Chemical Engineering Volume 1, Sixth Edition (C...
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Elsevier.comAmazon.comFind in a libraryAll sellers _OC_InitNavbar({\"child_node\":[{\"title\":\"My library\",\"url\":\" =114584440181414684107\\u0026source=gbs_lp_bookshelf_list\",\"id\":\"my_library\",\"collapsed\":true},{\"title\":\"My History\",\"url\":\"\",\"id\":\"my_history\",\"collapsed\":true},{\"title\":\"Books on Google Play\",\"url\":\" \",\"id\":\"ebookstore\",\"collapsed\":true}],\"highlighted_node_id\":\"\"});Chemical Engineering Design: Chemical Engineering Volume 6Ray SinnottElsevier, 1 Jul 2005 - Technology & Engineering - 1056 pages 9 ReviewsReviews aren't verified, but Google checks for and removes fake content when it's identifiedChemical Engineering Design is one of the best-known and widely adopted texts available for students of chemical engineering. It deals with the application of chemical engineering principles to the design of chemical processes and equipment. Revised throughout, the fourth edition covers the latest aspects of process design, operations, safety, loss prevention and equipment selection, among others. Comprehensive and detailed, the book is supported by problems and selected solutions. In addition the book is widely used by professionals as a day-to-day reference. Best selling chemical engineering text Revised to keep pace with the latest chemical industry changes; designed to see students through from undergraduate study to professional practice End of chapter exercises and solutions if (window['_OC_autoDir']) {_OC_autoDir('search_form_input');}Preview this book What people are saying - Write a reviewUser ratings5 stars54 stars23 stars02 stars11 star1Reviews aren't verified, but Google checks for and removes fake content when it's identifiedUser Review - Flag as inappropriateDear sir this is a good book to study...
Richard Willson's laboratory works on applications of biomolecular recognition to bioseparations, molecular diagnostics and process analytical technology. We collaborate productively with groups in a broad range of disciplines. Over time, our group members have had expertise in chemical, biochemical and biomedical engineering, biochemistry, chemistry, chemical biology, computer science, materials science, app development, molecular genetics, microbiology, and nanofabrication.
CHEM E 301 Leadership Seminar (1)Forum for industrial, academic, and government leaders to share their experiences and insights with students. Includes topics related to leadership in the chemical engineering profession including career planning, management skills, interpersonal skills, effective planning, entrepreneurship, ethics, and strategic decisions. Credit/no-credit only. Offered: A.View course details in MyPlan: CHEM E 301
CHEM E 437 Chemical Engineering Laboratory II (3)Continuation of CHEM E 436. Laboratory investigation of chemical engineering principles applied to equipment design with emphasis on mass transfer operations and chemical reactors. Prerequisite: CHEM E 435; CHEM E 436; CHEM E 465. Offered: W.View course details in MyPlan: CHEM E 437
CHEM E 445 Fuel Cell Engineering (3)Introduction to electrochemical fuel cells for use in transportation and stationary power applications. Topics covered include types of fuel cells, single cell operation, stack engineering, overall system design, and safety, with emphasis on proton exchange membrane and solid oxide fuel cells. Prerequisite: CHEM E 330.View course details in MyPlan: CHEM E 445
CHEM E 456 Quantum Mechanics for Chemical Engineers (3)Provide chemical engineers with the theoretical and mathematical framework necessary to approach quantum mechanical problems in engineering, while keeping them engaged by making explicit ties to the chemical engineering core curriculum. Prerequisite: CHEM 162; MATH 207; MATH 208; and PHYS 123 Offered: A.View course details in MyPlan: CHEM E 456
CHEM E 467 Biochemical Engineering (3)Application of basic chemical engineering principles to biochemical and biological process industries such as fermentation, enzyme technology, and biological waste treatment. Rapid overview of relevant microbiology, biochemistry, and molecular genetics. Design and analysis of biological reactors and product recovery operations. Prerequisite: CHEM E 340; either CHEM 223, CHEM 237, or CHEM 335. Offered: jointly with BIOEN 467; W.View course details in MyPlan: CHEM E 467
CHEM E 481 Process Optimization (3)Concepts and techniques of optimizing chemical engineering processes and systems, including classical and direct methods of search, linear and nonlinear programming, dynamic programming, statistical experimental design, and evolutionary operation. Offered: A.View course details in MyPlan: CHEM E 481
CHEM E 485 Process Design I (4)Applied economics in chemical engineering design and operations; measures of profitability; capital and operating cost estimates; introduction to design and design strategies. Prerequisite: CHEM E 480 which may be taken concurrently. Offered: W.View course details in MyPlan: CHEM E 485
CHEM E 512 Methods of Engineering Analysis (3)Applications of mathematics to problems in chemical engineering; vector calculus; properties and methods of solution of first and second order partial differential equations; similarity transforms, separation of variables, Laplace and Fourier transforms. Prerequisite: MATH 208; either MATH 207 or AMATH 351; and MATH 224, or permission of instructor. Offered: A.View course details in MyPlan: CHEM E 512
CHEM E 515 Experimental Methods in Chemical Engineering Research (3)Lecture and laboratory studies in current research methods of chemical engineering. Includes surface science, biochemical engineering, collodial chemistry, light scattering, and nanoscience techniques. Offered: A.View course details in MyPlan: CHEM E 515
CHEM E 523 Seminar in Chemical Engineering (0-1, max. 30)Topics of current interest in chemical engineering. Credit/no-credit only. Offered: AWSp.View course details in MyPlan: CHEM E 523
CHEM E 535 Nanomaterials Chemistry and Engineering (3)Rigorous overview of fundamental chemical and physical concepts important to nanomaterials science and engineering. Focus on luminescent, plasmonic, magnetic nanomaterials. Students will learn basic concepts prevalent in the nanomaterials literature, and develop rigorous mathematical understanding of fundamental principles that govern many of the advanced materials that are currently under development in the field. Prerequisite: CHEM 455; MATH 207; and CHEM E 326; recommended: classical physics, quantum mechanics, thermodynamics, and ordinary and partial differential equations Offered: jointly with CHEM 587; Sp.View course details in MyPlan: CHEM E 535
CHEM E 565 Kinetics and Catalysis (3)Homogeneous and heterogeneous systems with emphasis on chemical engineering principles applied to industrial reactor design. Prerequisite: CHEM E 525.View course details in MyPlan: CHEM E 565
CHEM E 580 Topics in Chemical Engineering Design (3, max. 9)Lectures and seminars on current design methods in chemical engineering, including technical and economic feasibility of processes, design and optimization of process equipment, and environmental and social constraints. Prerequisite: undergraduate chemical engineering design, admission to chemical engineering master's program, or permission of instructor.View course details in MyPlan: CHEM E 580
CHEM E 599 Current Topics in Chemical Engineering (1-5, max. 12)Readings or lectures and discussions of topics of current interest in the field of chemical engineering. Subject matter changes from year to year. Prerequisite: permission of instructor.View course details in MyPlan: CHEM E 599
Generally, the fields of chemical and biological engineering are extremely broad, and encompass all technologies and industries where chemical processing is utilized in any form. Students with baccalaureate (BS) Chemical Engineering degrees from Mines can find employment in many diverse fields, including: advanced materials synthesis and processing, product and process research and development, food and pharmaceutical processing and synthesis, biochemical and biomedical materials and products, microelectronics manufacturing, petroleum and petrochemical processing, and process and product design. Students in the Biological Engineering, Process Engineering, or Honors Research track take 12 credits of technical and chemical engineering electives designed to provide additional focus in these areas. The Biological and Process Engineering tracks are open to all students. The Honors Research track requires students to apply and be accepted. Alternatively students can earn their degree without being in a track, customizing their electives without any restrictions.
The practice of chemical engineering draws from the fundamentals of biology, chemistry, mathematics, and physics. Accordingly, undergraduate students must initially complete a program of study that stresses these basic fields of science. Chemical engineering coursework blends these four disciplines into a series of engineering fundamentals relating to how materials are produced and processed both in the laboratory and in large industrial-scale facilities. Courses such as fluid mechanics, heat and mass transfer, thermodynamics, reaction kinetics, and chemical process control are at the heart of the chemical engineering curriculum at Mines. In addition, it is becoming increasingly important for engineers to understand how biological and microscopic, molecular-level properties can influence the macroscopic behavior of materials, biological, and chemical systems. This somewhat unique focus is first introduced at Mines through the physical and organic chemistry sequences, and the theme is continued and developed within the chemical engineering curriculum via material and projects introduced in advanced courses. Our undergraduate program at Mines is exemplified by intensive integration of computer-aided simulation and computer-aided process modeling in the curriculum and by our unique approach to teaching of the unit operations laboratory sequence. The unit operations lab course is offered only in the summer as a 6-week intensive session. Here, the fundamentals of heat, mass, and momentum transfer and applied thermodynamics are reviewed in a practical, applications-oriented setting. The important skills of teamwork, critical thinking, time management, and oral and written technical communications skills are also stressed in this course. 59ce067264