Examples of hydrogen economy in the following topics:
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- The hydrogen economy refers to using hydrogen as the next important source of fuel.
- The hydrogen economy refers to a hypothetical future system of delivering energy through the use of hydrogen (H2).
- One major obstacle in the hydrogen economy is its transport and storage.
- Although the hydrogen economy is supposed to create a smaller carbon footprint, there are many concerns regarding the environmental effects of hydrogen manufacturing.
- The hydrogen economy could possibly revolutionize the current energy infrastructure by transferring fuel demands from fossil fuels onto hydrogen.
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- A hydrogen bond is a strong intermolecular force created by the relative positivity of hydrogen atoms.
- A hydrogen atom attached to a relatively electronegative atom is a hydrogen bond donor.
- This hydrogen atom is a hydrogen bond donor.
- Greater electronegativity of the hydrogen bond acceptor will create a stronger hydrogen bond.
- Where do hydrogen bonds form?
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- Hydrogenation reactions, which involve the addition of hydrogen to substrates, have many important applications.
- Hydrogenation refers to the treatment of substances with molecular hydrogen (H2), adding pairs of hydrogen atoms to compounds (generally unsaturated compounds).
- Most hydrogenation reactions use gaseous hydrogen as the hydrogen source, but alternative sources have been developed.
- The reverse of hydrogenation, where hydrogen is removed from the compounds, is known as dehydrogenation.
- Hydrogen gas is the most common source of hydrogen used and is commercially available.
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- Two weak bonds that occur frequently are hydrogen bonds and van der Waals interactions.
- When polar covalent bonds containing hydrogen form, the hydrogen in that bond has a slightly positive charge because hydrogen’s one electron is pulled more strongly toward the other element and away from the hydrogen.
- This interaction is called a hydrogen bond.
- Hydrogen bonds are also responsible for zipping together the DNA double helix.
- The slightly negative oxygen side of the water molecule and the slightly positive hydrogen side of the water molecule are attracted to each other and form a hydrogen bond.
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- Hydrogen is the smallest element, with one proton and one electron.
- Hydrogen exists in two different spin isomers of hydrogen diatomic molecules that differ by the relative spin of their nuclei.
- Hydrogen is available in different forms, such as compressed gaseous hydrogen, liquid hydrogen, and slush hydrogen (composed of liquid and solid), as well as solid and metallic forms.
- Because hydrogen is buoyant in air, hydrogen flames ascend rapidly and cause less damage than hydrocarbon fires.
- Oxidation of hydrogen removes its electron and yields the H+ ion.
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- Hydrogen forms polar covalent bonds to more electronegative atoms such as oxygen, and because a hydrogen atom is quite small, the positive end of the bond dipole (the hydrogen) can approach neighboring nucleophilic or basic sites more closely than can other polar bonds.
- In the following diagram the hydrogen bonds are depicted as magenta dashed lines.
- The molecule providing a polar hydrogen for a hydrogen bond is called a donor.
- Also, O–H---O hydrogen bonds are clearly stronger than N–H---N hydrogen bonds, as we see by comparing propanol with the amines.
- Comparison of Boiling Points of Methane, Ammonia, Water, and Hydrogen Fluoride
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- As with the alcohols, the phenolic hydroxyl hydrogen is rather easily replaced by other substituents.
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- Addition of hydrogen to a carbon-carbon double bond is called hydrogenation.
- The simplest source of two hydrogen atoms is molecular hydrogen (H2), but mixing alkenes with hydrogen does not result in any discernible reaction.
- Catalytic hydrogenation takes place in at least two stages, as depicted in the diagram.
- First, the alkene must be absorbed on the surface of the catalyst along with some of the hydrogen.
- This is often true, but the hydrogenation catalysts may also cause isomerization of the double bond prior to hydrogen addition, in which case stereoselectivity may be uncertain.
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- Hydrogen has three naturally occurring isotopes: protium, deuterium and tritium.
- Hydrogen is generally found as diatomic hydrogen gas H2, or it combines with other atoms in compounds—monoatomic hydrogen is rare.
- 2H, or deuterium (D), is the other stable isotope of hydrogen.
- It is a highly unstable isotope of hydrogen.
- 5H is another highly unstable heavy isotope of hydrogen.
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- It's goal is to gain a better understanding of the role of natural resources in the economy.
- Every man-made product in an economy is composed of natural resources to some degree.
- An example of a stock resource is hydrogen.
- This diagram illustrates how society and the economy are subsets of the environment.
- For this reason, natural resource economics focuses on understanding the role of natural resources in the economy in order to develop a sufficient and sustainable economy that protects natural resources.