1 Wood Chemistry PSE 406 Lecture 16 Chemical Isolation and Analysis I.

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Presentation transcript:

1 Wood Chemistry PSE 406 Lecture 16 Chemical Isolation and Analysis I

2 Class Agenda lPlant matter analysis lSample preparation lExtractives lHolocellulose lCellulose

3 Sample Preparation lHomogeneous »Sample needs to represent the entire sample to be analyzed lSample Size »The sample particle size needs to be small. »Grinding (milling) »Homogeneous particle size –Screening of ground material

4 Moisture Content lIt is extremely important when analyzing organic material to take into account moisture content. lThe best way to work with material is typically to let the material equilibrate (air dry) and then determine moisture content. »Typical method is to dry material overnight in a 105°C oven. lPulp and paper and wood products industry method »%mc g = (weight wet – weight dry )/ weight wet

5 Extractives lThere are two topics in this lecture under extractives: »Analysis of the amount (and types ) of extractives in plant matter. »Removal of extractives prior to analysis for other chemicals. –When ever plant material is analyzed for cellulose, hemicelluloses, or lignin, it is necessary to remove the extractive materials. –This is because extractive can interfere with the other analysis.

6 Extractives lNot all extractives can be removed using the same system. »Extractives have different solubility. lMost often samples are subjected to 2 or 3 different removal systems if the idea is to remove extractives. lI have broken up the extraction techniques into 4 general methods (although there are quite a few other techniques).

7 Steam Distillation lIn this procedure, volatile extractives are removed through the action of steam. lCompounds removed include: »Monoterpenes »Sesquiterpenes »Diterpenes »Triterpenes (not oids) »Tetraterpenes (not oids) »Hydrocarbons »Some lignans

8 Steam Distillation II lThe volatile compounds removed through steam distillation are cooled thus becoming liquids again. lThese compounds are mostly hydrophobic and thus can be separated (decanted) from the water.

9 Ether Extraction lIn this procedure, plant materials are continuously extracted with ethyl ether. lThink of this procedure as something like dipping a tea bag in a countless number of cups of hot water. lThe picture on the right is of a soxhlet extractor used to continuously extract samples. There is wood meal in a cellulose thimble (orange tube) being extracted. The dark red solution in the flask is the dissolved extractives.

10 Ether Extraction II lEther is typically used to remove lipophillic materials. »Fats/Oils »Fatty acids »Waxes »Resin Acids »Sterols

11 Alcohol Extraction lEthyl alcohol (typically) or methanol is used in a similar fashion to ether extraction. lMaterials removed: »Tannins »Stilbenes »Flavonoids »Lignans

12 Water Extraction lHot water is used to remove the following: »Carbohydrates »Proteins »Alkaloids »Starch »Pectins »Inorganics

13 Combinations of Methods lIt is important to note, that there is carry over in the methods. For example, resin acids are better removed by ether but are extracted by alcohol. lA typical extraction series is: »Four hour extraction with ethanol-toluene (1:2) »Four hour ethanol extraction »Single extraction with boiling water. lOther solvents can be used include acetone (good), dichloromethane, and mixtures of all of the above.

14 Holocellulose lHolocellulose is the term which describes the mixture of cellulose and hemicelluloses produced when lignin is removed. »Lignin can be removed through the action of chlorine followed by alcohol extraction. »Another procedure is delignification with acidified solutions of sodium chlorite. »There are a significantly large number of other possible procedures which have been published. lWhat is left from these procedures is a very white material which contains a little lignin and has lost a little bit of the carbohydrates.

15 Holocellulose II lThe idea behind this procedure is that the treatments are very selective to lignin (they attack only the lignin and leave the carbohydrates alone) lThe lignin dissolves in the solution leaving the carbohydrates. lThe truth with these procedures is that you are balancing lignin removal with carbohydrate loss.

16 Cellulose lThere are three ways to determine the amount of cellulose in plant matter: »Separate the cellulose from hemicelluloses in holocellulose »Separate the cellulose directly from plant matter. »Hydrolyze the plant matter and determine the sugar contents of the solutions

17 Cellulose Isolation lA Tappi Standard procedure for cellulose isolation from holocellulose is as follows: »Extract holocellulose with 5% and then 24% KOH to remove hemicelluloses. The remaining material is termed alpha-cellulose –This results in cellulose of reduced molecular weight and some yield loss. Typical recoveries are 40-60% »Neutralization of the KOH precipitates beta- cellulose. »The remaining soluble material is gamma- cellulose.

18 Direct Cellulose Isolation lIt is possible to directly isolate cellulose from plant matter. »Digestion of material in nitric acid and ethanol. »Refluxing material in acetyl-acetone and dioxane acidified with HCl lThese, and other, procedures give high purity but also highly degraded cellulose.

19 Cellulose Hydrolysis lSince glycosidic bonds are susceptible to acid hydrolysis, it is possible to hydrolyze wood and analyze the resulting sugars. lIt is necessary to take into account the yield of glucose obtained from the hydrolysis of glucomannans