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Books on the topic 'Building thermal models'

Author: Grafiati

Published: 11 January 2025

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1

National Institute of Standards and Technology (U.S.), ed. The thermal response of gypsum-panel/steel-stud wall systems exposed to fire environments: A simulation for use in zone-type fire models. Gaithersburg, MD: U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 1997.

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2

A, Tabunschikov I͡U. Mathematical models of thermal conditions in buildings. Boca Raton: CRC Press, 1992.

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3

Lawrence Berkeley Laboratory. Energy Analysis Dept., ed. Duct thermal performance models for large commercial buildings. Berkeley, CA: Energy Analysis Dept., Environmental Energy Technologies Division, Indoor Environment Department, Lawrence Berkeley National Laboratory, 2003.

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4

Jeffrey, Wix, and Building Services Research and Information Association. Computer Centre., eds. Dynamic thermal modelling. Lutterworth, UK: Ambient Press, 1987.

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5

Almusaed, Amjad. Effective thermal insulation: The operative factor of a passive building model. Rijeka: InTech, 2012.

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6

Zhukov, Aleksey, Ekaterina Bobrova, Igor' Bessonov, and Elizaveta Mednikova. Energy efficiency of building systems. ru: INFRA-M Academic Publishing LLC., 2022. http://dx.doi.org/10.12737/1856852.

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The monograph summarizes and systematizes the results of experimental and theoretical studies of thermal insulation systems of building structures, technological facilities, transport facilities, and cold preservation. The criterion for the effectiveness of system insulation solutions is energy efficiency as a criterion for a comprehensive assessment, including both taking into account the direct reduction of energy costs during the operation of insulation shells, and the costs of installation, maintenance of structures in working condition, evaluation of the operational resistance of materials and durability of system solutions as a whole. Modern types of thermal insulation materials based on gas-filled plastics, foamed glass, foamed rubber and products based on mineral fibers are considered: stone wool, glass wool and glass fiber, basalt fiber. It is intended for researchers, specialists in the field of materials science, technologists — developers of new types of thermal insulation materials and constructors, designing products from them, as well as for teachers and university students. It can be useful for a wide range of people interested in construction and energy saving problems.

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7

Hopkowicz, Marian. Uproszczone modele matematyczne dynamiki cieplnej obiektów ogrzewanych. Kraków: Politechnika Krakowska, 1992.

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8

TenWolde, Anton. FPL Roof Temperature and Moisture Model: Description and verification. Madison, Wis: Forest Products Laboratory, 1997.

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9

TenWolde, Anton. FPL roof temperature and moisture model: Description and verification. Madison, WI: U.S. Dept. of Agriculture, Forest Service, Forest Products Laboratory, 1997.

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10

Forest Products Laboratory (U.S.), ed. FPL roof temperature and moisture model: Description and verification. Madison, WI (One Gifford Pinchot Dr., Madison 53705-2398): U.S. Dept. of Agriculture, Forest Service, Forest Products Laboratory, 1997.

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11

Forest Products Laboratory (U.S.), ed. FPL roof temperature and moisture model: Description and verification. Madison, WI (One Gifford Pinchot Dr., Madison 53705-2398): U.S. Dept. of Agriculture, Forest Service, Forest Products Laboratory, 1997.

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12

James, Timothy B. Heat transmission coefficients for walls, roofs, ceilings, and floors. Atlanta, Ga: American Society of Heating, Refrigerating, and Air-Conditioning Engineers, 1993.

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13

Arieti, Federico. Progettare edifici a energia zero: · percorso metodologico · indicazioni applicative · dettagli costruttivi per il controllo operativo del bilancio energetico e il benessere bioclimatico. Santarcangelo di Romagna (RN): Maggioli editore, 2017.

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14

1969-, Mösle Peter, and Schwarz Michael 1961-, eds. Green building: Konzepte für nachhaltige Architektur. München: Callwey, 2007.

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15

1969-, Mösle Peter, and Schwarz Michael 1961-, eds. Green building: Guidebook for sustainable architecture. Heidelberg: Springer, 2010.

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16

Kravchenko, Igor', Maksim Glinskiy, Sergey Karcev, Viktor Korneev, and Diana Abdumuminova. Resource-saving plasma technology in the repair of processing equipment. ru: INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/1083289.

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In the monograph methodological bases of selection of method of coating, design of technological processes of hardening and recovery of the wearing surfaces of parts using a systems engineering analysis and information support technologist. The mathematical model of plasma spraying of materials with different thermal conductivity and methods criteria for evaluation of technical and technological opportunities of a plasma coating method. Describes the methods and results of experimental studies, the analysis of the conditions and causes of loss of efficiency of processing equipment APK. The proposed scientific and methodical approach to the justification of expediency of the recovery and strengthening of the working bodies and parts expensive imported technological equipment. The proposed mathematical model describing the physical processes in plasma coating for various applications. The structure of the algorithm for solving the task of hardening and recovery of worn parts plasma methods on the basis of the integrated CAE system. This monograph is intended for employees of scientific research institutions, specialists of machine-building production and enterprises of technical service, as well as teachers, postgraduates and students of agricultural engineering areas of training.

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17

Dimitrov, Alexander V. Energy Modeling and Computations in the Building Envelope. Taylor & Francis Group, 2015.

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18

Dimitrov, Alexander V. Energy Modeling and Computations in the Building Envelope. Taylor & Francis Group, 2015.

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19

Dimitrov, Alexander V. Energy Modeling and Computations in the Building Envelope. Taylor & Francis Group, 2015.

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20

Energy Modeling and Computations in the Building Envelope. Taylor & Francis Group, 2015.

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21

Wix, J. Dynamic Thermal Modelling. Hyperion Books, 1987.

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22

Almusaed, Amjad, ed. Effective Thermal Insulation - The Operative Factor of a Passive Building Model. InTech, 2012. http://dx.doi.org/10.5772/2418.

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23

Piatek, Teodor. Effective Thermal Insulation: The Operative Factor of a Passive Building Model. Scitus Academics LLC, 2017.

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24

An Investigation into analytical and empirical validation techniques for dynamic thermal models of buildings. Garston, UK: BRE/SERC Collaboration at BRE, 1988.

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25

Thermal Baths at Vals (Exemplary Projects). Architectural Association Publications, 1996.

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26

Thermally active surfaces in architecture. New York: Princeton Architectural Press, 2010.

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27

Dzelzītis, Egīls. Application of Alternative Energy Trigeneration for Balancing of Loads and Sustainable Quality Assurance in Smart Energy Networks. RTU Press, 2021. http://dx.doi.org/10.7250/9789934227158.

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The object of the research is micro-grids in district heating systems and the end consumers of the thermal energy from these systems. Topicality of the Thesis: The National Energy and Climate Plan of Latvia for 2030. The aim of the Doctoral Thesis is to design the energy management model for micro-grids with passive buildings and ecological trigeneration by using renewable energy resources.

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28

Chapman, Kirby S. Develop simplified methodology to incorporate thermal comfort factors for temperature setback/setup into in-space heating and cooling design calculations: Final project report : research project 1114. [Atlanta, GA] : American Society of Heating, Refrigerating and Air-Conditioning Engineers, 1994.

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29

Moe, Kiel. Insulating Modernism: Isolated and Non-Isolated Thermodynamics in Architecture. de Gruyter GmbH, Walter, 2014.

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