To predict the most suitable method for the production of large quantities of hydrogen form the given methodes. Concept introduction: Hydrogen is a colorless gas and has a very low boiling point. It has very low atomic mass . Hydrogen is produced in vast quantities by various industrial methods, the majority of which is used for the preparation of ammonia by Haber’s process. It is also used in the manufacturing of methanol and other chemicals. The simplest way to generate hydrogen is through coal and steam. This is one of the oldest methods to synthesize hydrogen. The other methods to produce hydrogen are catalytic steam reformation of methane and electrolysis of water. Some of the laboratory methods to produce hydrogen are the reaction of metal with an acid, metal hydride with water or metal with water. The most commonly used laboratory method is the reaction of metal with an acid.
To predict the most suitable method for the production of large quantities of hydrogen form the given methodes. Concept introduction: Hydrogen is a colorless gas and has a very low boiling point. It has very low atomic mass . Hydrogen is produced in vast quantities by various industrial methods, the majority of which is used for the preparation of ammonia by Haber’s process. It is also used in the manufacturing of methanol and other chemicals. The simplest way to generate hydrogen is through coal and steam. This is one of the oldest methods to synthesize hydrogen. The other methods to produce hydrogen are catalytic steam reformation of methane and electrolysis of water. Some of the laboratory methods to produce hydrogen are the reaction of metal with an acid, metal hydride with water or metal with water. The most commonly used laboratory method is the reaction of metal with an acid.
Solution Summary: The author explains that the most suitable method for the production of large quantities of hydrogen is the high-temperature reaction of methane and water.
Interpretation: To predict the most suitable method for the production of large quantities of hydrogen form the given methodes.
Concept introduction: Hydrogen is a colorless gas and has a very low boiling point. It has very low atomic mass. Hydrogen is produced in vast quantities by various industrial methods, the majority of which is used for the preparation of ammonia by Haber’s process.
It is also used in the manufacturing of methanol and other chemicals.
The simplest way to generate hydrogen is through coal and steam. This is one of the oldest methods to synthesize hydrogen. The other methods to produce hydrogen are catalytic steam reformation of methane and electrolysis of water.
Some of the laboratory methods to produce hydrogen are the reaction of metal with an acid, metal hydride with water or metal with water. The most commonly used laboratory method is the reaction of metal with an acid.
1. In an experiment, what volume of O2(g) at 0oC and 760 mmHg is produced when 5A of current is passed through a dilute aqueous solution of KCl for 5 minutes?
What is the oxidation number of nitrogen in hydrazine, N2H4?
Calcium metal is obtained by direct electrolysis of molten CaCl2. If a metallurgical electrolysis apparatus operates at 24.20 A, how many grams of calcium metal will be produced in 36 hours?
Chapter 21 Solutions
OWLv2 6-Months Printed Access Card for Kotz/Treichel/Townsend's Chemistry & Chemical Reactivity, 9th, 9th Edition