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This guide provides homeowners with information needed to plan for the purchase of an earth energy heat pump system in a new or existing home. Section 1 is an introduction to earth energy systems, how they work, the different types of systems, their benefits, and how much energy they need to work. Section 2 is directed at new home buyers, and discusses how house design affects an earth energy system. It also recommends system designs that work best for particular house types and compares typical operating costs to alternative heating & cooling systems. Section 3 is for those wanting to install an earth energy system in an existing house, and covers various ways to upgrade a heating & cooling system, compares operating costs, and lists steps in servicing the system. Section 4 is for all readers and provides guidance on selecting a contractor & what needs to be covered in a basic contract. It also covers maintenance & service as well as basic troubleshooting. The final section lists information sources. Appendices include a glossary and an installation checklist.
This guide is about one of the most recent developments in residential space heating and cooling technology --earth energy systems (ground source heat pumps). The guide covers all aspects of earth energy systems-- from internal operation and installation to field tested performance --in an understandable, non-technical manner. The guide has been written primarily for a residential building audience, in particular those involved in choosing heating systems. It examines certain perceptions and misconceptions about earth energy systems; covers the fundamental concepts of operation, design and application; presents a comparison between earth energy systems and four other conventional heating systems; and provides illustrated examples of earth energy systems in operation.
Geothermal Energy Systems provides design and analysis methodologies by using exergy and enhanced exergy tools (covering exergoenvironmental, exergoeconomic, exergetic life cycle assessment, etc.), environmental impact assessment models, and sustainability models and approaches. In addition to presenting newly developed advanced and integrated systems for multigenerational purposes, the book discusses newly developed environmental impact assessment and sustainability evaluation methods and methodologies. With case studies for integrated geothermal energy sources for multigenerational aims, engineers can design and develop new geothermal integrated systems for various applications and discover the main advantages of design choices, system analysis, assessment and development of advanced geothermal power systems. Explains the ability of geothermal energy power systems to decrease global warming Discusses sustainable development strategies for using geothermal energy sources Provides new design conditions for geothermal energy sources-based district energy systems
An earth energy system (EES) is a type of heat pump system that uses the ground or groundwater as a source of energy. This guide provides information needed to understand, plan, oversee, design, build, and manage an EES for heating & cooling applications in commercial & institutional buildings. Chapter 1 provides an introduction to EESs, what they are, where they make the most sense, how they work, and their economics as compared to other heating, ventilating, & air conditioning systems. Chapter 2 describes the different configurations or types of EESs and factors to be considered when selecting an EES. It also introduces the energy efficiency descriptors for heat pumps used in EESs and discusses the importance of energy efficiency in other aspects of buildings. Chapter 3 provides a brief overview of an EES design. Chapter 4 examines other important matters unique to EESs, such as environmental & legal considerations and planning, installation, & maintenance issues. Chapter 5 contains a detailed examination of topics pertaining to heat pump performance & efficiency. Chapter 6 discusses the evaluation & calculation of building loads & energy use. Chapter 7 explains the requirements for sizing heat pumps and ground heat exchangers, and includes sample calculations. Chapter 8 outlines factors to consider in the analysis of an EES investment and includes an economic & financial calculation example. The final chapter addresses practical issues that should be considered in EES design & installation. It also provides a sample performance specification and a list of important information to obtain from suppliers & contractors. Appendices include EES case studies and a glossary.
Introductory technical guidance for professional engineers and construction managers interested in renewable electric energy systems. Here is what is discussed: 1. WIND SYSTEMS, 2. PHOTOVOLTAIC SYSTEMS, 3. LANDFILL GAS SYSTEMS, 4. GEOTHERMAL SYSTEMS, 5. BIOMASS SYSTEMS, 6. UTILITY INTERCONNECTION.
Introductory technical guidance for mechanical engineers and other professional engineers and planners interested in renewable energy systems. Here is what is discussed: 1. WIND SYSTEMS 2. PHOTOVOLTAIC SYSTEMS 3. LANDFILL GAS SYSTEMS 4. GEOTHERMAL SYSTEMS 5. BIOMASS SYSTEMS 6. UTILITY INTERCONNECTION.
"Covers residential geothermal heating and cooling, including various system options and installation configurations, costs and payback issues, performance standards, and contractors. Also examines how energy-efficient, non-polluting geothermal heat pumps work and how to integrate solar energy"--
In their book Nicola Armaroli, Vincenzo Balzani and Nick Serpone uncover the background details associated with a transition to sustainable energy production that are routinely swept under the table in public discussions. They are not only concerned with the (alleged) advantages and disadvantages of any one energy generation technology from a technical viewpoint, but also with the ecological, economic, political and social consequences of an inevitable transition. In a highly readable manner aimed at an international audience, the authors introduce the often misused and sometimes abused term 'energy' and give a lucid account of the development of energy production from timber to nuclear energy and renewable energies. They compare various energy generation methods with respect to their efficiency and practicability for large-scale implementation and examine if, and how, these methods live up to the expectations and promises their proponents make. In addition, the authors juxtapose the political and economic prerequisites in different regions of the world that advance, or hinder, an energy turnaround. They round off their book by debunking the seventeen most popular myths often cited in discussions on energy issues. As a result, the authors provide ammunition for debate, underpin (and unsettle) opinions using facts, and challenge comfortable and popular chains of reasoning.