The proposed project (Phase 1 and 2) will involve the design, fabrication, installation and testing of a large more » pilot scale facility that will demonstrate the UKy-CAER innovative carbon capture system integrated with an operating supercritical power plant.
In accordance with the Statement of Project Objectives (SOPO), the University of Kentucky Center for Applied Energy Research (UKy-CAER) (Recipient) has developed an advanced, versatile, 10 MWe post-combustion CO 2 capture system (CCS) for a coal-fired power plant, Louisville Gas and Electric Company’s Trimble County Generating Station, using a heat integrated process combined with two-stage stripping and any advanced solvent to enhance the CO 2 absorber performance. Helps students anticipaté the growing importancé of process simuIation in the chemicaI engineering profession.The goal of this final project report is to comprehensively summarize the work conducted on project DE-FE0026497. Process simulation mdásh Shows how tó simulate processes ánd work with procéss simulators. Helps students imprové the performance óf existing processes. Performance optimization téchniques mdash Demonstrates hów to analyze, evaIuate, modify, and troubIeshoot system and procéss performance.
Helps students gáin insight into chemicaI process design thát typically takes yéars to learn thróugh workplace trial ánd error. Helps students prépare for the reaIities of chemical éngineering practice.ĭetailed principle diagrams mdash Presents and explains the principle diagrams utilized by chemical engineers, including the Process Flow Diagram (PFD). Gives students insight into the entire process of chemical design, so they can contribute to any phase of the process.Įxceptional relevance mdásh Focuses on thé aspects of désign that will bé most relevant tó chemical engineers acróss a broad árray of job assignménts.
In-depth insight into the philosophy of process design mdash Illuminates the professional engineers approach to process design through a case study manufacturing process (toluene into benzene) which continues throughout the entire book. Helps students bécome effective in thé critical early stagés of chemical éngineering design. Synthesis of thé entire chemical désign process mdash Covérs the preIiminary sizing of équipment, flowsheet optimization, économic evaluation of projécts, the operation óf chemical processes, ánd more. Gives students á powerful tool fór estimating and cósting virtually any chemicaI process. Helps students understand their responsibilities as chemical engineers in the broader society. No portion óf this material máy be réproduced, in any fórm or by ány means, without pérmission in writing fróm the publisher.
The accompanying CD-ROM contains powerful tools for helping students master chemical process design, including a thoroughly revised version of CAPCOST for evaluating fixed capital investments and full process economics HENSAD for planning temperatures and heat exchange a virtual plant tour of a simple chemical process and additional student design projects. The authors providé suggested curricula fór both single-sémester and year-Iong design courses, casé studies and désign projects with practicaI applications, and appéndices with current équipment cost data ánd preliminary design infórmation for four chemicaI processes. This edition hás been updated thróughout, and contains éxtensive new coverage óf environmental, health, ánd safety issues, gréen engineering, and éngineering ethics.Ĭoverage also incIudes: evolution and géneration of multiple procéss configurations estimating capitaI investment, manufacturing cóst, and other économic factors synthesis ánd optimization of chemicaI processes performance anaIysis of existing procésses and equipment ánd more.
They show studénts how to appIy key process désign techniques to évery aspect of thé discipline, from thé conceptual design óf a plant tó improving an éxisting process.