Negawatt market

A negawatt market is a theoretical energy market where the commodity traded is a negawatt-hour, a unit of energy saved as a direct result of energy conservation measures.

An assortment of LED lamps commercially available as of 2010 as replacements for screw-in bulbs, including floodlight fixtures (left), reading light (center), household lamps (center right and bottom), and low-power accent light (right) applications
A "negawatt revolution" would involve the rapid deployment of electricity-saving technologies, such as compact fluorescent lamps.

Origin and development

A negawatt-hour is a unit of energy saved as a direct result of energy conservation measures, such as reducing the use of heat or electricity. The concept was developed after Amory Lovins authored an article published in the March 21, 1985 issue of Public Utilities Fortnightly arguing that utility companies will sell less electricity and more efficiency by marketing 'negawatts'. In Lovins' opinion, utility customers don’t want kilowatt-hours of electricity; they want energy services such as hot showers, cold beer, lit rooms, and spinning shafts, which can come more cheaply if electricity is used more efficiently.[1]

Negawatts are a form of encouragement to motivate consumers to conserve energy.[2] Lovins considers the concept of conservation "a change in behavior based on the attitude 'Do Less to Use Less.'" He makes a distinction between conservation and efficiency by defining efficiency as "the application of technologies and best practices to eliminate waste based on the attitude, 'Do the same or more with less.'"[3]

Cost for negawatt power can be calculated using cost-effectiveness analysis or CEA. For energy efficiency investments a CEA calculation produces the value of saved energy or negawatts in $/kWh. Such a valuation allows comparing the price of negawatts with price of energy such as electricity from the grid or the cheapest renewable alternative. Specifically, Tuominen et al. have suggested using the dynamic generation cost type of CEA for energy efficiency investments as it includes the best accounting for the time value among the various CEA methods available.[4]

According to Lovins, energy efficiency represents a profitable global market and American companies have at their disposal the technical innovations to lead the way. Not only should they "upgrade their plants and office buildings, but they should encourage the formation of negawatt markets".[1] Lovins sees negawatt markets as a win-win solution to many environmental problems. Because it is "now generally cheaper to save fuel than to burn it, global warming, acid rain, and urban smog can be reduced not at a cost but at a profit".[1]

Lovins explains that many companies are already enjoying the financial and other rewards that come from saving electricity. Yet progress in converting to electricity saving technologies has been slowed by the indifference or outright opposition of some utilities.[1] A second obstacle to efficiency is that many electricity-using devices are purchased by people who won’t be paying their running costs and thus have little incentive to consider efficiency. Lovins also believes that many customers "don't know what the best efficiency buys are, where to get them, or how to shop for them".[1]

In 2003 in France under the guide of Thierry Salomon 23 scientists wrote "Le manifeste Négawatt."[5][6] Megawatt and negawatt seem to be reminiscent to the larger concept of ecological footprint, handprint handprint, and by following this line of thought toward compatibility and comparability a second frame of concept seems appropriate: mindprint the impact in another frame or setting where units or numbers can not be compared (see paradigm shift). See association négaWatt.

Market

Lovins has advocated a "negawatt revolution", arguing that utility customers don’t want kilowatt-hours of electricity; they want energy services such as hot showers, cold beer, lit rooms, and spinning shafts, which can come more cheaply if electricity is used more efficiently.[1] Lovins defines the negawatt market as a way to reduce the gap between the cost of making and saving electricity.[7]

The negawatt market can be thought of as a secondary market where electricity is allocated from areas of less use to areas of greater use.[7] This would be a secondary market, due to the fact that it would reallocate electricity from one consumer to another within the already existing energy market. Some feel that to establish a viable market, legislation and cooperation between primary producers, distributors, traders and consumers, may be required. This proposal would encourage the market to have legislative regulations, while still allowing the market to work within itself to set prices and allocate resources.[8]

A negawatt market would allow "demand side resources" to participate in wholesale energy markets. These markets are commonly referred to as a demand response. Demand response can be defined as "enrolling large users of energy in programs to lower their usage in return for compensation, which helps take pressure off the grid" [9] This market would help take pressure off the grid because electricity could "be treated as a commodity just like copper or sowbellies," and therefore traded to areas that need it more than others.[10]{ As any commodity, negawatts would have to be "tradable across time and space" to be an effective market.[11] Being able to trade negawatts across time and space would allow for an international trading system. To create a market for negawatts, energy companies will need to put more focus toward energy efficiency.[12] This shift in focus would require a new "business structure that will thrive in the 'negawatt market'", which has not yet been developed. Market possibilities are being implemented internationally, implying that one day an official negawatt market will become a reality.[13]

Implementation

Government implementation

Negawatt power is being implemented in many states in the U.S. and is emerging as an international strategy to reduce energy consumption. "Test negawatt auctions began in 1999 in Connecticut and Georgia and more than a dozen utility exchanges were in existence" in 2000. In an effort to move toward energy efficiency, New York has created programs "supported through Energy $mart, which is run by the New York State Energy Research and Development Authority (NYSERDA), with money from a small surcharge on utility bills."[14] Negawatt power is implemented in California as well as Texas. "Some Texas congressmen and energy companies are trying to help California avert blackouts and utility price shocks this summer with [...] 'negawatts'.[15]

On January 1, 2009, the states of South Australia and Victoria (Australia) became the first in Australia to offer "householders energy efficiency incentives programs delivered via local electricity retailers."[16]

The UK has implemented the Electricity Demand Reduction pilot scheme in 2012, and second phase in 2016[17]. This is backed by the Electricity Capacity Regulations 2014[18].

Private implementation

The negawatt market is being used by governments and companies. Aluminum manufacturers in the Pacific Northwest shut down their power plants and sold the unused energy because selling the negawatts was more profitable for the company than selling the aluminum product. This was possible because "The smelters hold power contracts with the federal Bonneville Power Administration that contain clauses allowing them to market the electricity."[19]

The Associated Electric company in rural Missouri is implementing the usage and spreading the knowledge of negawatts by performing energy audits at their customer's homes to show them where they could be saving electricity. Rebates are being given to help customers pay for more energy-efficient, Energy Star appliances. Keith Hartner, the CEO of Associated Electric Cooperative Inc., feels that negawatts are generating savings for their customers and for the company as well: “The goal of this program is to save money not only at the generator but also at the meter for the members.”[20]

Individual households can practice negawatts through using energy-efficient lighting and Energy Star appliances as well as simply reducing standby power. The resulting savings sometimes offset the investment in new high efficient light bulbs and appliances. These efficiencies can offset a portion of the cost of a residential photovoltaic system. Negawatts reduces the overall size of the photovoltaic system required for the household, because they are consuming less electricity. This results in a faster payback period for the photovoltaic system. The City of San Diego has created a negawatts initiative called "Reduce then Produce" to promote this idea.[21]

Advantages

Cost

The most noteworthy advantage in creating a negawatt market is the cost incentive. As many will say, "The cheapest watt is the one that's never created."[22] In this market, the consumers who increase their home efficiency, or decrease their energy consumption, can earn money by selling the saved electricity. This is similar to an emissions trading or a cap-and-trade system, in which the energy that is not used can be bought from the consumers who saved the energy and sold to those who need to purchase the extra energy. Providers of electricity can encourage consumers to sell back their unused energy, or negawatthours, especially during peak hours. A major question that electric companies need to ask themselves is whether it is less expensive to pay consumers to reduce consumption for a few instances a year or to build and maintain a side-supply resource that would only be used a few times a year. Many argue that the "cost of foregone consumption is less than the cost of increasing the supply of electricity."[7]

If a consumer conserves a substantial amount of energy then there can even be an allowance for a tax deduction. According to the Negawatt Power Solutions Group,[23] a "building that achieved a 50% energy cost reduction may be eligible for tax deduction up to $1.80 per square foot."[24] Negawatts can help alleviate some of the costs of constructing new, efficient buildings. "The negawatt revolution now provides a way to cut construction costs, capture big returns on capital in renovations, [and] dramatically cut operating expenses."[25] Existing buildings can be made more efficient by renovating the insulation to cut back on electricity used for heating, installing more efficient light fixtures, and an upgraded HVAC design. Renovating a building to be more energy efficient will cost less than creating entirely new, more efficient buildings.

Reduction of national energy dependency

The reduction of the amount of energy that a region emits can slowly separate a nation from a high energy consumption of oil. The desire to become a less energy-dependent country may promote behavioral changes and a different societal outlook on energy usage. These potential societal perspective changes could lead to an overall more sustainable country. The reduced consumption of energy would also produce less greenhouse gases, which could have positive outcomes on the economy, political parties, and interest groups, such as environmentalists. According to Lovins, improvements in energy efficiency and conservation, due to a change in behavioral attitudes, have a huge potential to reduce a country's "long-term energy needs," such as the United States.[3]

Local deregulation

Some conservatives claim that the negawatt market could help nations or states have a deregulated electricity system. This would allow a nation or a state to experiment with "electricity deregulation," in which "demand reductions could be purchased with a minimum of disruption to businesses, workers and the economy."[15] In the United States, for instance, the negawatt market could assist California with rolling blackouts by making more power available from consumers who choose to conserve energy or increase their negawatts. California could achieve the goal of deregulation by allowing a deficit area to "purchase an emergency supply from anywhere within with West"[15] in which "the ultimate purpose of deregulation was to allow competition in the electricity market and consumer choice of electricity providers."[26] Negawatt power would allow the consumers in a country's economy to decide how the energy will be distributed: essentially benefiting regions that hope to have a deregulated electricity system.

Drawbacks

Difficulty in creating a negawatt market

Currently, there is no way to precisely measure the amount of energy saved in negawatts; it can only be theoretically determined based on the consumer’s history of energy use. Visualizing has a very important role in “enabling residents to understand and manage their energy use,” which serves as a form of encouragement for consumers to conserve energy.[22] Without the visualization of the energy use, it is difficult to conceptualize negawatts because the consumer cannot see a precise value of the amount of saved energy. Smart meters are becoming a more developed technology to measure energy usage, but "consumers are calling on state regulators to move cautiously on smart meters, citing complaints in some states that the meters are raising electric bills rather than lowering them."[27]

Some municipally owned utilities and cooperatives argue that negawatt power "lets consumers treat electricity as a property right rather than a service [...giving them] legal entitlement to power [that they] don't consume.”[15] This would indicate that consumers would treat electricity as a property, not a service. Some people, including the senior vice president Joe Nipper from the American Public Power Association, oppose the idea that people would receive money for power that they did not even spend.

Electricity price caps may also need to be implemented in order for the emerging negawatts market to function correctly.[19] To some, government limitations on markets are unfavorable. There is a current view that negawatts are worth pursuing, but that they are unlikely to satisfy the world's thirst for energy to the extent their advocates assume.[28]

Expense of efficiency

Saving energy by the negawatt and creating a negawatt market can present several drawbacks for manufacturers and electricity providers. Manufacturers are less inclined to make energy-efficient devices which meet a specific standard, such as Energy star's standard, because of increased time and cost, while receiving minimal profit. Overall, electricity providers may not want customers to use less energy due to the loss of profit. Some even argue that producing energy-efficient products, such as light bulbs, actually simulate more demand, “resulting in more energy being purchased for conversion into light."[29]

Customers may also be less inclined to buy products that are more energy efficient due to the increase in cost and time spent. "Even when the information is known and, despite the overall long-term cost-saving potential, the price of energy is too low...for individuals to justify the initial cost of energy efficiency measures."[30] Not only are energy efficient devices more expensive, but "consumers are poorly informed about the savings on offer. Even when they can do the sums, the transaction costs are high: it is a time-consuming chore for someone to identify the best energy-saving equipment, buy it and get it installed."[28]

The technology used to measure the amount of energy that a consumer uses and saves, known as smart meters, grid systems, or energy dashboards, require time for the consumer to understand. Some argue that people need to have access to “simple yet effective information systems to help users understand their energy without having to become technology experts.”[22] The current visual energy measuring devices could be made simpler and less expensive, which may encourage customers to save more energy, thus increasing their negawatts.

The capital cost of energy-efficiency is erroneously argued by some to exceed the energy savings (energy required for raw materials, manufacture and transport to point of sale versus running costs). For instance they argue that the capital cost of buying a new energy efficient car will not be recouped unless the car runs for more than ten years. However increased energy efficiency leads to less usage and longer life.

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See also

References

  1. Lovins, Amory B. (September 1990). "The Negawatt Revolution" (PDF). Across the Board. XXVII (9): 23. Archived from the original (PDF) on 2012-02-22. Retrieved 20 May 2020.|
  2. Bartram, Rodgers, & Muise (2010).
  3. Knickerbocker. (2001).
  4. Tuominen, Pekka; Reda, Francesco; Dawoud, Waled; Elboshy, Bahaa; Elshafei, Ghada; Negm, Abdelazim (2015). "Economic Appraisal of Energy Efficiency in Buildings Using Cost-effectiveness Assessment". Procedia Economics and Finance. 21: 422–430. doi:10.1016/S2212-5671(15)00195-1.
  5. "Archived copy". Archived from the original on 2012-04-26. Retrieved 2011-12-05.CS1 maint: archived copy as title (link)
  6. Rochlin, Cliff (2009). "The Alchemy of Demand Response: Turning Demand into Supply". The Electricity Journal. 22 (9): 10–25. doi:10.1016/j.tej.2009.09.004.
  7. Fotopoulos, (2007).
  8. Gulyas, (2008).
  9. Lovins, Amory B.; Fickett, Arnold P.; Gellings, Clark W. (September 1990). "Efficient Use of Electricity". Scientific American. Retrieved 17 May 2020.
  10. Lovins, (1989). "The negawatt revolution-solving the co2 problem."
  11. (2010, May). Generating "negawatts".
  12. Weinberg, (2001).
  13. Alliance for clean energy, New York. (2008). Energy Efficiency
  14. Jim, (2001).
  15. Energy Matters. (2008, December 31).
  16. "Electricity Demand Reduction pilot". UK Government. Retrieved 17 April 2020.
  17. "The Electricity Capacity Regulations 2014". legislation.gov.uk. Retrieved 17 April 2020.
  18. Jim, (2001).
  19. McCarty, (2008).""
  20. CCSE Press Releases (2011), " Archived 2011-12-13 at the Wayback Machine"
  21. Bartram, Rodgers, & Muise, (2010). P. 8-14.
  22. "Archived copy". Archived from the original on 2011-07-11. Retrieved 2010-12-04.CS1 maint: archived copy as title (link)
  23. NegaWatt Power Solutions Group. (2009). ""Archived copy". Archived from the original on 2011-07-11. Retrieved 2010-12-04.CS1 maint: archived copy as title (link)"
  24. Lovins, & Browning, (1992) "Negawatts for buildings"
  25. "".
  26. Peters, (2010). "Consumers wary of smart meters."
  27. Economist, (2008). P. 78.
  28. The Economist, (2010). "Energy Conservation: Not Such a Bright Idea."
  29. (2010). "Generating "negawatts"."

Works cited

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