Skip to Content
Toggle navigation
Startseite
Browse
Browse by Collection
Browse by Project Center
Browse Exhibits
About
About Us
Help
Anmeldung
Explore, Discover, Share
Suchen
Advanced search
Suchen
Filter löschen
Filtern nach:
Unit (Department)
Chemical Engineering
Entfernen Zwang Unit (Department): Chemical Engineering
Stichwort
water
Entfernen Zwang Stichwort: water
1
-
4
von
4
Ordnen bei relevance
relevance
date uploaded ▼
date uploaded ▲
date modified ▼
date modified ▲
Anzahl der Ergebnisse pro Seite angezeigt werden
10 pro Seite
10
pro Seite
20
pro Seite
50
pro Seite
100
pro Seite
Anschauen Ergebnisse als:
Liste
Gallery
Masonry
Slideshow
Suchergebnisse
Simulation of the diffusion of endocrine disrupting compounds in silicalite by molecular dynamics
Stichwort:
benzene
,
nonylphenol
,
Zeolite
,
BPA
,
diffusion
,
Simulation
,
water
,
phenol
,
toluene
,
Molecular Dynamics
,
bisphenol-A
, and
neopentane
Schöpfer:
Gabry, Thomas Jacques Andre
Advisor:
Deskins, N Aaron
Herausgeber:
Worcester Polytechnic Institute
Datum erstellt:
2012-04-26
Resource Type:
Thesis
Degree:
MS
Unit (Department):
Chemical Engineering
Adsorption Studies of Hazardous Air Pollutants in Microporous Adsorbents using Statistical Mechanical and Molecular Simulation Techniques
Stichwort:
solvents
,
Adsorption
,
Monte-Carlo
,
methanol
,
mercury
,
water
,
Molecular simulations
,
Activated carbons
,
nanopores
,
hydrogen cyanide
,
Methyl ethyl ketone
, and
Zeolites
Schöpfer:
Kotdawala, Rasesh R
Advisor:
Kazantzis, Nikolaos K.
Herausgeber:
Worcester Polytechnic Institute
Datum erstellt:
2007-05-04
Resource Type:
Dissertation
Degree:
PhD
Unit (Department):
Chemical Engineering
Molecular Simulation of the Adsorption of Organics From Water
Stichwort:
Adsorption
,
molecular simulation
,
nanoporous materials
, and
water
Schöpfer:
Yazaydin, Ahmet Ozgur
Advisor:
Thompson, Robert W.
Herausgeber:
Worcester Polytechnic Institute
Datum erstellt:
2007-04-25
Resource Type:
Dissertation
Degree:
PhD
Unit (Department):
Chemical Engineering
Water Behavior in hydrophobic porous materials. Comparison between Silicalite and Dealuminated Zeolite Y by Molecular Dynamic Simulations.
Stichwort:
confined media
,
Molecular Dynamics
,
hydrophobic zeolite
, and
water
Schöpfer:
Fleys, Matthieu Simon
Advisor:
Thompson, Robert W.
Herausgeber:
Worcester Polytechnic Institute
Datum erstellt:
2003-12-05
Resource Type:
Thesis
Degree:
MS
Unit (Department):
Chemical Engineering
Toggle facets
Beschränken dein Suche
Collections
PhD Dissertations
2
Masters Theses
2
Year
Year range begin
–
Year range end
Current results range from
2003
to
2012
View distribution
Schöpfer
Fleys, Matthieu Simon
1
Gabry, Thomas Jacques Andre
1
Kotdawala, Rasesh R
1
Yazaydin, Ahmet Ozgur
1
Advisor
Deskins, N Aaron
1
Kazantzis, Nikolaos K.
1
Thompson, Robert W.
2
Contributor
Deskins, N Aaron
1
Gatsonis, Nikolaos A.
1
Kazantzis, Nikolaos K.
2
Thompson, Robert W.
2
Unit (Department)
Chemical Engineering
[remove]
4
Herausgeber
Worcester Polytechnic Institute
4
Ressourcentyp
Dissertation
2
Thesis
2
