Download Free Renewable And Sustainable Air Conditioning Book in PDF and EPUB Free Download. You can read online Renewable And Sustainable Air Conditioning and write the review.

Air conditioning system is one of the major consumers of electrical energy in many parts of the world today. It represents between 40 and 70% of the energy consumption in commercial buildings. The demand of energy for air conditioning systems is expected to increase further in the next decades due to the population growth, the new economic boom, and the urbanization development. The rapid growth of air conditioning and electricity consumption will contribute further to climate change if fossil and nonrenewable resources are used. More energy-efficient and renewable energy-based air conditioning systems to accomplish space cooling are needed. This book intends to provide the reader with a comprehensive overview of the current state of the art in sustainable air conditioning technologies and focus on the most recent research and development on green air conditioning systems including energy-efficient and renewable energy-based air conditioning systems.
Air conditioning system is one of the major consumers of electrical energy in many parts of the world today. It represents between 40 and 70% of the energy consumption in commercial buildings. The demand of energy for air conditioning systems is expected to increase further in the next decades due to the population growth, the new economic boom, and the urbanization development. The rapid growth of air conditioning and electricity consumption will contribute further to climate change if fossil and nonrenewable resources are used. More energy-efficient and renewable energy-based air conditioning systems to accomplish space cooling are needed. This book intends to provide the reader with a comprehensive overview of the current state of the art in sustainable air conditioning technologies and focus on the most recent research and development on green air conditioning systems including energy-efficient and renewable energy-based air conditioning systems.
The simultaneous control of air temperature and humidity are the main functions of an air conditioner in order to provide human thermal comfort conditions. The conventional vapor compression air conditioning system cools the air below its dew point temperature to remove the moisture from the air. In hot and humid regions, considerable amount of energy is used for moisture removal using these systems. Because of the high energy cost of conventional systems and poor control of latent load, need arises for some alternative cooling devices. In this chapter alternative and renewable based air conditioning systems are described to overcome the increasing use of primary energy by conventional air conditional systems. Desiccant cooling is found to be a suitable alternative to these cooling systems. The configurations of desiccant cooling systems to achieve better performance are described. Furthermore, a comparative analysis of desiccant cooling system operating on ventilation and recirculation cycle has been presented. The results showed the system operating under the ventilation cycle has a better coefficient of performance as compared to the recirculation cycle because of the less input/regeneration heat required. The desiccant cooling technology is both cost-effective and environmental friendly as no refrigerant is used in these systems.
This long-awaited reference guide provides a complete overview of low energy cooling systems for buildings, covering a wide range of existing and emerging sustainable energy technologies in one comprehensive volume. An excellent data source on cooling performance, such as building loads or solar thermal chiller efficiencies, it is essential reading for building services and renewable energy engineers and researchers covering sustainable design. The book is unique in including a large set of experimental results from years of monitoring actual building and energy plants, as well as detailed laboratory and simulation analyses. These demonstrate which systems really work in buildings, what the real costs are and how operation can be optimized – crucial information for planners, builders and architects to gain confidence in applying new technologies in the building sector. Inside you will find valuable insights into: the energy demand of residential and office buildings; facades and summer performance of buildings; passive cooling strategies; geothermal cooling; active thermal cooling technologies, including absorption cooling, desiccant cooling and new developments in low power chillers; sustainable building operation using simulation. Supporting case study material makes this a useful text for senior undergraduate students on renewable and sustainable energy courses. Practical and informative, it is the best up-to-date volume on the important and rapidly growing area of cooling.
This book highlights the significance of using sustainable energy to prevent the deterioration of our planet using heat pumps. Energy sustainability can be achieved through improved energy efficiency. In this regard, heat pumps offer an energy-efficient alternative for heating and cooling. To drive the adoption of heat pumps as a key component of sustainable buildings, the authors focus on examining sustainable practices in heat pump operations and innovative system design. In view of the growing desire to use sustainable energy to meet heating and cooling demands and improve indoor air quality, this book offers a valuable reference guide to the available options in HVAC (heating, ventilation, and air-conditioning) system design. To begin with, the authors define sustainable energy and discuss the trend of “thinking green” in building design. They then discuss sustainable practices and heat pump applications in mapping out HVAC systems. In turn, they examine the use of green operations to promote sustainable practices and, in order to highlight the importance of innovative design, discuss the configuration options and precision control aspects. In closing, the authors illustrate innovative sustainable design on the basis of several energy-efficient cases. The book’s main goal is to drive the adoption of sustainable energy solutions. Heat pumps, it argues, represent the most efficient system for meeting commercial/recreational/residential heating and cooling demands. The book not only examines industrial practices in heat pump application, but also discusses advanced heat pump technologies and innovative heat pump designs.
This book provides readers with essential knowledge enabling the successful design of today's new energy efficient HVAC systems. The author introduces important concepts such as Knowledge Categorization, Performance Based Design Standards, and Quantification of Uncertainty in Energy Modeling for Buildings. Pivotal topics that all HVAC and architectural engineers must master in order to navigate the green building renaissance are given focused attention, including the role of renewables, air quality, automatic controls, and thermal comfort. Relevant ASHRAE standards, as well as sustainability scoring systems such as BREEAM, HQE, LEED and CASBEE are explained in depth. Armed with the material contained in this practical reference, students and practitioners alike will become more effective and prepared for engineering success.
Preface: The Journey into Evaporative Cooling In the sweltering heat of a changing world, the quest for cooling solutions that are sustainable, efficient, and harmonious with nature has never been more urgent. It is within this context that we embark on a journey into the fascinating realm of evaporative cooling—a journey that spans millennia, delves into the science of water's transformative power, explores the diverse applications of this ancient technique, and envisions a future where sustainability and comfort coexist seamlessly. The pages that follow will be a testament to the enduring legacy of evaporative cooling, from its origins in the distant past to its relevance in the modern age. We will unravel the intricate science behind this natural cooling process, discovering how it harnesses the power of evaporation to bring relief to the scorching heat. Along the way, we will witness its adaptability and resilience in various contexts, from traditional desert dwellings to advanced industrial facilities, from personal cooling devices to sustainable urban planning. But our journey does not end in the past or the present. It extends into the future, where innovations and possibilities in evaporative cooling promise a cooler, greener world. We will explore the cutting-edge technologies and sustainable practices that hold the potential to reshape the way we interact with our environment, providing us with comfort while minimizing our environmental footprint. This preface marks the beginning of a voyage through the world of evaporative cooling—a voyage of discovery, reflection, and inspiration. As we delve into the following chapters, we invite you to join us on this exploration, to learn from the wisdom of the past, to engage with the challenges of the present, and to envision the possibilities of the future. Together, we embark on a journey that celebrates the timeless principles of evaporative cooling and charts a course toward a more sustainable, comfortable, and harmonious existence.
This book discusses energy recovery technology, a green innovation that can be used in buildings. This technology reduces energy consumption in buildings and provides energy savings to conventional mechanical ventilation systems. Divided into eight chapters, the book provides in-depth technical information, state-of-the-art research, and latest developments in the energy recovery technology field. Case-studies describe worldwide applications of energy recovery technology and its integrated system for building services. This book will be used as a general and technical reference book for students, engineers, professionals, practitioners, scientists, and researchers seeking to reduce energy consumption of buildings in various climatic conditions. Presents an overview of energy consumption scenarios in buildings and the needs for energy-efficient technologies at regional and global levels; Explains models and methods of energy recovery technology performance evaluation; Inspires further research into energy recovery technology for building applications.
Against the backdrop of the environmental impact of household electricity consumption and the history of cooling practices, Marlyne Sahakian considers how people keep cool, from Metro Manila to other mega-cities in Southeast Asia.
The world is undergoing a significant shift toward sustainability and energy efficiency, with increasing awareness of the environmental challenges posed by traditional energy sources. Among the most energy-intensive systems in homes, businesses, and industrial settings are Heating, Ventilation, and Air Conditioning (HVAC) systems. These systems account for a substantial portion of global energy consumption and are often powered by fossil fuels, contributing to greenhouse gas emissions and environmental degradation. As the demand for energy continues to grow, so does the need for more sustainable and renewable solutions. Renewable energy, particularly solar, wind, and geothermal, presents a viable alternative to traditional power sources for HVAC systems. These natural energy sources offer a cleaner, more sustainable way to heat and cool buildings, reducing both energy costs and the carbon footprint of HVAC operations. The Importance of Renewable HVAC Systems HVAC systems are essential for maintaining indoor comfort, but their energy requirements can be immense, especially in extreme climates. Traditional systems rely heavily on electricity generated from non-renewable sources, leading to significant environmental impact. Transitioning to renewable HVAC solutions not only addresses environmental concerns but also offers long-term economic benefits. Renewable energy HVAC systems are designed to harness the power of the sun, wind, and the Earth itself to provide heating, cooling, and ventilation. These systems not only reduce dependence on fossil fuels but also help stabilize energy costs in the long run. With advances in technology, renewable HVAC systems have become more efficient, reliable, and affordable, making them a practical option for a wide range of applications—from residential homes to large commercial facilities.