Chapter 23

1. Chapter 23 Organic Chemistry Mr. Watson HST

2. Mr. Watson

3. Methane Mr. Watson

4. Butanes Mr. Watson

5. Cycloalkanes Mr. Watson

6. Gasoline-Knocking Mr. Watson

7. Mr. Watson

8. Internal Combustion Engine • Box 8.2, pg. 285 Text C9H20(l) + 14O2(g) ---> 9CO2(g) + 10H2O(g) CH3 CH3 | | CH3 - C - CH2 - CH - CH3 | CH3 isooctane octane number = 100 CH3- CH2- CH2- CH2- CH2- CH2- CH3 n-heptane octane number = 0 Mr. Watson

9. Octane Rating (R+M)/2 • R - RON - research octane number, indicates the quality of the fuel used under normal driving conditions. The car is driving on level ground ~ 45 miles/hour. The RON engine is operating at 600 RPMs with normal carboration. Mr. Watson

10. Octane Rating (R+M)/2 • M - MON - MON testing uses a similar test engine to that used in RON testing, but with a preheated fuel mixture, a higher engine speed, and variable ignition timing to further stress the fuel's knock resistance. Depending on the composition of the fuel, the MON of a modern gasoline will be about 8 to 10 points lower than the RON. Mr. Watson

11. Octane Rating (R+M)/2 • engine is operated under test conditions • degree of knocking determined • fuel is then blended from n-heptane and isooctane to duplicate conditions • percentages measured, 87% isooctane, 87 octane gasoline Mr. Watson

12. Oxygenated & Reformulated Gasolines • Oxygenated Gasolines – gasoline blends with organic compunds that contain oxygen, such as MTBE, methanol, ethanol, and tert-butyl alcohol • Reformulated Gasolines – oxygenated gasolines that contain lower percentage of aromatic hydrocarbons and have a lower volatility than ordinary gasoline Mr. Watson

13. Catalytic Cracking • A process that uses a catalyst, heat, and pressure to break long-chain hydrocarbons into shorter-chain hydrocarbons including both alkanes and alkenes, many in the gasoline boiling point range • Alkenes have higher octane numbers than corresponding alkanes Mr. Watson

14. Ethylene Mr. Watson

15. Mr. Watson

16. Addition Polymer • polymer formed by joining many molecules of the same compound to form the large molecule • The compound usually contains a carbon-carbon double bond Mr. Watson

17. Condensation Polymer • polymer formed by molecules of two different compounds joining to form the large molecule • one compound usually has an amine functional group • other molecule has carboxylic acid functional group • split out water molecule to form peptide linkage Mr. Watson

18. Mr. Watson

19. Uses for Plastic Containers Soft-drink bottles, most commonly recycled plastic Milk, juice and water jugs. Recycled HDPE used as trash containers, drainage pipes, garbage bags, and fencing. Second most commonly recycled plastic. Mr. Watson

20. Uses for Plastic Containers vinyl siding, magnetic stripe cards, window profiles, gramophone records (which is the source of the term vinyl records), insultation on electrical wire, pipe, plumbing and conduit fixtures. various containers, dispensing bottles, wash bottles, tubing, plastic bags for computer components, and various molded laboratory equipment. Its most common use is in plastic bags Mr. Watson

21. Plastic Containers food packaging, ropes, textiles, stationery, plastic parts and reusable containers of various types, laboratory equipment, loudspeakers, automotive components, and polymer banknotes plastic model assembly kits, license plate frames, plastic cutlery, CD "jewel" cases Mr. Watson

22. Plastic Containers Container manufactured using a blend of plastics, eg two or more plastics (PET and any other polymer), the container should be identified 7. Mr. Watson

23. Polyethylene terephthalate (aka PET) + Mr. Watson

24. Polyethylene Mr. Watson

25. Polyethylene Mr. Watson

26. Polyvinyl Chloride Mr. Watson

27. Polypropylene Mr. Watson

28. Polystyrene Mr. Watson

29. Benzene-Aromaticity Mr. Watson

30. Toluene Mr. Watson

31. 2,4,6-Trinitrotoluene O2N NO2 HNO3 H2SO4 N O2 Mr. Watson

32. Mr. Watson

33. Alcohols and Carboxylic Acids Alcohol R’-O-H O Carboxylic acid R-C-O-H O Ester R-C-O- R’ where R & R’=> alkyl group => CH3-(CH2)n- n = 0, 1, 2, 3, etc = = Mr. Watson

34. Triglycerides – Fats and Oils  Soap O CH2-O-H Na-O-C-R O CH -O-H Na-O-C-R’ O CH2-O-H Na-O-C-R” = = O CH2-O-C-R O CH -O-C-R’ O CH2-O-C-R” = = NaOH heat = = fatty acid salts glycerol fat or oil Mr. Watson

35. Triglycerides – Fats and Oils  Biodiesel O CH3-O-C-R CH2-O-H CH -O-H CH2-O-H = = O CH2-O-C-R O CH -O-C-R’ O CH2-O-C-R” + O CH3-O-C-R’ = = 3 CH3OH + heat = + O CH3-O-C-R” glycerol = fat or oil methyl esters biodiesel Mr. Watson

36. Triglycerides – Fats, Saturated = O CH2-O-C-C7H15 O CH -O-C-C7H15 O CH2-O-C-C7H15 = = saturated – fat - solid Mr. Watson

37. Triglycerides – Oils, Unsaturated O CH2-O-C-(CH2)nCH=CH(CH2)nCH3 O CH -O-C- (CH2)nCH=CH(CH2)nCH3 O CH2-O-C- (CH2)nCH=CH(CH2)nCH3 = = = unsaturated – oil - liquid Mr. Watson

38. Nitroglycerin CH2-O-H CH -O-H CH2-O-H CH2-NO2 CH –NO2 CH2-NO2 - - HNO3 - - Mr. Watson

39. Cholesterol Mr. Watson

40. Alcohols Methanol – CH3OH Ethanol – CH3CH2OH Mr. Watson

41. Ethanol CH3CH2OH  CH2=CH2 + H2 ethanol catalyst ethylene Important in 1970-1990s for plastic production Mr. Watson

42. Sugars Mr. Watson

43. Ethanol C6H12O6 3 CH3CH2OH glucose enzyme ethanol unbalanced Mr. Watson

44. Starch (C6H12O6)n 3n CH3CH2OH starch enzyme ethanol corn unbalanced Important in 21st century as source of fuel Mr. Watson

45. Synthetic Rubber 1,3-Butadiene ( )n = = = n  butadiene rubber Mr. Watson

46. Synthetic Rubber vulcanization Mr. Watson

47. Neoprene Rubber s Cl Cl = = s s Cl SCl2  s s n s s s s Cl Cl Cl = = s Cl Cl s s Mr. Watson