Presentation is loading. Please wait.

Presentation is loading. Please wait.

Unit 3 Industrial Chemistry and Hess’s law. Go to question 1 2 3 4 5 6 In the production of ammonia in the Haber Process, Which is a raw material used.

Published byMelvin Washington Modified over 8 years ago

Similar presentations

Presentation on theme: "Unit 3 Industrial Chemistry and Hess’s law. Go to question 1 2 3 4 5 6 In the production of ammonia in the Haber Process, Which is a raw material used."— Presentation transcript:

1 Unit 3 Industrial Chemistry and Hess’s law

2 Go to question 1 2 3 4 5 6 In the production of ammonia in the Haber Process, Which is a raw material used in this process? A sulphuric acid plant needs to increase its production of acid over a period of just one month. Which line in the Table best describes the increase in costs? An example of value adding would be ……….. What is the relationship between a,b,c (Hess’s Law) Use the information above to calculate the  H f for methane. For this reaction to be economical certain conditions of pressure and temperature are used. Which of the conditions below are used?

3 Which of the following a raw material is used in the production of ammonia by the Haber Process ? a. Iron used as a catalyst b. Hydrogen c. Nitrogen d. Recycled ammonia gas

4 a hint!!!! A raw material is something obtained from nature which does not need processing.

5 Which of the following a raw material is used in the production of ammonia by the Haber Process ? Correct because……… Nitrogen A raw material can either be non-living or living. Raw materials are available, therefore, from our surroundings. Nitrogen can be obtained from the fractional distillation of liquid air.

6 A sulphuric acid plant needs to increase its production of acid over a period of just one month. Which line in the table best describes the increase in costs? Capital Costs Fixed Costs Variable Costs AIncrease BStay the same C IncreaseStay the same D Increase

7 a hint!!!! Capital costs would be such things as the cost of building the chemical plant.

8 a hint!!!! Fixed costs include the cost of the staff and local rates, which will not usually change over a short period.

9 a hint!!!! Variable costs change throughout the year and change depending upon how much product is produced.

10 A sulphuric acid plant needs to increase its production of acid over a period of just one month. Which line in the Table best describes the increase in costs? Correct because…… Capital costs: The cost of building the plant and the associated costs of all buildings, would not increase. Variable costs: The cost that changes throughout the year and is dependant of how much product is sold would increase. Fixed costs: The cost of the staff, local rates, advertising and utility bills would not increase. Ans: D

11 An example of value adding to the product would be a. Changing from a batch to a continuous process b. Changing naphtha in to polymers c. Using a heat exchanger to recycle waste heat d. Using a catalyst to increase yield.

12 a hint!!!! Adding value increases the selling price of your product.

13 An example of value adding to a product would be b. Correct because………. Changing naphtha into polymers adds value to the product to be sold. Crude oil naphthapropene polypropene carpeting £’s per tonne 1x£’s per tonne 3x£’s per tonne 8x£’s per tonne 20x£’s per tonne

14 What is the relationship between a,b,c a. a = b +c + d b. a = b + c + 3d c. a = c + 3d - b d. a = b - c + 3d C 6 H 6 (l) + 3H 2 (g)  C 6 H 12 (l) C 6 H 12 (l) + 9 O 2 (g)  6H 2 O(g) + 6CO 2 ( g ) C 6 H 6 (l) + 7½O 2 (g)  3H 2 O(g) + 6CO 2 (g) H 2 (g) + ½O 2 (g)  H 2 O(g)  H a  H b  H c  H d

15 a hint!!!! Consider the reverse of this reaction C 6 H 12 (l) + 9 O 2 (g)  6H 2 O(g) + 6CO 2 (g)

16 a hint!!!! Consider the number of moles of hydrogen needed.

17 What is the relationship between a,b,c Ans: c. a = c + 3d – b C 6 H 6 (l) + 3H 2 (g)  C 6 H 12 (l) C 6 H 12 (l) + 9 O 2 (g)  6H 2 O(g) + 6CO 2 ( g ) C 6 H 6 (l) + 7½O 2 (g)  3H 2 O(g) + 6CO 2 (g) H 2 (g) + ½O 2 (g)  H 2 O(g)  H a  H b  H c  H d Correct because………. In order to produce C 6 H 12 (l) by an alternative route The combustion of each of the reactants needs to be considered as well as the reverse of the combustion of the product C 6 H 12 (l). X 3 Sign change

18 a. +211 kJ mol -1 b. -75 kJ mol -1 c. –1857 kJ mol -1 d. -4171 kJ mol -1 C (s) + 2H 2 (g) CH 4 (g) C(s) + O 2 (g) CO 2 (g) H 2 (g) + ½ O 2 (g) H 2 O (l)  H c = -394 kJ mol –1  H c = -286 kJ mol –1  H f = ? Use the information above to calculate the  H f for methane.  H c = - 891 kJ mol –1 CH 4 (g) + 2 O 2 (g) CO 2 (g) + 2 H 2 O (l)

19 a hint!!!! Consider the reverse of this reaction CH 4 (g) + 2 O 2 (g) CO 2 (g) + 2 H 2 O (l)

20 a hint!!!! Consider the number of moles of hydrogen needed

21 a hint!!!! Consider the number of moles of hydrogen needed Consider the reverse of this reaction CH 4 (g) + 1.5 O 2 (g) CO 2 (g) + H 2 O (l)

22 C (s) + 2H 2 (g) CH 4 (g) C(s) + O 2 (g) CO 2 (g) H 2 (g) + ½ O 2 (g) H 2 O (l)  H c = -394 kJ mol –1  H c = -286 kJ mol –1  H f = ? Use the information above to calculate the  H f for methane. CH 4 (g) + 2 O 2 (g) CO 2 (g) + 2 H 2 O (l)  H c = - 891 kJ mol –1 Correct because…….. The combustion of the reactants C(s) + O 2 (g) CO 2 (g) + H 2 (g) + 0.5 O 2 (g) H 2 O (l) x2 and the reverse of the combustion of methane = -394 + (2x – 286) + (+ 891) = - 75 kJ mol -1 1 st 2 nd

23 For this reaction to be economical, certain conditions of pressure and temperature are used. Which of the conditions below are used? a. Low pressure and high temperature b. High pressure and high temperature c. Low pressure and low pressure d. High pressure and low temperature N 2 (g) + 3H 2 (g) 2NH 3 (g) ΔH = -92 kJ

24 a hint!!!! The equilibrium will shift in the direction that will reduce the change in pressure. Pressure is linked to the number of molecules. The equilibrium will shift in the direction that will reduce the change in temperature. -  H is exothermic

25 a hint!!!! The equilibrium will shift in the direction that will reduce the change in temperature. -  H is exothermic For economic reasons, the rate of the chemical reaction has also to be considered.

26 a hint!!!! The equilibrium will shift in the direction that will reduce the change in pressure. Pressure is linked to the number of molecules.

27 6. For this reaction to be economical certain conditions of pressure and temperature are used. Which of the conditions below are used? Correct because… High pressure will shift the equilibrium to the right. This results in less gas molecules but increases the amount of ammonia. A pressure of 150-300 atmospheres is used. As the forward reaction on exothermic, the reverse reaction would be endothermic. So any addition of heat would mean that the equilibrium would shift to the left. So a low temperature should be used. However, this would mean the reaction would slow down, so in reality a compromise is reached and a temperature of between 400-500 o C is used, highish!!! N 2 (g) + 3H 2 (g) 2NH 3 (g) ΔH = -92 kJ

Download ppt "Unit 3 Industrial Chemistry and Hess’s law. Go to question 1 2 3 4 5 6 In the production of ammonia in the Haber Process, Which is a raw material used."

Similar presentations

Chemical Equilibrium Equilibrium.

Chemical Equilibrium Equilibrium.
Unit 3 Equilibrium.

Unit 3 Equilibrium.
Topic 7: Equilibrium SL Le Chatelier’s Principle

Topic 7: Equilibrium SL Le Chatelier’s Principle
Equilibrium &The Haber Process

Equilibrium &The Haber Process
Equilibrium Unit 10 1.

Equilibrium Unit 10 1.
00:33 Syllabus/Unit: code: C2 Chemical Resources Lesson number: 5 Lesson Title: Manufacturing Chemicals - Ammonia Learning OutcomesHow I didTargets Learning.

00:33 Syllabus/Unit: code: C2 Chemical Resources Lesson number: 5 Lesson Title: Manufacturing Chemicals - Ammonia Learning OutcomesHow I didTargets Learning.
Equilibrium DP Chemistry R. Slider.

Equilibrium DP Chemistry R. Slider.
Chemistry 1011 Slot 51 Chemistry 1011 TOPIC Gaseous Chemical Equilibrium TEXT REFERENCE Masterton and Hurley Chapter 12.

Chemistry 1011 Slot 51 Chemistry 1011 TOPIC Gaseous Chemical Equilibrium TEXT REFERENCE Masterton and Hurley Chapter 12.
1.Ammonia (alkaline) and nitric acid react together in a neutralisation reaction 2.The fertiliser ammonium nitrate is produced Making Fertilisers Making.

1.Ammonia (alkaline) and nitric acid react together in a neutralisation reaction 2.The fertiliser ammonium nitrate is produced Making Fertilisers Making.
12.5 Do Chemical Reactions Always Release Energy?

12.5 Do Chemical Reactions Always Release Energy?
Reversible Reactions and Dynamic Equilibrium

Reversible Reactions and Dynamic Equilibrium
Making ammonia The Haber process

Making ammonia The Haber process
Www.soran.edu.iq Industrial chemistry Kazem.R.Abdollah (Asiaban) The Haber Process & The Ostwald Process 1.

Industrial chemistry Kazem.R.Abdollah (Asiaban) The Haber Process & The Ostwald Process 1.
EQUILIBRIUM TIER 5 & TIER 6 TIER 5:Apply the concepts of kinetics and equilibrium to industrial processes TIER 6: Make connections between equilibrium,

EQUILIBRIUM TIER 5 & TIER 6 TIER 5:Apply the concepts of kinetics and equilibrium to industrial processes TIER 6: Make connections between equilibrium,
Calculation of energy changes  If a body changes its temperature then it changes its energy content  Energy changes can be calculated  Units of energy.

Calculation of energy changes  If a body changes its temperature then it changes its energy content  Energy changes can be calculated  Units of energy.
HIGHER CHEMISTRY REVISION. Unit 3 :- Equilibrium 1. If both potassium iodide solution, KI(aq), and liquid chloroform, CHCl 3 (l), are added to a test tube.

HIGHER CHEMISTRY REVISION. Unit 3 :- Equilibrium 1. If both potassium iodide solution, KI(aq), and liquid chloroform, CHCl 3 (l), are added to a test tube.
EQUILIBRIUM TIER 4 Apply LeChatelier’s principle to predict the qualitative effects of changes of temperature, pressure and concentration on the position.

EQUILIBRIUM TIER 4 Apply LeChatelier’s principle to predict the qualitative effects of changes of temperature, pressure and concentration on the position.
Bell Ringer.

Bell Ringer.
Chemical Equilibrium The reversibility of reactions.

Chemical Equilibrium The reversibility of reactions.
The Chemical Industry Fertiliser, Sulphuric Acid, Petrochemical, Pharmaceutical and Chemical Industries The question is how to make a profit from science.

The Chemical Industry Fertiliser, Sulphuric Acid, Petrochemical, Pharmaceutical and Chemical Industries The question is how to make a profit from science.

Similar presentations

Ads by Google