earth.The geomagnetic field was even found to vary in accordance with sunspot cycles. These magnetic fields are generated from the Earth’s core. This is a clue to a new mechanism that was missed during the mid 20th century.A new physics solution may sound science fiction but it really isn’t. Einstein’s gravity theory is out of date because it doesn’t dovetail with quantum mechanics. A strong gravitational interaction between the core of the Sun and the cores of the planets when they are on the same orbital plane is a good solution.Past climate change can be explained by increased solid body Earth tides. The oceans are pushed from beneath. Warm equatorial waters are pushed to higher latitudes, increasing precipitation which falls as snow in the polar regions. This is the basis of the glacial/interglacial cycle on the 100kyr orbital inclination cycle.Here is a history of the greenhouse gas ideology of global warming. Read it with the perspective of a new gravity hypothesis and everything changes:https://history.aip.org/climate/solar.htmReply