Naturaleza y Tecnología

El aumento del consumo de materiales plásticos en base al Politereftalato de Etileno
(PET), se ha convertido en un grave problema de contaminación ambiental. De forma
tal, que el reciclado del PET resulta ser una opción viable por lo que es importante
conocer algunos mecanismos utilizados hoy en día para este proceso

Castellan Gilbert W. (1998) “Fisicoquímica” Segunda edición. Editorial Addison Wesley Longman. México.

Uribe Velasco Miguel, Mehrenberger Pierre Y. (1996). Los Polímeros. Editorial Instituto Politécnico Nacional. Primera Edición. México. Capitulo 1.

Shannon M. Biros, Brian M. Bridgewater, Adriel Villeges-Estrada, Joseph M. Tanski, and Gerard Parkin. (2002). Antimony Ethelene Glycolate and catecholate Compounds: Structural Characterization of Polyesterification Catalysts. Inorg. Chem. 41: 4051-4057.

Seyed Saeid Hosseini; Somaye Taheri; Ali Zadhoush; Arjomand Mehrabani-Zeinabad. (2005).Hydrolytic Degradation of Poly(ethylene terephthalate). Journal of Applied Polymer Science. 103: 2304-2309.

Chih-Yu Kao; Ben-Zu Wan; Wu-Hsun Cheng. (1998). Kinetics of Hydrolytic Depolymerization of Melt Poly(ethylene terephthalate). Ind. Eng. Chem. Res. 37:1228-1234.

Adhemar Ruvolo-Filho and Priscila S. Curti. (2006). Chemical Kinetic Model and Thermodynamic Compensation Effect of Alkaline Hydrolysis of Waste Poly(ethylene terephthalate) in Nonaqueous Ethylene Glycol Solution. Ind. Eng. Chem. Res. 44: 7985 – 7996.

Diez M. A., C. Barriocanal, and R. Álvarez. (2005). Plastics as Modifiers of Thermoplasticity of Coal. Energy  Fuels. 19: 2304-2316.

Makoto Yamaye, Toshiki Hashime, Koji Yamamoto, Yoshio Kosugi, Namiko Cho, Tomoyuki Ichiki, and Taketoshi Kito. (2002). Chemical Recycling of Poly(ethylene terephthalate. 2. Preparation of Terephthalohydroxamic Acid and Terephthalohydrazide. Ind. Eng. Chem. Res. 41: 3993-3998.

Seymour Raimond B. and Charles E. Carraher Jr. (1995). “Introducción a la Química de Polímeros” Editorial Reverte. Primera edición. España (1995). Capitulo I.

Arandes José M., Iñaki Abajo, López Danilo – Valerio, Inmaculada Fernández, Miren J. zkoiti, Martín Olazar, And Javier Bilbao. (1997).Transformation of Several Plastic Wastes into Fuels by Catalytic Cracking. Ind. Eng. Chem. Res. 36:4523–4529.

Shuying Yang and Stephen Michielsen. (2002). Determination of the Orientation parameters and the Raman Tensor of the 998 cm-1 Band of Poly(ethylene terephthalate). Macromolecules. 35:10108–10113.

Paszun Daniel y Tadeusz Spychaj. (1997). Chemical Recycling of Poly(ethylene terephthalate). Ind. Eng. Chem. Res. 36: 1373-1383.

Minuru Genta, Tomoko Iwaya, Mitsuru Sasaki, Motonobu Goto, and Tsutomu Hirose. (2005). Depolymerization Mechanism of Poly(ethylene terephthalate) in Supercritical Methanol. Ind. Eng. Chem. Res. 44: 3894-3900.

Alavi Nikje Mir Mohammad, Fatemeh Nazari. (2006). Microwave-Assisted Depolymerization of Poly(ethylene terephthalate) [PET] at atmospheric Pressure. Advances in polymer Technology, Vol. 25, No. 4, 242-246.

PROFECO. Junio del 2006. Ecoconsumo.

Herbert K. Reimschuessel. (1980). Poly(ethylene terephthalate) Formation. Mechanistic and Kinetic Aspects of the Direct Esterification Process. Ind. Eng. Chem. Prod. Dev. 19: 117-125.

Toshiaki Yoshioka, Tsutomu Motoki, and Akitsugu Okuwaki. (2001). Kinetics of Hydrolysis of Poly(ethylene terephthalate) Powder in Sulfuric Acid by a Modified Shrinking- Core Model. Ind. Eng. Chem. Res. 40: 75-79.

Toshiaki Yoshioka, Nobuchika Okayama, y Akitsugu Okuwaki. (1998). Kinetics of Hydrolysis of PET Powder in Nitric Acid a Modified Shrinking-Core Model. Ind. Eng. Chem. Res. 37: 336-340.

Williams Paul T. And Williams Elizabeth A. (1999). Interaction of Plastics in Mixed-Plastics Pyrolysis” Energy  Fouls. 13: 188 – 1996.

Scott D. S., S. R. Czernik, J. Piskorz, and D. St. A. G. Radlein. (1990). Fast Pyrolysis of Wastes. Energy  Fouls. 4: 407 – 411.

Ludlow C. –Palafox and Howard A. Chase. (2001). Microwave-Induced Pyrolysis of Plastics Wastes. 40: 4749-4756.