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200 00$aWorking with Spanish corpora /$fedited by Giovanni Parodi
205   $a1st ed.
210   $aLondon ;$aNew York $cContinuum$dc2007
215   $a1 online resource (xv, 259 pages) $cillustrations
225 1 $aCorpus and discourse. Research in corpus and discourse
300   $aDescription based upon print version of record.
311 0 $a9780826494832 
311 0 $a0826494838 
320   $aIncludes bibliographical references (p. [232]-255) and index.
327   $aCover; Half-title; Title; Copyright; Contents; List of tables, figures and graphs; List of contributors; Editor's Preface; List of abbreviations and acronyms; Chapter I: INTRODUCTION Catching up with corpus linguistics: Register-diversified studies from different corpora in different Spanish speaking countries; Chapter II: Variation across registers in Spanish: Exploring the El Grial PUCV Corpus; Chapter III: Dimensions of register variation in Spanish; Chapter IV: Epistemic modality and academic orality: Pilotstudy for COTECA (Corpus Textual del Espanol Cientifico de la Argenti
327   $aChapter V: Multi-register analysis of prepositional schemes in communication verbs in Spanish; Chapter VI: Future tense expressions in several Spanish corpora; Chapter VII: Technical-professional discourses: Specialized and dissemination text types; Chapter VIII: Academic writing: Exploring Corpus 92; Chapter IX: Using Latent Semantic Analysis in a Spanish research article corpus; Chapter X: Lexical bundles in speech and writing; References; Index
330   $aThe main focus of this book is the investigation of linguistic variation in Spanish, considering spoken and written, specialised and non-specialised registers from a corpus linguistics approach and employing computational updated tools. The ten chapters represent a range of research on Spanish using a number of different corpora drawn from, amongst others, research articles, student writing, formal conversation and technical reports. A variety of methodologies are brought to bear upon these corpora including multi-dimensional and multi-register analysis, latent semantics and lexical bundles.
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200 10$aNATURAL GAS INSTALLATIONS AND NETWORKS IN BUILDINGS
205   $a1st ed.
210   $a[S.l.] $cCRC PRESS$d2020
215   $a1 online resource (275 pages)
311 08$a0-367-53672-2 
327   $a1. Introduction -- 1.1 Gas pipe networks and systems as elements of the building logistics -- 1.2 Fuel gas, current state and perspectives -- 2. Theoretical foundations of gas pipe networks and installations -- 2.1 Physico-mechanical properties of fuel gas as a primary energy source. -- 2.2 Transmission parameters of fuel gas -- 2.3 Basic terms and laws -- 2.3.1 Gas flow rate and thermal power. A link between gas flow rate and decrease of gas-dynamic losses -- Kirchhoff's law for gas pipe networks -- 2.3.2 Law of continuity -- 2.3.3 Law of balance between intake flow rate and exhaust flow rate at a knot -- 2.3.4 Bernoulli's principle (for real fluids) -- 2.3.5 Law of the gas-dynamic head in a pipe -- 2.3.6 Darcy's law (concerning gas-dynamic losses of pressure in linear pipeline sections) -- 2.3.7 Calculation of the parameters of natural gas -- examples -- 2.4 Fuel gas thermodynamics -- 2.4.1 Law of gas state -- 2.4.2 Charle's law -- 2.4.3 Boyles law -- 2.4.3 Graham's law for gas diffusion -- 2.5 Fuel gas combustion -- 2.5.1 Fuel cell classification and characteristics. Advantages and disadvantages -- 2.5.2 Fuel gas cells in household micro-cogeneration systems (mHPS) -- 2.5.3 Technical characteristics of mHPS -- 2.6 Gas flame and combustion devices -- 2.7 Flameless combustion of fuel gas and combustion devices -- 3. Gas supply of urbanized regions -- 3.1 Territorial (state) pipe network of gas transport -- 3.2 Urban and regional gas networks. Classification. Structure -- 3.3 Decentralization of building power supply. Energy centers -- 3.3.1 Gas supply of buildings. Types of gas-supplied energy centers (GEC) of buildings. Classification -- 3.3.2 Structure of the gas regulating station in a gas EC -- 3.3.3 Gas boiler / mHPS room -- 3.4 Systems exhausting gas waste -- 3.4.1 Open system exhausting gas combustion products via natural convection -- 3.4.2 Open systems with forced convection -- 3.4.3 Centralized systems exhausting gas combustion products by means of forced convection -- 3.4.4 Releasing devices (terminals) installed on the building envelope -- 3.5 Design of a pipe network -- 3.5.1 Structure of gas pipe networks in residential and public buildings -- 3.5.2 Calculation of pipe networks -- 4. Main building systems operating with fuel gas -- 4.1 System for thermal comfort control -- 4.1.1 Need for thermal comfort and accessible levels of thermal loads of occupied areas -- 4.1.2 Classification of systems providing thermal comfort -- 4.1.3 Advantages and disadvantages of gas radiant heating installations -- 4.2 Gas equipment and control of indoor air quality -- 4.2.1 Indoor air quality and methods of its attainment -- 4.2.2 Building ventilation and indoor air quality (IAQ) -- 4.2.3 Gas equipment and building ventilation -- 4.3 System for visual comfort and gas equipment -- 4.3.1 Visual comfort in buildings -- 4.3.2 Visual comfort gas lighting fixtures -- 4.3.3 Design steps in the calculation of a visual control system -- 4.4 Gas equipment in a system for food preparation and conservation -- 4.4.1 System for food preparation and conservation -- 4.4.2 Household kitchens and gas appliances -- 4.4.3 Commercial kitchen arrangement -- 4.5 Hygiene maintenance systems -- 4.5.1 Structure of a hygiene maintenance system. A domestic hot water system -- 4.5.2 Gas water heaters of a hygiene maintenance system -- 4.5.3 Combined schemes of water heating in systems for hygiene maintenance -- 4.5.4 Gas dryers in systems for hygiene maintenance -- 4.5.5 Calculation of hygiene maintenance systems -- 4.6 Gas heat pumps in engineering installations of buildings -- 4.6.1 Heat pumps operating as increasing thermal transformers. Classification -- 4.6.2 Gas vapor-compression heat pumps -- 4.6.3 Operation of a gas heat pump -- 4.6.4 Heat pumps driven by NG and available on the market- an investment point of view -- 4.7 Necessity of increasing the share of gas devices in a building -- 4.7.1 Gas micro-cogenerating systems in domestic autonomous energy centers -- 4.7.2 Importance of gas micro-cogenerating systems for national energy strategy -- 5. Conclusions and Acknowledgement -- 6. Appendix -- 7. References.
330   $aThis book covers theoretical foundations of the Natural Gas (NG) installations and networks as a part of building logistic system, illustrated with digital examples. It describes the NG oxidation phenomena and appropriate energy converting devices used in the building's energy centres and basic sizing principals of the related pipe networks. Further, it covers usage of NG devices including system for thermal comfort control, building ventilation, indoor air quality, visual comfort, food preparation and conservation, and hygiene maintenance system. A special attention is given to applications of the NG technological equipment, using gas-driven heat pumps, micro heat and power systems. Aimed at professionals and graduate students in the areas of HVAC, Plumbing, Architecture, Electricians, this book: Presents complex, innovative and systematical approach to NG installations in buildings. Reviews efficient and environmentally sustainable dementalization approach to building energy supply, using NGmHps v/s central energy supply systems. Explains pre-designating calculations of the gas piping networks. Illustrates structures, principals of operation and building project implementations of the modern GN energy converters and transformers as fuel cells (SOFC, MOFC, PEFC) and NG driven heat pumps. Discusses calculation methods derived from professional case studies.
606   $aGas-fitting
615  0$aGas-fitting.
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