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Combined Cooling, Heating, and Power Systems

Combined Cooling, Heating, and Power Systems
Author: Yang Shi
Publisher: John Wiley & Sons
Total Pages: 195
Release: 2017-09-05
Genre: Technology & Engineering
ISBN: 1119283353
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A comprehensive review of state-of-the-art CCHP modeling, optimization, and operation theory and practice This book was written by an international author team at the forefront of combined cooling, heating, and power (CCHP) systems R&D. It offers systematic coverage of state-of-the-art mathematical modeling, structure optimization, and CCHP system operation, supplemented with numerous illustrative case studies and examples. CCHP systems are an exciting emerging energy technology offering significant economic and environmental benefits. Combined Cooling, Heating, and Power Systems: Modelling, Optimization, and Operation is a timely response to ongoing efforts to maximize the efficiency of that technology. It begins with a survey of CCHP systems from the technological and societal perspectives, offering readers a broad and stimulating overview of the field. It then digs down into topics crucial for optimal CCHP operation. Discussions of each topic are carefully structured, walking readers from introduction and background to technical details. A set of new methodologies for the modeling, optimization and control of CCHP systems are presented within a unified framework. And the authors demonstrate innovative solutions to a variety of CCHP systems problems using new approaches to optimal power flow, load forecasting, and system operation design. Provides a comprehensive review of state-of-the-art of CCHP system development Presents new methodologies for mathematical modeling, optimization, and advanced control Combines theoretical rigor with real-world application perspectives Features numerous examples demonstrating an array of new design strategies Reflects the combined experience of veteran researchers in the field whose contributions are well recognized within the energy community Offers excellent background reading for students currently enrolled in the growing number of courses on energy systems at universities worldwide Timely, authoritative, and offering a balanced presentation of theory and practice, Combined Cooling, Heating, and Power Systems: Modelling, Optimization, and Operation is a valuable resource forresearchers, design practitioners, and graduate students in the areas of control theory, energy management, and energy systems design.

Combined Cooling, Heating and Power

Combined Cooling, Heating and Power
Author: Masood Ebrahimi
Publisher: Elsevier
Total Pages: 219
Release: 2014-10-08
Genre: Technology & Engineering
ISBN: 0080999921
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A professional reference title written primarily for researchers in thermal engineering, Combined Cooling, Heating and Power: Decision-Making, Design and Optimization summarizes current research on decision-making and optimization in combined cooling, heating, and power (CCHP) systems. The authors provide examples of using these decision-making tools with five examples that run throughout the book. Offers a unique emphasis on newer techniques in decision-making Provides examples of decision-making tools with five examples that run throughout the book

Combined Cooling, Heating, and Power (CCHP) System: Cooperative Research and Development Final Report, CRADA Number CRD-14-570

Combined Cooling, Heating, and Power (CCHP) System: Cooperative Research and Development Final Report, CRADA Number CRD-14-570
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Total Pages: 0
Release: 2018
Genre:
ISBN:
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NREL and Be Power Tech, Inc. (Be Power) will jointly develop a new combined cooling, heating, and power (CCHP) system that uses desiccants in combination with evaporative cooling and fuel cells. The combined system will have better economics and business case than a separate desiccant enhanced air conditioner and fuel cell system. The overall system is expected to become a net revenue generator by delivering power and air conditioning to a building while inputting natural gas and water. This development effort will revolve around adapting NREL's desiccant cooling technology to work with Be Power's proprietary system integration design for CCHP systems. The objective of the CRADA is to develop, then commercialize this CCHP system by jointly developing the system integration design, testing methods, and hardware for this system. The commercial name given to the CCHP system is BeCool.

Energy Efficient Operation Strategy Design for the Combined Cooling, Heating and Power System

Energy Efficient Operation Strategy Design for the Combined Cooling, Heating and Power System
Author: Mingxi Liu
Publisher:
Total Pages:
Release: 2012
Genre:
ISBN:
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Combined cooling, heating and power (CCHP) systems are known as trigeneration systems, designed to provide electricity, cooling and heating simultaneously. The CCHP system has become a hot topic for its high system efficiency, high economic efficiency and less greenhouse gas (GHG) emissions in recent years. The efficiency of the CCHP system depends on the appropriate system configuration, operation strategy and facility size. Due to the inherent and inevitable energy waste of the traditional operation strategies, i.e., following the electric load (FEL) and following the thermal load (FTL), more efficient operation strategy should be designed. To achieve the highest system efficiency, facilities in the system should be sized to match with the corresponding operation strategy. In order to reduce the energy waste in traditional operation strategies and improve the system efficiency, two operation strategy design methods and sizing problems are studied (In Chapter 2 and Chapter 3). Most of the improved operation strategies in the literature are based on the ''balance'' plane, which implies the match of the electric demands and thermal demands. However, in more than 95% energy demand patterns, the demands cannot match with each other at this exact ''balance'' plane. To continuously use the ''balance'' concept, in Chapter 2, the system configuration is modified from the one with single absorption chiller to be the one with hybrid chillers and expand the ''balance'' plane to be a ''balance'' space by tuning the electric cooling to cool load ratio. With this new ''balance'' space, an operation strategy is designed and the power generation unit (PGU) capacity is optimized according to the proposed operation strategy to reduce the energy waste and improve the system efficiency. A case study is conducted to verify the feasibility and effectiveness of the proposed operation strategy. In Chapter 3, a more mathematical approach to schedule the energy input and power flow is proposed. By using the concept of energy hub, the CCHP system is modelled in a matrix form. As a result, the whole CCHP system is an input-output model. Setting the objective function to be a weighted summation of primary energy savings (PESs), hourly total cost savings (HTCs) and carbon dioxide emissions reduction (CDER), the optimization problem, constrained by equality and inequality constraints, is solved by the sequential quadratic programming (SQP). The PGU capacity is also sized under the proposed optimal operation strategy. In the case study, compared to FEL and FTL, the proposed optimal operation strategy saves more primary energy and annual total cost, and can be more environmental friendly. Finally, the conclusions of this thesis is summarized and some future work is discussed.

OPTIMIZATION OF COMBINED COOLING, HEATING, AND POWER SYSTEMS (CCHP) OPERATIONAL STRATEGIES FOR DIFFERENT CLIMATE CONDITIONS.

OPTIMIZATION OF COMBINED COOLING, HEATING, AND POWER SYSTEMS (CCHP) OPERATIONAL STRATEGIES FOR DIFFERENT CLIMATE CONDITIONS.
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Release: 2004
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ISBN:
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This thesis investigates the different strategies of operation and optimization criteria that a CCHP system can be operated under. As energy concerns increase, a major issue for the United States will be the efficiency of energy production. Due to this desire for the most efficient supply of energy CCHP will play an increasingly important role in both domestic and commercial applications as waste heat utilization provides an added measure of efficiency. The different strategies of operation under which a CCHP system can be operated under, electric load following and thermal load following, are defined in addition to the different optimization criteria that a CCHP system can be operated under. The different strategies and optimization criteria of CCHP operation are simulated for five various climate regions in the United States and the results for primary energy consumption, CO2 emissions, and cost of operation are compared.

Performance and Controls of Gas Turbine-driven Combined Cooling Heating and Power Systems for Economic Dispatch

Performance and Controls of Gas Turbine-driven Combined Cooling Heating and Power Systems for Economic Dispatch
Author: Anh-Tuan Vu Do
Publisher:
Total Pages: 349
Release: 2013
Genre:
ISBN: 9781303034350
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Combined cooling, heating and power (CCHP) systems are power generation stations designed for maximum waste heat recovery and energy sustainability. In a conventional CCHP system, a gas turbine provides the electrical generation and the waste heat is recovered for cooling and heating. Traditionally, utility-scale CCHP plants of 100 MW or more were commissioned to support large industrial processing plants. Light industry, commercial, and institutional applications have adopted smaller CCHP systems to realize economic savings and environmental benefits. Besides facing operating constraints such as smaller foot-print, shorter reaction time and shorter control tolerances, these plants also encounter low energy demands because of diurnal or seasonal variations, forcing them to operate at part-load. Coupled with relatively high capital and O & M costs, compact CCHP stations then become uneconomical for end-users. From flexibilities in operation, however, there are ample opportunities for favorable economic dispatch by operating the plant under demand response programs and ancillary services. The small-scaled CCHP systems fall under the distributed generation (DG) category of many regulatory policies and electricity rate tariffs of utilities. Several typical rate structures applicable to CCHP systems were evaluated, including standby and non-standby time-of-use (TOU), and critical peak pricing (CPP). The economic analysis produced insights on novel and preferred chiller dispatch strategies for energy and demand charge reduction. The increased variability and uncertainty of renewable generation add to the balancing duties of grid regulators whom previously had to deal with such behaviors in system load. The situation is becoming direr for California, as the state mandates 33% renewable resource generation by 2020 along with a plethora of stringent environmental legislation that would displace 18,000 MW of traditional base-load plants by 2020. Therefore, ancillary services will become more valuable as grid balancing authorities such as CAISO seek to address the uncertainty and variability in renewable generation. A gas turbine-driven CCHP system is one example of an ancillary service provider capable of complementing the increased renewable penetration. This dissertation seeks to elucidate the feasibility of implementing CCHP technology to light industrial and commercial applications for favorable economic dispatch to complement demand response services and renewable integration.

Feasibility Assessments of Combined Cooling, Heating, and Power (CCHP) Systems for Commercial Buildings

Feasibility Assessments of Combined Cooling, Heating, and Power (CCHP) Systems for Commercial Buildings
Author: Hyeunguk Ahn
Publisher:
Total Pages:
Release: 2019
Genre:
ISBN:
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Distributed energy systems produce energy on-site considerably reducing energy loss that would occur when energy is supplied from centralized systems. One of the distributed energy technologies is a combined cooling, heating, and power (CCHP) system. In a CCHP system, electricity is generated near end-users and the recovered heat from a power generation unit is utilized for cooling and heating in a building. Therefore, CCHP systems can increase primary energy utilization efficiency and energy reliability while reducing adverse environmental impacts. CCHP systems can be applicable from a building to community level. However, the feasibility of CCHP systems can largely vary with building type and location as well as other integrated sub-systems such as hybrid chiller and solar photovoltaic (PV) systems. This dissertation focuses on feasibility assessments of CCHP systems integrated with hybrid chiller and PV systems. Specifically, the work in this dissertation consists of investigations of energy, environmental, and economic performances of CCHP systems applied to various commercial building types in different climatic regions in the U.S.The first investigation evaluates the energy and environmental performances of CCHP systems operating with two distinct cooling systems (i.e., absorption chiller vs. hybrid chiller) based on primary energy consumption and carbon dioxide emission. This study focuses on a hospital and an office building in San Francisco, CA and Long Island, NY. The results show that CCHP hybrid chiller systems can reduce a significant amount of primary energy consumption than traditional CCHP systems that utilize only an absorption chiller, especially when the systems are applied to a hospital building. The significant reduction of the primary energy consumption is mainly because a hybrid chiller system can minimize undesirable boiler operations for absorption cooling. The reduced primary energy consumption can also lead to a decrease in carbon dioxide emissions although regionally-varying emission factors of the grid electricity notably influence the environmental performance of CCHP hybrid chiller systems.The second investigation focuses on the economic feasibility of different-sized CCHP hybrid chiller systems for large office buildings considering realistic electricity tariff structures in different geographic regions including San Francisco, CA; Boston, MA; and Miami, FL. The results show that CCHP hybrid chiller systems can be economically justifiable for regions with relatively high electricity price and low natural gas price such as San Francisco and Boston. The cost savings are mainly attributed to electricity cost savings. Specifically, if a local electricity tariff estimates demand charges as high as energy charges (e.g., a tariff structure in San Francisco), demand charges can contribute to about 40% of the electricity cost savings; thus, using simplified tariff structures that neglect demand charges can result in a noticeable discrepancy in economic analyses of CCHP systems or other analogous distributed energy systems. However, for regions with relatively high natural gas price and low electricity price (e.g., Miami), the operation cost of CCHP hybrid chiller systems is higher up to $0.4 million per year compared to that of a conventional separate heat and power (SHP) system.The third investigation integrates solar PV panels with CCHP hybrid chiller (CCHP+PV) systems as applied to a large office building in San Francisco, CA and examines the impacts of variabilities in energy demands and solar irradiance on the energy and economic performances of CCHP+PV systems. According to the results obtained in this study, the associated uncertainties marginally influence the energy performance of CCHP+PV systems whereas they can increase the operation cost by up to $75,000 per year. Such a great increase in the operation cost is mainly attributed to demand charges that tend to increase as the uncertainties are considered. This result implies that a deterministic model of a CCHP+PV system may significantly underestimate its operation costs and overestimate economic savings, thereby leading to overly optimistic economic viability.

Energy Systems and Environment

Energy Systems and Environment
Author: Pavel Tsvetkov
Publisher: BoD – Books on Demand
Total Pages: 232
Release: 2018-09-12
Genre: Technology & Engineering
ISBN: 1789237106
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This book looks at environmental aspects of energy technologies, from common traditional sources in use, new sources, and emerging sources and technologies. The objective of this book is to serve as a one-stop comprehensive information resource on energy and environment topics, from energy science to energy engineering to energy politics. Starting with science and technology topics we link them to economics and politics showcasing interconnections between energy sources, energy utilization, energy conversion, and sustainability under the common theme of energy and environment. The book achieves its objective by offering and integrating deeply technical and socioeconomics papers together on energy and environment topics.

Polygeneration Systems

Polygeneration Systems
Author: Francesco Calise
Publisher: Academic Press
Total Pages: 453
Release: 2021-09-22
Genre: Technology & Engineering
ISBN: 0128206268
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The support for polygeneration lies in the possibility of integrating different technologies into a single energy system, to maximize the utilization of both fossil and renewable fuels. A system that delivers multiple forms of energy to users, maximizing the overall efficiency makes polygeneration an emerging and viable option for energy consuming industries. Polygeneration Systems: Design, Processes and Technologies provides simple and advanced calculation techniques to evaluate energy, environmental and economic performance of polygeneration systems under analysis. With specific design guidelines for each type of polygeneration system and experimental performance data, referred both to single components and overall systems, this title covers all aspects of polygeneration from design to operation, optimization and practical implementation. Giving different aspects of both fossil and non-fossil fuel based polygeneration and the wider area of polygeneration processes, this book helps readers learn general principles to specific system design and development through analysis of case studies, examples, simulation characteristics and thermodynamic and economic data. Detailed economic data for technology to assist developing feasibility studies regarding the possible application of polygeneration technologies Offers a comprehensive list of all current numerical and experimental results of polygeneration available Includes simulation models, cost figures, demonstration projects and test standards for designers and researchers to validate their own models and/or to test the reliability of their results