Climate Change Won’t Kill the Grandkids – Having No Energy Will
Written by Tom D. Tamarkin
Anthropogenic warming (AGW) or climate change is not the BIG problem its advocates make it out to be. Even if it could be proved that man is creating it through his use of hydro-carbon fossil fuels, it is not the truly BIG problem.
Climate change has always been a part of the Earth’s dynamic atmospheric system. During the last 2 billion years the Earth’s climate has alternated between a frigid “Ice House” climate, today’s moderate climate, , and a steaming “Hot House” climate, as in the time of the dinosaurs.
Principal contributing factors to the variability of the Earth’s median temperature and climate are the Earth’s complex orbit in the solar system as defined by the Milankovitch cycles, the sun’s variable radiated energy output, and geological factors on Earth such as undersea volcanic activity leading to inconsistent temperature gradients in the oceans.
This chart shows how global climate has changed over geological time.
Unfortunately, the potential threat of predicted future climate change has been used to transfer enormous amounts of money from wealthy nations to poor nations . This has enabled the survival instinct mechanisms of the climate change community. That includes governments, consultants, and scientific researchers who simply study the perceived problem and generate academic journal articles and reports. The ineffective green energy solutions manufacturing and service industry also owes their life…and government subsidies…to the climate change scare. No serious money raised by the “climate scare” has been spent on solving the BIG problem.
The BIG problem is the fact that man was provided with about 400 years’ worth of hydrocarbon based fossil fuels which took several hundred million years to be created on Earth. The energy came from the Sun . Integrated over large amounts of geological time, daily Sun energy was converted into chemicals through plant photosynthesis. These chemicals can, in-turn, be ignited to release the stored energy through an oxidation reduction reaction with oxygen . Once they are gone they are gone in human life cycle terms.
What is energy? A physicists will answer by saying “the ability to perform work.” They will elaborate by saying: “energy is a property of objects which can be transferred to other objects or converted into different forms, but cannot be created or destroyed.”
A housewife will say energy is what moves our cars, powers our airplanes, cooks our food, and keeps us warm in the winter – cool in the summer.
You cannot power a world estimated to have 9 billion people by 2060 on energy produced from solar cells and wind turbines.
They are not sustainable meaning they cannot create enough energy quickly enough to reproduce themselves (build more) and provide energy to man. The reason is that the amount of energy received from the Sun is far “too dilute” meaning a very small amount of energy is received per square unit of surface area for relatively short periods of time given the day-night cycle and weather conditions .
Wind energy is a secondary effect of solar energy because wind is created by the atmosphere’s absorption of the Sun’s thermal energy in combination with the Coriolis force effect . This is based on the rotation of the Earth coupled with atmospheric pressure differences relating to elevation, mountains, and the like .
Hydro power from dammed rives is also a secondary effect of solar energy. The movement of water in the Earth’s vast system of rivers occurs because of solar energy. This happens as seawater is evaporated, forms clouds, and ultimately water is released as rain and snow keeping our rivers full and flowing out to sea from higher elevations propelled by gravity. Unlike solar and wind, hydropower can consistently produce material but limited amounts of energy.
We must begin to turn to what Dr. Steve Cowley in the UK calls “energy from knowledge;” the conversion of mass into energy . Albert Einstein formulated the relationship between energy and mas (matter) in his famous equation E = mc2. This means that a very small amount of mass is equal to a very large amount of energy as explained by Dr. Einstein in his own voice .
We must solve energy for the long term through the conversion of matter into energy. No other energy source has a suitable energy flux density to provide our electricity, transportation, potable water and agricultural needs once fossil hydro-carbon fuels are no longer economically viable to recover due to depletion .
We must begin now because it will take several decades to master the science. We began this journey when we developed nuclear fission power. However nuclear fission is not a long term solution for several reasons; most notably the long-term radioactive waste it produces. As an example, in the U.S. today, nuclear energy accounts for approximately 20% of input energy to create America’s baseload power. To produce all baseload power we would have to increase the number of active nuclear plants by five times. Baseload power generation in the U.S. consumes roughly 40% of all energy resources. Thus, approximately 600 additional 1 GWH plants would have to be built and operated to provide 100% of all input energy currently consumed in the production of consumable energy in the United States. Scale this worldwide based on population and an equivalent per capita energy and it becomes overwhelming in terms of waste issues.
The next step is the development of nuclear fusion. Fusion is much different than fission[10–11–12]. It uses light elements in the fuel cycle, is fail safe, and can do no environmental harm. It has the highest flux density of any energy source short of matter anti-matter annihilation.
It will take several more years of pure experimental scientific research to demonstrate a sustained fusion reaction in the laboratory producing a net energy gain meaning more energy is produced than was “pumped in” to start the energy production . Once controlled fusion is proven in a controlled environment, regardless of how expensive and complicated the reactor mechanism and facility is, man’s ingenuity will take over in the private sector. The complexities and costs will be driven down just as turn of the 20th century vacuum tubes gave way to transistors and later microcomputers-on-a-chip.
That is the BIG problem. If we do not solve this, in 50 to 100 years our coal, oil, and natural gas resources will no longer be economically and environmentally recoverable . Then mankind reverts back to life in the 16th century. If we do not solve energy the entire argument of being good environmental stewards of the Earth is moot. Why? Because in less than 100 years we will no longer be burning fossil hydro-carbon fuels. Global warming and climate change caused by man is no longer an issue. The problem takes care of itself. In a few thousand years the processes of nature…geological and geo-chemical…will erase most signs of our past industrialized existence.
If there are not sizable numbers of cognitively intelligent humans capable of thinking and distinguishing beauty, it is a nonconsequential point as aliens are not flocking to our planet. No one or no thing will ever know the difference. Which begs the question: “Is there intelligent life on Earth?” This author believes so. As Bill & Melinda Gates recently stated in their recentfoundation’s annual open letter, our youth needs to be challenged to produce what they called an “energy miracle” .
This is the biggest problem man faces. Climate change…if caused by man…automatically reverses itself over the next 100 years. But if we do not solve energy mankind’s population will contract by a factor greater than 10 over the course of the following 100 years. Collectively, we as a species must recognize this reality and begin the energy race today.
 Another Climate Alarmist Admits Real Motive Behind Warming Scare, Investor’s Business Daily, March 29, 2016.
 Tamarkin, Tom D., Energy Basics; Where does energy on our planet come from?, Fusion 4 Freedom.
 Heats of Combustion, UC Davis Chemistry Wiki.
 Lawson, Barrie & Tamarkin, Tom D., Going Solar-System Requirements For Solar Generated Utility Baseload Power, Fusion 4 Freedom.
 Consequences of Rotation for Weather; Coriolis Forces, Universe of Tennessee Knoxville.
 Atmospheric Pressure at Different Altitudes, AVS Science & Technology of Materials, Interfaces, & Processing, https://www.avs.org/.
 Fusion energy with Professor Steven Cowley, Culham Centre for Fusion Energy, UK.
 William Tucker, Ph.D., Understanding E = MC2, Dr. Albert Einstein in his own voice & explanation, Energytribune.com.
 Tamarkin, Tom D., Energy Basics, Comparison of fuel energy flux densities, Fusion 4 Freedom.
 Duke Energy Nuclear Information Center, Fission vs. Fusion – What’s the Difference?
 Lawson, Barrie, Nuclear Fission Theory, Fusion 4 Freedom.
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 Tamarkin, Tom D., Fusion Energy; Too Important to Fail – Too Big To Hoard, Fusion 4 Freedom.
 Tamarkin, Tom D. 2060 And Lights Out: How Will America Survive Without Oil?, Inquisitir Special Report, http://www.inquisitr.com.
 Gates, Bill & Melinda, Gates Foundation Annual Open Letter, James, Murray, Guardian, February 24, 2016.
Energy Flux Density Comparisons
Energy density is the amount of energy stored in a given system or region of space per unit volume. Specific energy is the amount of energy stored per unit mass (weight.) Only the useful or extractable energy is measured. It is useful to compare the energy densities of various energy sources. At the top of the list is fusion followed by nuclear fission and then hydrocarbon fuels derived from petroleum, coal and natural gas. At the bottom of the list are batteries which either generate energy or store energy as well as “renewable energy” such as solar.
Here are the underlying calculations supporting the statement above:
The energy released by fusion of 1 atom of Deuterium with 1 atom of Tritium is 17.6 Mev = 2.8 X 10-12 Joules.
The energy liberated by the fusion of 1 Kg of Deuterium with 1.5 Kg of Tritium is 2.8 X 10-12X 2.99 X 1026 = 8.3 X 1014 Joules = (8.3 X 1014 ) / (3.6 X 10-12 ) = 230 GWHours.
This energy is released as heat. A conventional steam turbine power plant with an efficiency of 38%, would produce 87.4GWH of electricity
1 Deuterium is a naturally occurring isotope of hydrogen readily available from sea water.
2 Tritium is produced in the fusion reactor from Lithium as part of the fuel cycle and energy exchange process. Lithium is an abundant naturally occurring element.
1 How much solar power per cubic meter is there? The volume of the space between a one-meter-square patch on Earth and the center of our orbit around the sun is 50 billion cubic meters (the earth is 150 billion meters from the sun, or 4,000 earth circumferences). Dividing the usable 100 watts per square meter by this volume, yields two-billionths of a watt per cubic meter. Sunlight takes about eight minutes(499 seconds) to reach the earth. Multiplying 499 seconds by twenty-six billionths of a W/m3 reveals that solar radiation has an energy density of 1.5 microjoules per cubic meter (1.5 x 10-6 J/m3).
2 The only way to extract thermal energy from the atmosphere is to construct an insulated pipe between it and a reservoir at lower temperature (preferably a much lower one). This is how geothermal heat pumps work. Typical ground temperature is 52F (284 K). On a 90F day, such a system has a peak efficiency of 7%, and a power density of only 0.05 mW/m3 (Stopa and Wojnarowski 2006): typical surface power fluxes for geothermal wells are on the order of 50 mW/m2 and have typical depths of 1 km. To find the energy density, a characteristic time must be included. The time used should be that of the time required for water being pumped into the ground to circulate through the system once. This number is on the order of ten days (Sanjuan et al. 2006). The resulting energy density is 0.05 J/m3, or roughly two to three orders of magnitude lower than wind or waves.
3 Wind is driven by changes in weather patterns, which in turn are driven by thermal gradients. Tides are driven by fluctuations in gravity caused by lunar revolutions. The energy densities of wind and water systems are proportional to the mass, m, moving through them, and the square of the speed, v, of this mass, or ½mv2. At sea level, air with a density of about one kilogram per cubic meter moving at five meters per second (ten miles per hour) has a kinetic energy of 12.5 joules per cubic meter. Applying Betz’s Law, which limits efficiency to 59% (Betz 1926), yields about seven joules per cubic meter. Thus, wind energy on a moderately windy day is over a million times more energy-dense than solar energy.
There are two prevalent mechanisms for extracting tidal energy. In one system, barrages move up and down, extracting energy with the rise and fall of the tides. On the second type strategy, tidal stream systems act more like underwater wind turbines, extracting energy from tidal waters as they move past. As with wind, the energy of a moving volume of water is also ½mv2. Tidal systems have the advantage over wind systems in that water is approximately one thousand times denser than air. Their disadvantage lies in generally low tidal velocities of only ten centimeters per second to one meter per second. Thus, a cubic meter of water, with a mass of about 1000 kg, yields an energy density of about five joules per cubic meter for slow water1and five hundred joules per cubic meter for fast water2. These are also subject to Betz’s law and represent only peak values, so the average energy densities are closer to one-half of a joule per cubic meter to fifty joules per cubic meter, or about the same as wind.
1 kinetic energy (tidal low velocity) = ½ mv2 = ½ · 1000 kg · (0.1 m/s)2 = 5 joules.
2 kinetic energy (tidal high velocity) = ½ mv2 = ½ · 1000 kg · (1 m/s)2 = 500 joules.
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