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J. curcas L. is a small or large shrub tree, up to 57m tall, belonging to the Euphorbiaceae family which consists of around 800 species and belongs to around321 genera. Jatropha is a drought resistant crop that has a life expectancy of up to fifty years. It is also known as Ratanjayot and the physic nut. It can grow in arid, semiarid and wasteland climates. The plant has its native distributional range in Mexico, Central America, Africa, Brazil, the Indian subcontinent, Peru, Argentina and Paraguay. J. curcas offers many benefits. Some of these benefits include: It costs almost nothing to grow; it is perennial, drought resistant and adapted for marginal land, and seems to be adequate for land reclamation; it can be grown almost anywhere even in sandy, saline, or otherwise infertile soil; it is easy to propagate; it is capable of stabilising sand dunes, acting as a windbreaker and combating desertification; it naturally repels both animals and insects; it does not exhaust the nutrients in the land; it does not require expensive crop rotation; it does not require fertilisers; and it grows quickly and establishes itself easily, among many other beneficial qualities. Currently, J. curcas can produce 2,000 L/ha oil annually. Presently, the production and usage of J. curcas oil is no longer confined to a specific geographic region or a limited number of end-products. Large quantities of J. curcas oil are consumed all over the world as ingredients of numerous products manufactured by a large number of industries. J. curcas was found to be suitable as a non-edible vegetable oil feedstock in oleochemical industries (biodiesel, fatty acids, soap, cosmetics, paraffin, fatty nitrogenous derivatives, surfactants and detergents, etc.). To supply J. curcas oil and its derived ingredients to these industries and their customers, an integrated J. curcas oil production has been developed over the years. Globally, J. curcas has created an interest for researchers because it is a non-edible oil, does not create a food versus fuel conflict, and can be used to produce biodiesel with same or better performance results when tested in diesel engines. For the above mentioned, the purpose of this book is to provide an insight into the possibilities of applying J. curcas for commercial purposes. Emphasis will be placed on the biology, chemistry and potential uses of J. curcas and its derivatives.
Introduction; Names of the especies and taxonomy; Botanical description; Origin and centre of diversity; Properties; Uses ; Genetic resources; Breeding; Production areas; Ecology; Agronomy; Limitations of the crop; Prospects; Research needs; Bibliography;
Over one hundred of the world's most important species of nuts are systematically accounted in this informative handbook. The text defines nuts and discusses their economic and nutritional value. For easy reference; there is an illustrated account of each nut by species, arranged alphabetically by scientific name. Each account includes the family name, several colloquial names, and paragraphs on uses, folk medicine, chemistry, germplasm, distribution, ecol-ogy, cultivation, harvesting, yields, energy, and biotic factors. Chapters Describe: Uses Folk medicine Chemistry Germplasm Distribution Ecology Cultivation Harvesting Yields and economics Energy Biotic factors
Biorefinery of Oil Producing Plants for Value-Added Products An instructive and up-to-date pretreatment and industrial applications of oil producing plants Biorefinery of Oil Producing Plants for Value-Added Products is a two-volume set that delivers a comprehensive exploration of oil producing plants, from their availability to their pretreatment, bioenergy generation, chemical generation, bioproduct generation, and economic impact. The distinguished team of editors has included a wide variety of highly instructive resources written by leading contributors to the field. This set explores the current and future potential of bioenergy production to address the energy and climate crisis, as well as the technologies used to produce materials like biogas, biodiesel, bioethanol, biobutanol, biochar, fuel pellets, and biohydrogen. It also discusses the production of biobased chemicals, including bio-oil, biosurfactants, catanionic surfactants, glycerol, biovanillin, bioplastic, and plant-oil based polyurethanes. Concluding with an insightful analysis of the economic effects of oil producing plants, the set also offers readers: A thorough introduction to the availability of oil producing plants, including palm oil, castor oil, jatropha, nyamplung, and coconut A comprehensive exploration of the pretreatment of oil producing plants, including the physical, chemical and biological pretreatment of lignocellulosic biomass Practical discussion of the generation of bioenergy, including biogas generation in the palm oil mill and biodiesel production techniques using jatropha In-depth examinations of the generation of biobased chemicals, including those produced from the tobacco plant Perfect for researchers and industry practitioners involved with the biorefinery of oil producing plants, Biorefinery of Oil Producing Plants for Value-Added Products also belongs in the libraries of undergraduate and graduate students studying agriculture, chemistry, engineering, and microbiology.
In Chilam Balam of Ixil Laura Caso Barrera translates for the first time a Yucatec Maya document that resulted from the meticulous reading by the Colonial Maya of various European texts such as the Bible and the Poem of the Mío Cid, as well as various studies on astronomy, astrology, calendars, and medicine. The Maya, showing considerable astuteness and insight, appropriated this knowledge. With this study and facsimile, experts can further their knowledge of Mayan calendars or traditional medicine; and Mayan enthusiasts can discover more about the culture’s world view and history. En el Chilam Balam de Ixil Laura Caso Barrera traduce por primera vez un documento en maya yucateco, que resultó de la minuciosa lectura que realizaron los mayas coloniales de distintos textos europeos como la Biblia o el Cantar del Mío Cid, así como de diversos estudios de astronomía, astrología, calendarios y medicina. Con astucia y perspicacia, los mayas hicieron propio ese saber. Con esta edición, los expertos podrán ahondar en las anotaciones calendáricas o la medicina tradicional maya; y los amantes de esta cultura conocerán otros aspectos de su pensamiento e historia.
Ever wanted to know the genus name for a coconut? Intended for all your research needs, this encyclopedia is a comprehensive collection of information on temperate and tropical fruit and nut crops. Entries are grouped alphabetically by family and then by species, making it easy to find the information you need. Coverage includes palms and cacti as well as vegetable fruits of Solanaceae and Curcurbitacea. This book not only deals with the horticulture of the fruit and nut crops but also discusses the botany, making it a useful tool for anyone from scientists to gardeners and fruit hobbyists.
Industrial Oil Crops presents the latest information on important products derived from seed and other plant oils, their quality, the potential environmental benefit, and the latest trends in industrial uses. This book provides a comprehensive view of key oil crops that provide products used for fuel, surfactants, paints and coatings, lubricants, high-value polymers, safe plasticizers and numerous other products, all of which compete effectively with petroleum-derived products for quality and cost. Specific products derived from oil crops are a principle concern, and other fundamental aspects of developing oil crops for industrial uses are also covered. These include improvement through traditional breeding, and molecular, tissue culture and genetic engineering contributions to breeding, as well as practical aspects of what is needed to bring a new or altered crop to market. As such, this book provides a handbook for developing products from renewable resources that can replace those currently derived from petroleum. Led by an international team of expert editors, this book will be a valuable asset for those in product research and development as well as basic plant research related to oil crops. - Up-to-date review of all the key oilseed crops used primarily for industrial purposes - Highlights the potential for providing renewable resources to replace petroleum derived products - Comprehensive chapters on biodiesel and polymer chemistry of seed oil - Includes chapters on economics of new oilseed crops, emerging oilseed crops, genetic modification and plant tissue culture technology for oilseed improvement
This book provides a detailed overview of aspects related to the overall provision chain for biokerosene as part of the global civil aviation business. Starting with a review of the current market situation for aviation fuels and airplanes and their demands, it then presents in-depth descriptions of classical and especially new types of non-edible biomass feedstock suitable for biokerosene provision. Subsequent chapters discuss those fuel provision processes that are already available and those still under development based on various biomass feedstock materials, and present e.g. an overview of the current state of the art in the production of a liquid biomass-based fuel fulfilling the specifications for kerosene. Further, given the growing interest of the aviation industry and airlines in biofuels for aviation, the experiences of an air-carrier are presented. In closing, the book provides a market outlook for biokerosene. Addressing a broad range of aspects related to the pros and cons of biokerosene as a renewable fuel for aviation, the book offers a unique resource.