Books on the topic 'Chemical and physicochemical properties of groundwater'

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1

N, Marsh K., and International Union of Pure and Applied Chemistry., eds. Recommended reference materials for the realization of physicochemical properties. Oxford [Oxfordshire]: Blackwell Scientific Publications, 1987.

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2

1953-, Nnanna Ifendu A., and Xia Jiding 1921-, eds. Protein-based surfactants: Synthesis, physicochemical properties, and applications. New York: Marcel Dekker, 2001.

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3

Thiros, Susan A. Chemical composition of ground water, hydrologic properties of basin-fill material, and ground-water movement in Salt Lake Valley, Utah. Salt Lake City, Utah: Utah, Dept. of Natural Resources, Division of Water Rights, 1995.

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4

Boichenko, Sergii, Olufemi Olaulava Babatunde, Petro Topіl'nic'kii, and Vіktorіya Romanchuk. Physical and chemical properties of Nigerian oils and prospective technological scheme of their proccesing. Київ, Україна: Національний технічний університет України «Київський політехнічний інститут імені Ігоря Сікорського», 2021. http://dx.doi.org/10.20535/978-966-919-783-2.

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The current state of the oil refining industry in Nigeria, its problems and prospects are considered.The presented results of studies of the physicochemical properties of Nigerian oils, as well as gasoline,diesel fractions, jet fuel and fuel oil fractions obtained from them are compared with those obtained for oils from the eastern and western regions of Ukraine. Processing methods of fuel oils from Nigerian oils are presented with the aim of bitumen and base oils production. A promising technologicalscheme for the processing of Nigerian oils is proposed.
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5

San Antonio Water System (Tex.) and Geological Survey (U.S.), eds. Lithologic and physicochemical properties and hydraulics of flow in and near the freshwater/saline-water transition zone, San Antonio segment of the Edwards Aquifer, south-central Texas, based on water-level and borehole geophysical log data, 1999-2007. Reston, Va: U.S. Dept. of the Interior, U.S. Geological Survey, 2010.

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6

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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7

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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8

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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9

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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10

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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11

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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12

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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13

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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14

Davis, Eva L. How heat can enhance in-situ soil and aquifer remediation: Important chemical properties and guidance on choosing the appropriate technique. [Washington, DC]: U.S. Environmental Protection Agency, Office of Research and Development, Office of Solid Waste and Emergency Response, 1997.

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15

Davis, Eva L. Ground water issue: How heat can enhance in-situ soil and aquifer remediation: important chemical properties and guidance on choosing the appropriate technique. [Cincinnati, Ohio]: U.S. Environmental Protection Agency, Center for Environmental Research Information, 1997.

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16

D, Klemm, ed. Comprehensive cellulose chemistry. Weinheim: Wiley-VCH, 1998.

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17

D, Klemm, ed. Comprehensive cellulose chemistry. Weinheim: Wiley-VCH, 1998.

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18

Andriyanova, Mariya, Aslanli Aslanli, Nataliya Basova, Viktor Bykov, Sergey Varfolomeev, Konstantin Gorbunov, Valentin Gorelenkov, et al. ORGANOPHOSPHORUS NEUROTOXINS. ru: Publishing Center RIOR, 2020. http://dx.doi.org/10.29039/02026-5.

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The collective monograph is devoted to discussing the history of creation, studying the properties, neutralizing and using organophosphorus neurotoxins, which include chemical warfare agents, agricultural crop protection chemical agents (herbicides and insecticides) and medicines. The monograph summarizes the results of current scientific research and new prospects for the development of this field of knowledge in the 21st century, including the use of modern physicochemical methods for experimental study and theoretical analysis of biocatalysis and its mechanisms based on molecular modeling with supercomputer power. The book is intended for specialists who are interested in the current state of research in the field of organophosphorus neurotoxins. The monograph will be useful for students, graduate students, researchers specializing in the field of physical chemistry, physicochemical biology, chemical enzymology, toxicology, biochemistry, molecular biology and genetics, biotechnology, nanotechnology and biomedicine.
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19

Xia, Jiding. Protein-Based Surfactants : Synthesis: Physicochemical Properties, and Applications. Taylor & Francis Group, 2001.

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20

Xia, Jiding. Protein-Based Surfactants : Synthesis: Physicochemical Properties, and Applications. Taylor & Francis Group, 2001.

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21

Klemm, Dieter, Bertram Philipp, Ute Heinze, W. Wagenknecht, and Thomas Heinze. Comprehensive Cellulose Chemistry, Functionalization of Cellulose. Wiley-VCH, 1998.

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22

Philipp, Burkart, Dieter Klemm, Ute Heinze, Peter Zugenmaier, and Thomas Heinze. Comprehensive Cellulose Chemistry. Wiley & Sons, Incorporated, John, 2009.

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23

Shvaika, Oles, and Mykola Korotkikh. The Principles of Chemistry of Heterocyclic Compounds. PH “Akademperiodyka”, 2020. http://dx.doi.org/10.15407/akademperiodyka.415.194.

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This first of its kind Ukrainian manual on the chemistry of heterocyclic compounds sets out the basics of the chemistry of heterocyclic compounds: the most important classes, methods of synthesis, physicochemical properties and chemical reactions. For the first time in the manual on the chemistry of heterocyclic compounds, the problem of the cyclic state of a chemical substance is outlined, separate sections are devoted to ionic, radical and carbene states of these substances. For students of chemical specialties of universities, as well as graduate students, teachers and researchers.
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24

Maysinger, Dusica, P. Kujawa, and Jasmina Lovrić. Nanoparticles in medicine. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.14.

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This article examines the applications of nanoparticles in medicine. Nanomedicine is a promising field that can make available different nanosystems whose novel, usually size-dependent, physical, chemical and/or biological properties are exploited to combat the disease of interest. One kind of particulate systems represents a vast array of either metallic,semiconductor, polymeric, protein or lipid nanoparticles that can be exploited for diagnosis and treatment of various diseases. This article first provides an overview of general issues related to physicochemical and biological properties of different nanoparticles. It then considers the current problems associated with the use of nanoparticles in medicine and suggests some solutions. It also discusses the interaction of nanoparticles with cells and factors that determine these interactions and concludes with some examples of new approaches for real-time imaging of experimental animals that could be useful, complementary methods for evaluations of effectiveness (or toxicity) of novel nanomaterials andnanomedicines.
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