01253nam0 2200349 450 00004365820171205114923.0978-84-88386-80-90212-5633periodico20171127d2014----km-y0itaa50------baspaengESSteven Holl architects2008-2014conceptos y melodiasconcepts and melodiesMadrid<<El>> croquis2014357 p.ill.34 cm<<El>> Croquis172Titolo della copertinaTesto in spagnolo e ingleseVol. monografico della rivista El croquis (2014)2001<<El>> Croquis172Holl,StevenOpere architettoniche720.92(22. ed.)ArchitettiSteven Holl architects758622ITUniversità della Basilicata - B.I.A.REICATunimarc000043658Steven Holl architects1532290UNIBASTTM3020171127BAS011018TTM3020171127BAS011046TTM3020171205BAS011149BAS01BAS01BOOKBASA4Polo di MateraDIDDidatticaMSR/115467115467T1154672017112798Consultazione05041nam 2200637Ia 450 991043777540332120200520144314.01-283-62203-397866139344821-4471-4162-810.1007/978-1-4471-4162-4(CKB)2560000000090299(EBL)994396(OCoLC)821882247(SSID)ssj0000745992(PQKBManifestationID)11446060(PQKBTitleCode)TC0000745992(PQKBWorkID)10861315(PQKB)11287350(DE-He213)978-1-4471-4162-4(MiAaPQ)EBC994396(PPN)168292793(EXLCZ)99256000000009029920120917h20122013 uy 0engur|n|---|||||txtccrImproving energy efficiency in industrial energy systems an interdisciplinary perspective on barriers, energy audits, energy management, policies, and programs /Patrik Thollander, Jenny Palm1st ed. 2013.London Springer2012, c20131 online resource (161 p.)Green Energy and TechnologyDescription based upon print version of record.1-4471-5995-0 1-4471-4161-X Includes bibliographical references and index.The Interconnection Between STS and Barriers to Industrial Energy Efficiency -- Barriers to Energy Efficiency – Earlier Research and Theoretical Baseline -- Science and Technology Studies – Earlier Research on Socio-Technical Transition and Theoretical Baseline -- Improving Energy Efficiency – Using an Interdisciplinary Perspective -- Integrating STS and Barrier Perspective – Methodological Implications -- Apply a Combined STS and Barrier Perspective on Industrial Energy Efficiency – Policy Implications -- Implications for EU's 2020-Goals -- Concluding Discussion.Industrial energy efficiency is one of the most important means of reducing the threat of increased global warming. Research however states that despite the existence of numerous technical energy efficiency measures, its deployment is hindered by the existence of various barriers to energy efficiency. The complexity of increasing energy efficiency in manufacturing industry calls for an interdisciplinary approach to the issue. Improving Energy Efficiency in Industrial Energy Systems applies an interdisciplinary perspective in examining energy efficiency in industrial energy systems, and discusses how “cross-pollinating”perspectives and theories from the social and engineering sciences can enhance our understanding of barriers, energy audits, energy management, policies, and programmes as they pertain to improved energy efficiency in industry. Apart from classical technical approaches from engineering sciences, Improving Energy Efficiency in Industrial Energy Systems couples a sociotechnical perspective to increased energy efficiency in industry, showing that industrial energy efficiency can be expected to be shaped by social and commercial processes and built on knowledge, routines, institutions, and methods established in networks. The book can be read by researchers and policy-makers, as well as scholars and practicians in the field. “This book is extremely valuable for anyone who is designing or executing energy efficiency policies, schemes or projects aiming at SMEs. Both authors deserve the highest respect, and the combination of their expertise makes the results truly unique.” - Daniel Lundqvist, program manager at the Swedish Energy Agency  “For anyone interested in improving energy efficiency in industry, this is a must-read. The book combines tools from social science and engineering to discuss the state of art today as well as possible development path tomorrow. This is a compelling book that I find useful both in my teaching and my research.” - Kajsa Ellegård, professor at Linköping University, Sweden  "The book Improving Energy Efficiency in Industrial Energy Systems is a novel approach on how improved levels of energy efficiency can be reached in industrial energy systems by merging engineering with social sciences. It is with delight that I can recommend their book to anyone interested in the field.”- Mats Söderström, director Energy Systems Program, Linköping University, Sweden.Green Energy and TechnologyIndustriesEnergy conservationIndustriesEnergy consumptionIndustriesEnergy conservation.IndustriesEnergy consumption.621.042621.47Thollander Patrik891329Palm Jenny1287937MiAaPQMiAaPQMiAaPQBOOK9910437775403321Improving energy efficiency in industrial energy systems4199973UNINA05286nam 22007335 450 991029826900332120200630030455.03-7091-1402-010.1007/978-3-7091-1402-5(CKB)3710000000436718(EBL)2093654(SSID)ssj0001524968(PQKBManifestationID)11826336(PQKBTitleCode)TC0001524968(PQKBWorkID)11496559(PQKB)10269089(DE-He213)978-3-7091-1402-5(MiAaPQ)EBC2093654(PPN)186394136(EXLCZ)99371000000043671820150624d2015 u| 0engur|n|---|||||txtccrKinetics of Enzyme-Modifier Interactions Selected Topics in the Theory and Diagnosis of Inhibition and Activation Mechanisms /by Antonio Baici1st ed. 2015.Vienna :Springer Vienna :Imprint: Springer,2015.1 online resource (503 p.)Description based upon print version of record.3-7091-1401-2 Includes bibliographical references at the end of each chapters and index.Basic Knowledge -- The General Modifier Mechanism -- Taxonomy of Enzyme-Modifier Interactions and the Specific Velocity Plot -- Complements to Enzyme-Modifier Interactions -- The Basic Mechanisms of Inhibition and Nonessential Activation -- Multiple Enzyme-Modifier Interactions -- Multiple Interactions: Essential Activation and Liberation -- Slow-Onset Enzyme Inhibition -- Enzyme Inactivation with a Note on the Significance of Slow Modification Processes.- Dichotomous Keys to Enzyme-Modification Mechanisms. .The kinetic mechanisms by which enzymes interact with inhibitors and activators, collectively called modifiers, are scrutinized and ranked taxonomically into autonomous species in a way similar to that used in the biological classification of plants and animals. The systematization of the mechanisms is based on two fundamental characters: the allosteric linkage between substrate and modifier and the factor by which a modifier affects the catalytic constant of the enzyme. Combinations of the physically significant states of these two characters in an ancestor-descendant-like fashion reveal the existence of seventeen modes of interaction that cover the needs of total, partial and fine-tuning modulation of enzyme activity. These interactions comprise five linear and five hyperbolic inhibition mechanisms, five nonessential activation mechanisms and two hybrid species that manifest either hyperbolic inhibition or nonessential activation characteristics depending on substrate concentration. Five essential activation mechanisms, which are taxonomically independent of the mentioned basic species, complete the inventory of enzyme modifiers. Often masked under conventional umbrella terms or treated as anomalous cases, all seventeen basic inhibition and nonessential activation mechanisms are represented in the biochemical and pharmacological literature of this and the past century, either in the form of rapid or slow-onset reversible interactions, or as irreversible modification processes. The full potential of enzyme inhibitors and activators can only be appreciated after elucidating the details of their kinetic mechanisms of action exploring the entire range of physiologically significant reactant concentrations. This book highlights the wide spectrum of allosteric enzyme modification in physiological occurrences as well as in pharmacological and biotechnological applications that embrace simple and multiple enzyme-modifier interactions. The reader is guided in the journey through this still partly uncharted territory with the aid of mechanistically-oriented criteria aimed at showing the logical way towards the identification of a particular mechanism.EnzymologyProteinsBioinformaticsComputational biologyBiophysicsBiophysicsEnzymologyhttps://scigraph.springernature.com/ontologies/product-market-codes/L14070Protein-Ligand Interactionshttps://scigraph.springernature.com/ontologies/product-market-codes/L14060Computer Appl. in Life Scienceshttps://scigraph.springernature.com/ontologies/product-market-codes/L17004Biological and Medical Physics, Biophysicshttps://scigraph.springernature.com/ontologies/product-market-codes/P27008Enzymology.Proteins.Bioinformatics.Computational biology.Biophysics.Biophysics.Enzymology.Protein-Ligand Interactions.Computer Appl. in Life Sciences.Biological and Medical Physics, Biophysics.570570285571.4572.6Baici Antonioauthttp://id.loc.gov/vocabulary/relators/aut1064848BOOK9910298269003321Kinetics of Enzyme-Modifier Interactions2541192UNINA