Haber-Process Sample Questions
Q1: What are the factors that influence the Haber-Process?
Answer:
The Haber-Process is a reversible process. It is influenced by the change in temperature and pressure.
Q2: How can ammonia produce through Haber-Process?
Answer:
The production of ammonia is achieved through the Haber-Process, where the hydrogen (H2) and nitrogen (N2) Haber cycles play an important role. In this process, ammonia gas is generated by the synthesis of nitrogen gas from the atmosphere with hydrogen gas.
Q3: How can we get hydrogen in Haber Process?
Answer:
Hydrogen source in Haber-Process primarily is methane gas. The process involves steam reforming, where a nickel catalyst facilitates the separation of carbon and hydrogen atoms in natural gas.
Q4: Write the other catalyst name which can be used instead of iron in Habers Process.
Answer:
In Haber-Process, potassium hydroxide is supplemented to iron as a promoter to enhance its effectiveness. In the place of potassium hydroxide, we can use CaO, K2O, Al2O3, and SiO2 as iron promoters. The initial Haber process used Osmium and Uranium as catalysts in reaction chambers. Practice Questions on Haber-Process
Haber’s Process
Haber’s Process, which is also called the Haber-Bosch process, is used in the synthesis of ammonia from nitrogen and hydrogen. The Haber process to produce ammonia was developed during World War 1 (1914-1918) by a German chemist named Fritz Haber and his assistant in a laboratory. Later, in 1910, Carl Bosch took this idea and created a large-scale industrial machine for ammonia production.
In this article, we will learn What is Haber Process, the Diagram of Haber Process, equations, and thermodynamics involved in Haber’s Process.
Table of Content
- What is Haber’s Process?
- Raw Materials Used in Haber-Process
- Haber Process Diagram
- Haber Process Condition
- Thermodynamics of Haber Process
- Reaction Rate and Equilibrium of Haber’s Process