Natural Gas Installations and Networks in Buildings Natural Gas Installations and Networks in Buildings Authored by Alexander V. Dimitrov First edition published 2021 by CRC Press 6000 Broken Sound Parkway NW, Suite 300, Boca Raton, FL 33487-2742 and by CRC Press 2 Park Square, Milton Park, Abingdon, Oxon, OX14 4RN © 2021 Taylor & Francis Group, LLC First edition published by CRC Press 2021 CRC Press is an imprint of Taylor & Francis Group, LLC Reasonable efforts have been made to publish reliable data and information, but the author and pub- lisher cannot assume responsibility for the validity of all materials or the consequences of their use. The authors and publishers have attempted to trace the copyright holders of all material reproduced in this publication and apologize to copyright holders if permission to publish in this form has not been obtained. If any copyright material has not been acknowledged please write and let us know so we may rectify in any future reprint. 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Contents Foreword ...................................................................................................................ix About the Author ......................................................................................................xi Chapter 1 Introduction ..........................................................................................1 1.1 Gas Pipe Networks and Systems as Elements of the Building Logistics .....................................................................1 1.2 Fuel Gas, Current State and Perspectives ..................................3 Chapter 2 Theoretical Foundations of Gas Pipe Networks and Installations .......9 2.1 Physiomechanical Properties of Fuel Gas as a Primary Energy Source ...........................................................................9 2.2 Transmission Parameters of Fuel Gas .....................................14 2.2.1 Operational Pressure ..................................................15 2.2.2 Pressure Drop .............................................................15 2.3 Basic Terms and Laws .............................................................17 2.3.1 Gas Flow Rate and Thermal Power. The Link between Gas Flow Rate and Decrease of Gas- Dynamic Losses – Kirchhoff’s Law for Gas Pipe Networks ....................................................................17 2.3.2 Law of Continuity ......................................................19 2.3.3 Law of Balance between Intake Flow Rate and Exhaust Flow Rate at a Knot ......................................19 2.3.4 Bernoulli’s Principle (for Real Fluids) .......................21 2.3.5 Law the of Gas-Dynamic Head in a Closed Loop .....22 2.3.6 Darcy’s Law (Concerning Gas-Dynamic Losses of Pressure in Linear Pipeline Sections) ....................24 2.3.7 Calculation of the Parameters of Natural Gas – Examples ....................................................................26 2.4 Fuel Gas Thermodynamics .....................................................30 2.4.1 Law of Gas State ........................................................30 2.4.2 Charles’s Law .............................................................33 2.4.3 Boyle’s Law ................................................................34 2.4.4 Graham’s Law for Gas Diffusion ...............................35 2.5 Fuel Gas Combustion ..............................................................35 2.5.1 Complete Combustion of Methane .............................36 2.5.2 Incomplete Combustion of Methane ..........................37 2.5.3 Controlled Oxidation of Methane ..............................38 2.5.4 Fuel Cell Classification and Characteristics. Advantages and Disadvantages ..................................40 v vi Contents 2.5.5 Fuel Gas Cells in Household Micro- Cogeneration Systems (mHPS) ..................................43 2.5.6 Technical Characteristics of mHPS ...........................47 2.6 Gas Flame and Combustion Devices .......................................49 2.7 A Flameless Combustion of Fuel Gas and Combustion Devices ....................................................................................55 Chapter 3 Gas Supply of Urbanized Regions .....................................................57 3.1 Territorial (State) Pipe Network of Gas Transport ..................57 3.2 Urban and Regional Gas Networks. Classification. Structure ..................................................................................60 3.2.1 Classification of Urban Gas-Distributing Networks ....................................................................60 3.3 Decentralization of Building Power Supply. Energy Centers .....................................................................................64 3.3.1 Gas Supply of Buildings. Types of Gas-Supplied Energy Centers (GEC) of Buildings. Classification ..............................................................64 3.3.2 Structure of the Gas Regulating Station in an EC .......69 3.3.3 Gas Boiler/mHPS Room ............................................72 3.3.3.1 Structure of EC with Gas Water Heaters/mHPS Station (Boiler Room) ........72 3.3.3.2 General Requirements. Operative and Indoor Environment of the Boiler Rooms. Calculation of Warehouse Gas Amount .......................................................74 3.4 Systems Exhausting Gas Waste ...............................................79 3.4.1 Open System Exhausting Gas Combustion Products via Natural Convection ...............................84 3.4.2 Open Systems with Forced Convection .....................89 3.4.3 Centralized Systems Exhausting Gas Combustion Products by Means of Forced Convection ..................................................................90 3.4.3.1 Modular Systems ........................................91 3.4.3.2 Apartment Systems .....................................93 3.4.4 Releasing Devices (Terminals) Installed on the Building Envelope ......................................................93 3.4.4.1 Terminals Installed on Roof Structures ......94 3.4.4.2 Terminals Installed on Facades ..................95 3.5 Design of a Pipe Network ......................................................101 3.5.1 Structure of Gas Pipe Networks in Residential and Public Buildings ................................................101 3.5.2 Calculation of Pipe Networks...................................106 3.5.2.1 Pipe Network Preliminary Calculation.......108 Contents vii 3.5.2.2 Final Pipe Network Calculation by the Estimation of the Gas-Dynamic Pressure Losses in Pipes Supplying the Remotest End Users and Knowing Pipe Network Geometry and Topology ............122 Chapter 4 Main Building Systems Operating with Fuel Gas ...........................129 4.1 System For Thermal Comfort Control ..................................129 4.1.1 Need for Thermal Comfort and Accessible Levels of Thermal Loads of Occupied Areas ..........130 4.1.2 Classification of Systems Providing Thermal Comfort ....................................................................134 4.1.2.1 “Water-Air” Fuel Gas Systems .................136 4.1.2.2 Convective Systems “Gas-Air” .................139 4.1.2.3 Radiant Heating Systems “Gas-Air” ........150 4.1.3 Advantages and Disadvantages of Gas Radiant Heating Installations ................................................162 4.2 Gas Equipment and Control of Indoor Air Quality...............163 4.2.1 Indoor Air Quality and Methods of Its Attainment ................................................................163 4.2.2 Building Ventilation and IAQ ..................................170 4.2.3 Gas Equipment and Building Ventilation ................174 4.3 System For Visual Comfort and Gas Appliances (Gas Lamps) ...........................................................................181 4.3.1 Visual Comfort in Buildings ....................................181 4.3.2 Visual Comfort-Gas Lighting Fixtures ....................184 4.3.3 Design Steps in the Calculation of a Visual Control System .........................................................188 4.4 Gas Equipment in a System for Food Preparation and Conservation ...................................................................193 4.4.1 A System for Food Preparation and Conservation .............................................................193 4.4.2 Household Kitchens and Gas Appliances ................200 4.4.3 Commercial Kitchen Arrangement ..........................200 4.4.3.1 Ventilation of Commercial Kitchens ........203 4.4.3.2 Design of Local Canopy Ventilation ........204 4.5 Hygiene Maintenance Systems(Domestic Hot Water System.) .................................................................................206 4.5.1 Structure of a Hygiene Maintenance System. ..........206 4.5.2 Gas Water Heaters of a Hygiene Maintenance System ......................................................................209 4.5.2.1 Rating of Heat Generators in a Hygiene Maintaining System ...................212 4.5.3 Combined Schemes of Water Heating in Systems for Hygiene Maintenance .........................................213 4.5.4 Gas Dryers in Systems for Hygiene Maintenance .....215 4.5.5 Calculation of Hygiene Maintenance Systems .........216 4.5.5.1 Water Heater .............................................221 4.5.5.2 Recirculation Pump ..................................221 4.6 Gas Heat Pumps In Engineering Installations of Buildings ................................................................................221 4.6.1 Heat Pumps Principle of Action ...............................221 4.6.2 Gas Vapor-Compression Heat Pumps ......................225 4.6.3 Operation of a Gas Heat Pump ................................228 4.6.4 Heat Pumps Driven by Natural Gas and Available on the Market – an Investment Point of View ............................................................230 4.7 Necessity of Increasing the Share of Gas Devices in a Building .................................................................................232 4.7.1 Gas Micro-Cogenerating Systems in Domestic Autonomous Energy Centers ....................................233 4.7.2 Importance of Gas Micro-Cogenerating Systems for the National Energy Strategy ..............................240 Chapter 5 Conclusions and Acknowledgment ..................................................243 Appendix ...............................................................................................................245 References .............................................................................................................261 Foreword The book “Natural Gas Installations and Networks in Buildings” by D.Sc., Ph.D., Eng. Alexander V. Dimitrov, Professor at the European Polytechnical University, is a current study on modern power systems in Bulgaria. It outlines the means and measures of providing buildings and interior space with living comfort, addressing specialists in research, development, design and applications in the field. Moreover, it can be a reference book to a vast majority of graduate and postgraduate students, architects and structural designers. Prior to the present study, Prof. Dimitrov authored 12 books on heating and power technology, 5 of them were translated into English and published in the USA and Great Britain. He tackles basic laws of nature involving fluids, energy, thermo- and illumination technologies and aerodynamics. Prof. Dimitrov started teaching at the High Military Civil Engineering School (HMCES), Sofia, Bulgaria, in 1981, having defended a Ph.D. thesis on aerodynam- ics before a jury on power engineering and technologies and enrolled at HMCES as an assistant professor. He joined the High Technical School “T. Kableshkov”, Sofia, Bulgaria, in 1989 as an associate professor on building engineering installations. Dr. Dimitrov defended a D.Sc. thesis in 2012 in professional trend 5.7 “Architecture, Civil Engineering and Geodesy”, specialization “Heating Technology”. He later enrolled at the European Polytechnic University, Department of Civil Engineering and Architecture, Pernik, Bulgaria, as a professor on building engineering installations. Prof. Dimitrov delivered lectures on: Building engineering installations, Ecology of buildings, Energy efficient architecture, Mechanical components of HVAC sys- tems, Theoretical, Applied and Fluid mechanics. He started his research in 1980 as a graduate student at “Lykov” Institute of Heat and Mass Transfer, Acad. Sci. of Belarus, Minsk. He was a scientific consultant for the Energy Research Center, Mechanical Department at College of Engineering, UNLV. He was later a visit- ing researcher at Lawrence Berkeley National Laboratory, Environmental Energy Technology Division, Indoor Environment Department. Prof. Dimitrov is an author of more than 100 research papers. He participated in 45 research projects and has 15 years of experience in the design of building engineering systems, which make him one of the prominent specialists in the field. With its simple but technically precise style, the book puts forward the use of so-called “blue fuel” in buildings. It presents in a concise form the theoretical foun- dations of systems – principles of operation, general structure, scheme types, basic components and solutions. It also outlines the main principles of system design, giv- ing various practical calculation examples. The book conforms to Bulgarian norma- tive documents and standards. An in-building fuel gas pipework is a component of the logistic structure of a building energy system. It is designed and assembled to convey and distribute fuel gas between end users, which build the basic or subsidiary energy subsystems. Fuel ix