Process computer simulation

Tato práce se zabývá počítačovou simulací procesů, která v dnešní době napomáhá v oblasti procesního inženýrství. Úvodní část se věnuje metodice modelování a simulace a dále pak hmotnostním a energetickým bilancím. Poté následuje popis samotných metod simulace procesů. V práci lze dále nalézt přehled nejpoužívanějších simulačních programů a jejich typickou strukturu. V závěru je pak pro názornost uveden ukázkový příklad řešený pomocí sekvenčně modulární a rovnicově orientované simulace. Správnost výsledků výpočtů je ověřena simulačním programem W2E.The thesis deals with computer simulation of processes, which is crucial in the field of process engineering. In the first part, the methodology of modeling and simulation techniques is described as well as mass and energy balances. Specific approaches to process simulation are included. The thesis offers a list of the most often used simulation programs and their typical structure. Sequential modular and equation-based simulation is demonstrated on an example. The results are then verified by simulation software W2E.

Ursinus College Catalogue for the One Hundred and Eighth Academic Year, 1977-1978

A digitized copy of the 1977-1978 Ursinus College Catalogue. It contains details of the curriculum, departmental requirements and courses of instruction as well as lists of students, faculty and administrators. Student life, terms of admission, expenses and financial aid are also included as well as descriptions of the buildings and equipment available to students.https://digitalcommons.ursinus.edu/uccatalog/1030/thumbnail.jp

Course Catalog, 1986-1988

Course Catalogs include available majors, course requirements, costs, pictures, a brief institution history, and more.https://digitalcommons.kean.edu/ua_kc_cc/1019/thumbnail.jp

Soybeans to Chemicals: A Case Study for Undergraduate Chemical Engineering Education

The aim of this thesis is to develop a case study to reinforce the concepts that are required knowledge for chemical engineers in their sophomore year of curriculum, continuing through all of their education. The process that will be examined is the production of soybean oil, protein powder, and succinic acid from the harvest of soybeans. Further, this process will be used to align with the objectives of the chapters from the required textbook for the material balances class. The soybean industry is one of the largest in the United States agricultural sector, so it is an important real-world example for young engineers to evaluate. The process itself and its relevance will be discussed in the following

Designing a Membrane Module for Determining the Permeance of High Fluxing Membranes and the Testing RTIL-Membranes for Dehumidification.

Membrane-based gas dehumidification can have technical energy, and economical advantages over other dehumidification technologies. Because, it is simple to install, ease to operate, and take low process cost. Removal of water vapor from gases constitutes a significant expenditure of energy in our society. Dehydration via a membrane process would constitute wide spread energy savings. This thesis explores experimental issues involved with testing Room Temperature Ionic Liquid(RTIL)-membrane for dehumidifying gases. RTIL-membranes or Supported Ionic Liquid Membranes (SILMs) have advantageous performance for the separations of the gas pair CO2/CH4 and CO2/N2. Previous research did not separate the membrane mass transport resistance the feed and permeate gas film transport resistance. This project continues work that examines the feasibility of using Room Temperature Ionic Liquid Membrane for dehydration of gases. In the study, we need to determine: the upper limit on SILM permeance free of gas boundary resistances, the upper limit on water/gas selectivity. Thus, we suggest designed several new membrane modules, and the testing RTIL-membranes, with water miscible and water immiscible SILMs, for dehumidification