Still more energy is now being obtained from coal by the latest improved gas-engine, the economy of which is, on the average, probably twice that of the best steam-engine. The introduction of the gas-engine is very much facilitated by the importance of the gas industry. With the increasing use of the electric light more and more of the gas is utilized for heating and motive-power purposes. In many instances gas is manufactured close to the coal-mine and conveyed to distant places of consumption, a considerable saving both in cost of transportation and in utilization of the energy of the fuel being thus effected. In the present state of the mechanical and electrical arts the most rational way of deriving energy from coal is evidently to manufacture gas close to the coal store, and to utilize it, either on the spot or elsewhere, to generate electricity for industrial uses in dynamos driven by gas engines. The commercial success of such a plant is largely dependent upon the production of gas-engines of great nominal horse-power, which, judging from the keen activity in this field will soon be forthcoming.
For this essay’s purposes, the most important ecological understanding is that the Sun provides all of earthly life’s energy, either (all except nuclear-powered electric lights driving photosynthesis in greenhouses, as that energy came from dead stars). Today’s hydrocarbon energy that powers our industrial world comes from captured sunlight. Exciting electrons with photon energy, then stripping off electrons and protons and using their electric potential to power biochemical reactions, is what makes Earth’s ecosystems possible. Too little energy, and reactions will not happen (such as ice ages, enzyme poisoning, the darkness of night, food shortages, and lack of key nutrients that support biological reactions), and too much (such as , ionizing radiation, temperatures too high for enzyme activity), and life is damaged or destroyed. The journey of life on Earth has primarily been about adapting to varying energy conditions and finding levels where life can survive. For the many hypotheses about those ancient events and what really happened, the answers are always primarily in energy terms, such as how it was obtained, how it was preserved, and how it was used. For life scientists, that is always the framework, and they devote themselves to discovering how the energy game was played.
Essay On Fuel Conservation Free Essays - StudyMode
I continued to and became my . My former partner is the Indiana Jones of the free energy field, but I eventually realized that while it was awe-inspiring to witness his efforts, one man with a whip and fedora cannot save humanity from itself. I eventually took a different path from both my partner and astronaut colleague, and one fruit of that direction is this essay. Not only was the public largely indifferent to what we were attempting, but those attracted to our efforts usually either came for the spectacle or were opportunists who betrayed us at the first opportunity. As we weathered attacks from the power structures, such treacherous opportunities abounded. I witnessed dozens of attempts by my partner’s associates to steal his companies from him (, , , ), and my astronaut colleague was twice ejected from organizations that he founded, by the very people that he invited to help him. During my radicalizing years with my partner, I learned that , and it is the primary reason why humanity is in this predicament. The antics of the global elites are of minor importance; the enemy is us.