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(wow) Words Of Wonders Level 1532 Answers

(wow) Words Of Wonders Level 1532 Answers – We don’t often think about the great service that fossil fuels provide in terms of storing heat energy during the winter, when heat energy is most needed. In the United States, Figure 1 shows dramatically how domestic heating fuel consumption increases during the winter months.

Figure 1. United States based on EIA data. Energy consumption. Local consumption. Section “Natural gas, etc.” This includes the amount of fuel directly purchased or burned by households. It is primarily natural gas, but it also burns small amounts of propane and diesel as heating oil. Wood chips or other commercial wood purchased for burning is also included in this category.

(wow) Words Of Wonders Level 1532 Answers

Solar energy is most available during the May-June-July period, making it a poor candidate for solving the winter heating demand problem.

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Figure 2. California solar power for the month through June 30, 2022, based on EIA data. The limits are for energy scale and small scale solar hybrids.

In some ways, the lack of fuel in the winter is a canary in the coal mine for future fuel shortages. People worry about fuel shortages, but winter fuel shortages are, in many ways, worse. As a result, people can become “cold in the dark.”

[1] batteries are suitable for determining the exact time of solar energy consumption within a 24-hour period. It cannot be measured to store solar energy from summer to winter.

In today’s world, batteries are used to delay the use of solar energy for a few hours. In certain cases, the retention period can be extended by several days.

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California is known for both high levels of battery storage and high levels of renewables. This renewable energy includes solar and wind power, as well as small amounts of electricity produced from geothermal plants and electricity produced by burning biomass. The problem is that the electricity generated by solar panels starts and ends early in the day when citizens want to use this electricity. After citizens return home after work, they want to cook their dinner and use their refrigerator, which increases the demand significantly after sunset.

Figure 3. July 9, 2022, showing the mix of sources used during a day of high electricity use, shown by Inside Climate News. Import refers to electricity purchased outside of the state of California.

. Although battery consumption is adjustable when using solar energy for a 24-hour period, it is not possible to increase the number of batteries enough to save energy from summer to winter. The world will run out of battery products, nothing else.

[2] Adding more water is not the solution to our winter heating energy problem.

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Another problem is that water levels can vary greatly from year to year, even over a large area like the United States, as shown in Figure 4 above. When the variation is seen in a small area, the variation from year to year is even greater, as shown in Figure 5 below.

The pattern shown represents peak production in the spring when the snowpack is melting. Low generation usually occurs in winter when the snow is frozen. Therefore, it does not help to increase the water

A third issue is that the variability of water supply is already causing problems. Norway recently said it may limit water exports in the coming months due to low water reserves. The electricity that Norway exports is used to balance European wind and solar power. Therefore, this problem creates another energy problem for Europe.

In another example, China reported severe power shortages in Sichuan province due to low rainfall and high temperatures. Fossil fuel production is not available to fill the gap.

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[3] In terms of variability and supply downtime, wind power is no better than hydro and solar power.

For example, Europe experienced power shortages in the third quarter of 2021 due to weak winds. The largest wind producers in Europe (Britain, Germany and France) produced only 14% of their rated capacity during this period, compared to an average of 20% to 26% in previous years. No one expected such a shortage in three months.

In 2021, China experienced a dry, windless season, resulting in lower generation from wind and hydropower. The country felt the need to resort to blackmail to deal with the situation. Because of this, the traffic lights were on and many families had dinner by candlelight.

Total US wind power generation peaks in April or May. At the same time the increase in hydropower is increasing which is causing supply issues. Generally, the demand for electricity is low due to mild weather. As a result, even at today’s renewable standards, the combination of wet spring, wind, water and wind can result in a situation where total local electricity demand is exceeded.

Ramping Up Renewables Can’t Provide Enough Heat Energy In Winter

[4] As more wind and solar power are added to the grid, challenges and costs increase.

Trying to connect large amounts of wind and solar power to the grid has many technical challenges. Some of them are shown in Figure 7.

Figure 8. Figure 7. Slides illustrating torque curve problems from the same presentation by power engineers as in the YouTube video.

There are many other issues including some mentioned on this Drax website. The wind and the solar system do not provide “inertia”. It makes me wonder if the grid can work without massive amounts of fossil fuels or enough inertia for nuclear generation.

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In addition, wind and solar power produce electrical fluctuations, giving the systems so-called “reactive power.”

A man in the wind turbine maintenance industry once told me, “Wind turbines operate on a constant supply of replacement parts.” Certain parts are made for 20-years or more, but there are many parts that will need to be replaced before long. “Turbine gearboxes are typically given a 20-year design life, but some exceed the 10-year mark,” said an article in Wind Engineering.

In addition, the operating life of fossil fuel and nuclear power plants is generally much longer than that of wind and solar plants. In the United States, some nuclear plants have licenses to operate for 60 years. Efforts are underway to extend the term of some licenses to 80 years.

With the short lifespan of wind and solar, constant rebuilding of wind turbines and solar generation using fossil fuels is inevitable. Between the renewable fuel crisis and the need for fossil fuels to maintain the power grid, the production of wind and solar turbines cannot be expected to exceed the supply of fossil fuels.

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Energy models do not account for the many improvements to the transmission system needed to support wind and solar power and the additional costs that result. In addition to the direct cost of the additional transmission required, there is a constant need to monitor components for signs of wear. Brush around transmission lines should also be cut. If not properly protected, transmission lines can cause fire. Burying transmission lines is sometimes an option, but doing so is costly in terms of both energy consumption and cost.

The energy models don’t even take into account the “real life” performance of wind turbines and solar panels. In particular, many researchers say that electricity from the sun cannot be expected to contribute much to our heating energy needs in the winter. If we want to add more air conditioners in the summer, solar panels can support this effort, especially if the batteries are also included in the use of solar energy during the 24-hour day. Unfortunately, we don’t have a reasonable way to keep the solar laser output from summer to winter.

It seems to me that refrigeration is an unnecessary use to support what appears to be a dwindling supply of available energy. In my view, those should be both of our top priorities

. The sun, in particular, does nothing for these problems. The wind can be used to irrigate crops and livestock. In fact, even a simple windmill built 100 years ago can be used to provide this service.

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Because of the transition problem, especially the “summer to winter” breakdown problem, wind and solar power is not really an alternative to electricity generated from fossil fuels or nuclear power. The problem is, apart from the renewable energy system, much of the current system needs to be abandoned. When researchers compare costs, they should compare

[7] Competitive pricing systems for the development of wind and solar power are pushing many parts of the world into the “dark cooling” problem.

In the early days of electricity, “utility rate” was commonly used. In this way, direct integration of the power supply is encouraged. The utility enters into long-term contracts with several others

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