It is difficult to know whether world industrial society has yet reached the point where the marginal return for its overall pattern of investment has begun to decline. The great sociologist Pitirim Sorokin believed that Western economies had entered such a phase in the early twentieth century (1957: 530). Xenophon Zolotas, in contrast, predicts that this point will be reached soon after the year 2000 (1981: 102-3). Even if the point of diminishing returns to our present form of industrialism has not yet been reached, that point will inevitably arrive. Recent history seems to indicate that we have at least reached declining returns for our reliance on fossil fuels, and possibly for some raw materials. A new energy subsidy [i.e. new energy source] is necessary if a declining standard of living and a future global collapse are to be averted. A more abundant form of energy might not reverse the declining marginal return on investment in complexity, but it would make it more possible to finance that investment.

In a sense the lack of a power vacuum, and the resulting competitive spiral, have given the world a respite from what otherwise might have been an earlier confrontation with collapse. Here indeed is a paradox: a disastrous condition that all decry may force us to tolerate a situation of declining marginal returns long enough to achieve a temporary solution to it. This reprieve must be used rationally to seek for and develop the new energy source(s) that will be necessary to maintain economic well-being. This research and development must be an item of the highest priority, even if, as predicted, this requires reallocation of resources from other economic sectors. Adequate funding of this effort should be included in the budget of every industrialized nation (and the results shared by all). I will not enter the political foray by suggesting whether this be funded privately or publicly, only that funded it must be.

There are then notes of optimism and pessimism in the current situation. We are in a curious position where competitive interactions force a level of investment, and a declining marginal return, that might ultimately lead to collapse except that the competitor who collapses first will simply be dominated or absrobed by the survivor. A respite from the threat of collapse might be granted thereby, although we may find that we will not like to bear its costs. If collapse is not in the immediate future, that is not to say that the industrial standard of living is also reprieved. As marginal returns decline (a process ongoing even now), up to the point where a new energy subsidy is in place, the standard of living that industrial societies have enjoyed will not grow so rapidly, and for some groups and nations may remain static or decline. The political conflicts that this will cause, coupled with the increasingly easy availability of nuclear weapons, will create a dangerous world situation in the foreseeable future.

References
Sorokin, Pitirim A. (1957). Social and Cultural Dynamics. Porter Sargent, Boston.
Zolotas, Xenophon (1981). Economic Growth and Declining Social Welfare. New York University Press, New York and London.

While NILM applications require minimal hardware and some instances claim over 90% recognition of some loads, this approach is not without challenges. The requisite hardware must be able to report power readings with at least 1.0 Hz of frequency[13] and ideally calculates at least true power, reactive power, and harmonics. Associating a particular electrical signature with the originating appliance either involves a training period or a large database of known loads. Still, given the continuing decreases in hardware costs and the possibility of distributing software costs and signature categorization, the high quality of data and low labor costs for installation make NILM the most promising technology for detailed end-use electricity consumption data.
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[13] Cole A, Albicki A. Algorithm for non-intrusive identification of residential appliances. In: Proceedings of the 1998 IEEE International Symposium on Circuits and Systems. Monterey, CA, USA, 1998, 3: 338-341.

• "The largest solar fab in the Americas" is being developed in the Portland suburb of Hillsboro, Oregon by SolarWorld. Administrative headquarters is in Vancouver, Washington.
• Iberdrola Renewables, based in Portland, is the the north american arm of Spain's Iberdrola S.A., "the largest renewable energy operator in the world." (quoted from Wikipedia)
• Bonneville Power Administration, the largest producer and distributor of electric power in the Pacific Northwest, is based in Portland. Its transmission business and major switching/intertie station is in Vancouver, Washington. BPA distributes power from 31 hydroelectric dams, numerous wind farms, and forecasts the highest rate of interconnected wind generation capacity (30%) of any US balancing authority. BPA will be forced to pioneer leading-edge techniques in grid stabilization and intermittent renewable power integration. In addition, BPA power keeps Southern California from blacking out in the summer by sending power south over one of the nation's few high-voltage DC transmission lines, the Pacific DC Intertie.
  
• With large contracts from both Siemens and Vestas, the Port of Vancouver is one of the leading importation ports for the massive wind turbines being deployed across the Western US. The Port boasts the two largest heavy-lift mobile harbor cranes in North America, the perfect tools for efficiently transloading turbine cargo from ocean-going vessels to trucks and train cars for distribution to wind farms, many of which are being built in eastern Washington and Oregon. Vancouver is the junction of major Pacific shipping routes, major rail lines, and major trucking routes, giving it a distinct geographic advantage in serving as a deployment hub for wind energy infrastructure.
• Oregon Governor Ted Kulongoski has managed to establish Portland as the first city to receive electric cars from Nissan, and is working with utility PGE to build a network of charging stations throughout the region. Portland has the highest per-capita rate of hybrid car ownership in the United States.

Minneapolis-based Xcel, Colorado's largest electric utility, has installed about 14,000 "smart" meters that provide information to the utility and to customers. Xcel and its contractors have strung more than 100 miles of [fiber-optic] cable over power lines for broadband transmission and hooked up a handful of homes to program and monitor energy use.

From the Associated Press, via Minneapolis/St.Paul's WCCO.com

Congress is unlikely to swallow the castor oil of cap-and-trade without such sweeteners, Washingtonians say. But the more lavish the subsidies, the more expensive cutting emissions becomes--and the harder for voters to stomach.

Reprocessing of civilian fuel has long been employed in Europe, at the COGEMA La Hague site in France, the Sellafield site in the United Kingdom, the Mayak Chemical Combine in Russia, the Tokai plant in Japan, the Tarapur plant in India, and briefly at the West Valley Reprocessing Plant in the United States.

from "Nuclear Reprocessing" (Wikipedia)

Plug-in Hybrid Electric Vehicles - Another area of concern are PHEVs. This is one technology which completely shatters the central generation to end-consumer power system model that is in operation today. Most aspects of these load and storage devices (in technical terms) are yet defined. Policies and regulations are also not quite complete and certainly business models for energy accounting are sorely lacking. There are several cross-industry groups assessing these gaps and proposing solutions. Utilities are attempting to prepare by obtaining advanced metering devices which are able to perform bi-directional energy accounting, by developing strategies around home area networks and information models, and investigating financial accounting strategies, but much of this work is incomplete.

(Quoted from Smart Grid Standards Assessment and Recommendations for Adoption and Development, Draft 0.83, February 2009, by Erich W. Gunther, et al, of EnerNex Corporation for the California Energy Commission.)

The driving motivation for the hydrogen fuel economy is the search for a cyclic, indefinitely viable energy metabolism pattern to replace the current reliance on fossil fuels as these approach exhaustion and their recovery ceases to be economically attractive.

While coal is widely heralded as an economically attractive long-range replacement for fossil hydrocarbons (with synthetic hydrocarbon fluid fuels manufactured from coal), it is also limited, albeit at a more future date than petroleum... Even here, however, caution is necessary in view of the possible buildup of CO₂ in the atmosphere to a level that would severely modify the global climate. Data collected since 1950 show that atmospheric CO₂ has been rising at a rate of 0.3-0.4% per year; between 1958 and 1979 it rose by 6.4%. This corresponds to about half of the carbon burned as fuel remaining in the atmosphere as CO₂. Extrapolation to the end of the century [2000] indicates that atmospheric CO₂ will increase another 10-15%, and that by about 2030 it may be double the present level. This could lead to a global warming of about 3°C, resulting in major and deleterious large-scale climatic changes. It therefore seems most prudent to endeavor to understand totally the consequence of carbon release on the global climate, as well as in the meantime seriously to pursue alternative energy systems not reliant on carbon.

a) easily forecast demand (because retail prices don't vary in the short term), and
b) increase or decrease generation capacity (to a limit) more or less at will.

Once they can control anything, they will want to control everything. Do you want to loose [sic] control of when your lights work?

-- Jim Holm, comment on WSJ blog post

Smart Grid is part of a global initiative to manage information, all information.... Did you catch that? Smart Grid will allow the government to collect information about you, your habits, and possessions. All they need are a few sensors to know what is in your refrigerator; how long you spend in the bathroom; if you smoke in your home; if you drink alcohol in your home; and how many people are in your home or business at any one time. Science fiction? Don't bet on it.

-- RFD America blog post

[NARUC ]President [Frederick] Butler, who also serves as Co-Chairman of the NARUC-Federal Energy Regulatory Commission Smart Grid Collaborative, said that too much of the focus on the "Smart Grid" is on end-use consumers who may not understand the benefits or even want new smart meters. Rather than building confidence in the Smart Grid, this approach will likely breed opposition. Instead, President Butler recommended that lawmakers, policymakers, and industry focus on the back-end operational systems, such as upgrades to the transmission and distribution systems.

One of the things that's needed very soon is clarity on who owns the data [relating to a household's electricity consumption]. We [at Google] have a position that it's a bit like this information, what an individual consumer used, belongs to that consumer. But that is not universally recognized. I think it needs to be. There needs to be some clarity on this going forward.