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This book is for both teachers and students of universities and colleges who are working on, or are interested in, the subject of 'Greenhouse Technology', or in dealing with subjects related to crop science. This book also targets researchers, extension workers and individual entrepreneurs to provide a clear and handy idea about greenhouse technology. The book is divided into 8 chapters. Chapter 1 contains the introduction, which elaborates on the reason and necessity of cultivation under greenhouse, the definition of greenhouse, and the history and present scenario of greenhouse cultivation. Chapter 2 narrates the meaning of greenhouse technology, the planning of greenhouse, the subjects involved in it, the fundamental points which are required to be understood for different climatic situations and the purpose of a greenhouse. Chapter 3 deals with the importance of different climatic and non-climatic factors in selecting proper greenhouse technology. This chapter also highlights the different measuring systems required for greenhouse technology. Chapter 4 describes in detail the design and construction of a greenhouse, which includes basic forms and types of greenhouses, its different covering materials, particular aspects of construction, cost estimates for different types of greenhouses etc. Chapter 5 introduces the innovative 'Bamboo Greenhouse Technology. It starts with the preparation of bamboo and ends with the detailed design and construction aspects of this unique low-cost, scientific and highly efficient greenhouse. Chapter 6 is the most important chapter for greenhouse technology. It elaborates on the control mechanisms for different climatic components, such as light, temperature, humidity, precipitation, and carbon dioxide. Chapter 7 discusses the important aspects of cultivation and special methods of crop husbandry which are essential for greenhouse cultivation. These include crop selection, bed preparation, fertilizer application, irrigation, canopy management, training and pruning, and pest management. Chapter 8 is the last chapter, and it provides some tips for the cultivation of a few important crops which are generally deemed suitable for the greenhouse.
A current and invaluable source for agricultural scientists, researchers, vegetable growers and professional entrepreneurs enabling them to understand the fundamentals of greenhouse technology applicable to vegetable production, crop drying, poultry farms, space heating etc. Imparts systematic information about the historical background, importance and reviews work in a global perspective. It provides design, construction, instrumentation and error analysis in greenhouse. The basic tools like knowledge of solar energy, solar fraction and heat transfer has also been elaborated upon, as well as different heating / cooling concepts used to control a favorable environment condition inside greenhouses, including information on constituents of inside environment, root media, various crop production, thermal modeling, energy analysis and economic aspects of greenhouse technology.
Translation of the second ed.: Invernaderos de plaastico: tecnologaia y manejo.
Greenhouses are framed or inflated structures, covered with transparent or translucent material in which crops are grown. Greenhouse cultivation and other models of environment cultivation have been evolved to create favourable micro-climates under which crop production is made possible. Greenhouse food production provides forward movement with a greater degree of environment control. It presents the ultimate in intensive agriculture considering three major factors: land; labour; and capital.
Green Manufacturing: Fundamentals and Applications introduces the basic definitions and issues surrounding green manufacturing at the process,machine and system (including supply chain) levels. It also shows, by way of several examples from different industry sectors, the potential for substantial improvement and the paths to achieve the improvement. Additionally, this book discusses regulatory and government motivations for green manufacturing and outlines the path for making manufacturing more green as well as making production more sustainable. This book also: Discusses new engineering approaches for manufacturing and provides a path from traditional manufacturing to green manufacturing Addresses regulatory and economic issues surrounding green manufacturing Details new supply chains that need to be in place before going green Includes state-of-the-art case studies in the areas of automotive, semiconductor and medical areas as well as in the supply chain and packaging areas
A greenhouse provides an essential means of livelihood to its owner and must be economically practical for the particular climate in which it stands. Greenhouses: Advanced Technology for Protected Horticulture addresses the major environmental factors of light, temperature, water, nutrition, and carbon dioxide, and features extensive discussions of greenhouse types, construction, and climate control. The book highlights technology such as hydroponics, computer control of environments, and advanced mathematical procedures for environmental optimization. Greenhouses: Advanced Technology for Protected Horticulture is the definitive text/reference for the science of greenhouse engineering and management. The author Dr. Joe J. Hanan, Professor Emeritus of Colorado State University, is the recipient of the Society of American Florists' (SAF) 2000 (Millenium) Alex Laurie Award for Research and Education. The Alex Laurie Award is presented annually to an individual who has made broad-scope, long-lasting contributions to the floriculture industry through research or education. The award is named for Alex Laurie, a professor at The Ohio State University, who pioneered work in many areas of floriculture. "Joe is one of the most precise floricultural researchers I have known," said Dr. Gus De Hertogh, Chairman of SAF's Research Committee. "That excellence is reflected in his latest book, Greenhouses, Advanced Technology for Protected Horticulture, which was published in 1998, nine years after his official 'retirement.'"
This book is for both teachers and students of universities and colleges who are working on, or are interested in, the subject of 'Greenhouse Technology', or in dealing with subjects related to crop science. This book also targets researchers, extension workers and individual entrepreneurs to provide a clear and handy idea about greenhouse technology. The book is divided into 8 chapters. Chapter 1 contains the introduction, which elaborates on the reason and necessity of cultivation under greenhouse, the definition of greenhouse, and the history and present scenario of greenhouse cultivation. Chapter 2 narrates the meaning of greenhouse technology, the planning of greenhouse, the subjects involved in it, the fundamental points which are required to be understood for different climatic situations and the purpose of a greenhouse. Chapter 3 deals with the importance of different climatic and non-climatic factors in selecting proper greenhouse technology.
Biochar: Fundamentals and Applications in Environmental Science and Remediation Technologies, Volume Six provides readers with the fundamentals of scientific and technological aspects of biochar application in stormwater treatment, its use in contaminant removal, greenhouse gas mitigation, as landfill cover material, and new environmental and agronomic applications. Chapters in this new release cover Biochar application for soil remediation in a redox-sensitive environment, Remediation of heavy metal contaminated soil: Role of biochar, Role of biochar as a cover material in Landfill waste disposal system- Perspective from Unsaturated soil mechanics, Biochar in soil re-engineering, Green remediation of contaminated agricultural land using biochar, and more. Additional chapters cover the Impact of biochars on redox processes in soils, Biochar for manipulation of manure properties, A relationship paradigm between biochar amendments and green house gas emissions, Biochar amalgamation with clay: Enhanced performance for environmental remediation, Functionalization of biochar using microbial consortia, and the Potential role of biochar to mitigate the negative impacts of climate change on water quality. - Provides up to-date information on the use of biochar for contaminant remediation, as landfill cover material, and as a tool for energy transition - Includes the aspect of biochar's use in mitigating impacts of climate change and how manure properties can be altered through biochar addition - Covers the role of microbial consortia on biochar functionalization
The aim of this book is to open up research areas in automatic control engineering for crop production systems in horticulture and agriculture, and to explain the principle ideas of advanced automatic control in plant production. The text includes detailed discussions of: - Fundamental systems engineering concepts - Modeling - Control for agricultural systems - Optimal control and its applications - Artificial intelligence for agricultural applications.