Environmental Engineering Reference
In-Depth Information
3. Akelah A. (1996) Novel utilizations of conventional agrochemicals by controlled release
formulations.
Materials Science and Engineering C
, 4(2), 83-98.
4. Al-Zahrani SM. (2000) Utilization of polyethylene and paraffin waxes as controlled delivery
systems for different fertilizers.
Industrial Engineering Chemistry Research
, 39(2), 367-371.
5. Kakoulides EP, Valkanas GN. (1994) Modified rosin-paraffin wax resings as controlled
delivery systems for fertilizers. Fabrication parameters governing fertilizer release in water.
Industrial Engineering Chemistry Research
, 33(6), 1623-1630.
6. Mogul MG, Akin H, Harirci N, Trantolo DJ, Gresser JD, Wise DL. (1996) Controlled Release
of biologically active agents for the purposes of agricultural crop management.
Resources,
Conservation and Recycling
, 16, 289-320.
7. Quaglia F, Barbato F, De Rosa G, Granata E, Miro A, La Rotonda MI. (2001) Reduction
of the environmental impact of pesticides: waxy microspheres encapsulating the insecticide
carbaryl. Journal of Agricultural Food Chemistry, 49(10), 4808-4812.
8. Shaviv A, Raban S, Zaidel E. (2003) Modeling controlled nutrient release from poly-
mer coated fertilizers: diffusion release from singe granules.
Environmental Science and
Technology
, 37(10), 2251-2256.
9. Bruck SD. (1990) Leachable components in polymeric medical implants and disposables. A
brief critical review.
Medical Progress Through Technology
, 16(3), 131-143.
10. Ding J, Liu G. (1998) Water-soluble hollow nanospheres as potential drug carriers.
Journal of
Physics and Chemistry B
, 102(31), 6107-6113.
11. Kohn J. (1996) Overview of the use of polymers in medical application as illustrated by
the design, characterization, and application of tyrosine-derived polymers. Technical Papers,
Regional Technical Conference - Society of Plastics Engineers; Brookfield, CT, USA. Soc of
Plastics Engineers. Pp. 103-110. (Technical Papers, Regional Technical Conference - Society
of Plastics Engineers).
12. Lenz RW, Marchessault R. (2005) Bacterial polyesters: biosynthesis, biodegradable plastics
and biotechnology.
Biomacromolecules
, 6(1), 1-8.
13. Nair LS, Laurencin CT. (2006) Polymers as biomaterials for tissue engineering and controlled
drug delivery..
Advances in Biochemical Engineering/Biotechnology
, Tissue Engineering I:
Scaffold Systems for Tissue Engineering. Berlin: Springer-Verlag, 102, 47-90.
14. Uhrich K. (1999) Polymeric systems for controlled drug release.
Chemical Reviews
, 99(11),
3181-3198.
15. Brewster M, Redman JD Redman Sander KA. (1995) Observed migration of a controlled
DNAPL release by geophysical methods.
Groundwater
, 33(6), 977-987.
16. Kang N, Hua I, Rao PS. (2004) Production and characterization of encapsulated potassium
permanganate for sustained release as an in-situ oxidant. Industrial Engineering Chemistry
Research, 43(17), 5187-5193.
17. Schwartz. (2005) Modeling of Potassium Permanganate encapsulated in wax. Report to the
Department of Energy.
18. Ross C, Murdoch LC, Freedman DL, Siegrist RL. (2005) Characteristics of potassium
permanganate encapsulated in polymer.
Journal of Environmental Engineering
, 131(8),
1203-1211.
19. Gates DD, Siegrist RL, Cline SR. (1995) Chemical oxidation of contaminants in clay or sandy
soil. Pittsburgh, PA, USA. ASCE. pp. 582-588.
20. Kaplan DL, Mayer JM, Ball D, McCassie J, Allen AL, Stenhouse P. (1995) Fundamentals
of biodegradable polymers. In: Ching C, Kaplan DL, Thomas EL, editors. Biodegradable
Polymers and Packaging. Lancaster, PA: Technomic Publishing Company, Inc., pp. 1-42.
21. Mayer JM, Kaplan DL. (1995) Biodegradable materials and packaging - environmental test
methods and needs. In: Ching C, Kaplan DL, Thomas EL, editors. Biodegradable Polymers
and Packaging. Lancaster, PA: Technomic Publishing Company, Inc., pp. 233-245.
22. Smith R. (2005) Biodegradable Polymers for Industrial Applications. Cambridge: Woodhead
Publishing, Limited.
