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Books on the topic 'Carbone Inc'

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Published: 29 July 2024
Last updated: 30 July 2024

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1

Veit, Görner, Lower Saxony (Germany). Ministerium für Wissenschaft und Kultur, and CFK-Forschungszentrum Nord, eds. Carbon art. Drochtersen: MCE Verlagsgesellschaft, 2011.

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2

Wilcox, Jennifer. Carbon Capture. Boston, MA: Springer US, 2012.

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3

I, Gizyn W. Phytotoxicology 1996 investigation: UCAR Carbon Canada Incorporated, Welland : report. [Toronto]: Ontario Ministry of the Environment, 1998.

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4

Bo, Riemann, and Søndergaard Morten, eds. Carbon dynamics in eutrophic, temperate lakes. Amsterdam, Netherlands: Elsevier Science Publishers, 1986.

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5

P, Mathi, and Bhabha Atomic Research Centre, eds. Feasibility on macroscopic separation of carbon isotopes by IR laser chemistry: A technical report. Mumbai: Bhabha Atomic Research Centre, 2007.

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6

1922-, Watanabe Nobuatsu, ed. Graphite fluorides and carbon-fluorine compounds. Boca Raton: CRC Press, 1991.

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7

Rehkopf, Jackie D. Automotive carbon fiber composites: From evolution to implementation. Warrendale, Pa: SAE International, 2012.

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8

R, Ehleringer J., Hall A. E. 1940-, and Farquhar Graham D, eds. Stable isotopes and plant carbon/water relations. San Diego: Academic Press, 1993.

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9

Lasankin, Serey. Carbon neutralization of steelmaking, energy and cement industries. Silhouettes of the carbon-neutral industry. ru: INFRA-M Academic Publishing LLC., 2024. http://dx.doi.org/10.12737/2122427.

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The monograph examines the ROLL technology that allows solving the climate problem in the steelmaking, energy and cement industries. We are not talking about the exclusion of carbon from the technological process, but about the neutralization of the resulting carbon dioxide. ROLL technology is based on the idea of producing several products from a single heating of raw materials, and the main tools are universal ROLL chambers that bring allied productions closer together in time and space. This reduces the energy intensity of the total product and directs the saved and produced energy to neutralize carbon dioxide. It is intended for scientific and engineering workers, teachers, graduate students and students interested in this problem.
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10

American Welding Society. Committee on Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) shielded metal arc welding of carbon steel: (M-1/P-1, group 1 or 2), 3/16 through 3/4 inch, in the as-welded condition, with backing. Miami, Fla: American Welding Society, 1990.

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11

National Institute for Occupational Safety and Health. New Hampshire Ball Bearing [sic], Astro Division, Laconia, New Hampshire. [Atlanta, Ga.?]: U.S. Dept. of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, 1996.

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12

American Welding Society. Committee on Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) gas tungsten arc welding of carbon steel: (M-1/P-1, group 1 or 2), 3/16 through 7/8 inch, in the as-welded condition, with or without backing. Miami, Fla: American Welding Society, 1990.

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13

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) shielded metal arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 1-1/2 inch thick, E7018, as-welded or PWHT condition. Miami, FL: American Welding Society, 1994.

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14

American Welding Society. Committee on Welding qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) shielded metal arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 1-1/2 inch thick, E6010 as-welded or PWHT condition. Miami, FL: American Welding Society, 1994.

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15

​​​​​​​Federal'noe, gosudarstvennoe, and Aleksandr Lukanin. Greenhouse gases: utilization using biotechnological plants. ru: INFRA-M Academic Publishing LLC., 2023. http://dx.doi.org/10.12737/1915812.

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The monograph shows the possibilities of using biotechnologies and wastewater treatment plants for the capture and disposal of carbon dioxide and methane. The variants of the application of physico-chemical, including flotation, wastewater treatment technologies for the capture and utilization of carbon dioxide and methane, as well as the processes of growing microalgae, for which carbon dioxide is a substrate, are analyzed. Examples are given of the use of carbon dioxide utilization in the cultivation of microalgae and methane in various areas of its application, including for the production of biomass of methane-oxidizing bacteria, as well as examples of hardware design of the processes of carbon dioxide and methane capture and utilization, for example, using special equipment. It is intended for researchers, university teachers, postgraduates, undergraduates, bachelors, undergraduates and anyone interested in environmental issues.
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16

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) for shielded metal arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 3/4 inch thick, E6010 (vertical uphill), as-welded condition, primarily pipe applications. Miami, FL: American Welding Society, 1996.

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17

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) shielded metal arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 1-1/2 inch thick, E6010 (vertical downhill) followed by E7018 as-welded or PWHT condition. Miami, FL: American Welding Society, 1994.

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18

IARC Working Group on the Evaluation of Carcinogenic Risks to Humans. Printing processes and printing inks, carbon black and some nitro compounds. [Geneva?]: International Agency for Research on Cancer, 1996.

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19

AWS Committee on Procedure and Performance Qualification. Standard welding procedure specification (WPS) self-shielded flux cored arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2), 1/8 through 3/4 inch thick, E71T-11, as-welded condition. Miami, Fla: American Welding Society, 1995.

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20

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) for shielded metal arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 3/4 inch thick, E6010 (vertical downhill root with the balance vertical uphill), as-welded condition, primarily pipe applications. Miami, FL: American Welding Society, 1996.

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21

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) for shielded metal arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 3/4 inch thick, E6010 (vertical downhill) followed by E7018 (vertical uphill), as-welded condition, primarily pipe applications. Miami, FL: American Welding Society, 1996.

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22

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) for shielded metal arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 3/4 inch thick, E6010 (vertical uphill) followed by E7018 (vertical uphill), as-welded condition, primarily pipe applications. Miami, FL: American Welding Society, 1996.

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23

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) for gas tungsten arc welding with consumable inserts of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 1-1/2 inch thick, INMs-1 and ER70S-2, as-welded or PWHT condition, primarily pipe applications. Miami, FL: American Welding Society, 1996.

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24

Sylvain, David C. Cincinnati Sportsmedicine and Orthopaedic Center, Cincinnati, Ohio. [Atlanta, Ga.?]: U.S. Dept. of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, 1997.

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25

Sylvain, David C. Cincinnati Sportsmedicine and Orthopaedic Center, Cincinnati, Ohio. [Atlanta, Ga.?]: U.S. Dept. of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, 1997.

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26

Sylvain, David C. Cincinnati Sportsmedicine and Orthopaedic Center, Cincinnati, Ohio. [Atlanta, Ga.?]: U.S. Dept. of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, 1997.

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27

Gruhlke, James M. Estimates of the quantities, form, and transport of carbon-14 in low-level radioactive waste. Washington, DC: U.S. Environmental Protection Agency, Office of Radiation Programs, Analysis and Support Division, 1986.

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28

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) self-shielded flux cored arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2), 1/8 through 1-1/2 inch thick, E71T-8, as-welded condition. Miami, FL: American Welding Society, 1994.

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29

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) COb2s shielded flux cored arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 1-1/2 inch thick, E70T-1 and E71T-1, as-welded condition. Miami, FL: American Welding Society, 1994.

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30

Faulkner, William. As I lay dying: Holograph manuscript and carbon typescript. New York: Garland Pub., 1987.

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31

A, Cifuentes L., Elderidge P. M, and United States. Environmental Protection Agency, eds. The use of stable carbon isotopes to study microbial processes in estuaries. [Washington, D.C.?: U.S. Environmental Protection Agency, 1994.

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32

Alberto, Cifuentes Luis, Elderidge P. M, and United States. Environmental Protection Agency, eds. The use of stable carbon isotopes to study microbial processes in estuaries. [Washington, D.C.?: U.S. Environmental Protection Agency, 1994.

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33

American Welding Society. Committee on Welding Qualification. and American Welding Society. Technical Activities Committee., eds. Standard welding procedure specification (WPS) 75% Ar/25% CO shielded flux cored arc welding of carbon steel: (M-1/P-1/S-1, Group 1 or 2) 1/8 through 1-1/2 inch thick, E70T-1 and E71T-1 as-welded or PWHT condition. Miami, FL: American Welding Society, 1994.

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34

Smulders, Sjak. Green taxes and administrative costs: The case of carbon taxation. Cambridge, MA: National Bureau of Economic Research, 1999.

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35

Berner, Robert A. The Phanerozoic Carbon Cycle. Oxford University Press, 2004. http://dx.doi.org/10.1093/oso/9780195173338.001.0001.

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The term "carbon cycle" is normally thought to mean those processes that govern the present-day transfer of carbon between life, the atmosphere, and the oceans. This book describes another carbon cycle, one which operates over millions of years and involves the transfer of carbon between rocks and the combination of life, the atmosphere, and the oceans. The weathering of silicate and carbonate rocks and ancient sedimentary organic matter (including recent, large-scale human-induced burning of fossil fuels), the burial of organic matter and carbonate minerals in sediments, and volcanic degassing of carbon dioxide contribute to this cycle. In The Phanerozoic Carbon Cycle, Robert Berner shows how carbon cycle models can be used to calculate levels of atmospheric CO2 and O2 over Phanerozoic time, the past 550 million years, and how results compare with independent methods. His analysis has implications for such disparate subjects as the evolution of land plants, the presence of giant ancient insects, the role of tectonics in paleoclimate, and the current debate over global warming and greenhouse gases
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36

Hartemink, Alfred E., and Kevin McSweeney. Soil Carbon. Springer, 2016.

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37

Ltd, ICON Group. CARBIDE/GRAPHITE GROUP, INC. (THE): Labor Productivity Benchmarks and International Gap Analysis. 2nd ed. Icon Group International, Inc., 2000.

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38

Wilcox, Jennifer. Carbon Capture. Springer, 2014.

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39

Wilcox, Jennifer. Carbon Capture. Springer, 2012.

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40

Hartemink, Alfred E., and Kevin McSweeney. Soil Carbon. Springer, 2014.

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41

Soil Carbon. Springer, 2014.

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42

Ltd, ICON Group. NIPPON CARBIDE INDUSTRIES CO., INC.: International Competitive Benchmarks and Financial Gap Analysis (Financial Performance Series). 2nd ed. Icon Group International, 2000.

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43

Ltd, ICON Group. NIPPON CARBIDE INDUSTRIES CO., INC.: Labor Productivity Benchmarks and International Gap Analysis (Labor Productivity Series). 2nd ed. Icon Group International, 2000.

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44

Caletrio, Javier, ed. Low-Carbon Birding. Pelagic Publishing, 2022. http://dx.doi.org/10.53061/epea5466.

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Birdwatching in Britain has grown increasingly dependent on burning fossil fuels. Regularly driving long distances to birding hotspots and frequent flying to see exotic species are seen as perfectly normal. In the face of the climate crisis, however, a growing number of birders are reassessing the way they enjoy and study birds. In this timely book, 30 contributors—from young birdwatchers to professional ornithologists—explain why and how they are shifting to climate-friendlier approaches. Low-carbon birding, they argue, is a legitimate and valuable way of enjoying birds. Furthermore, in itself this can bring many joys, some of them unexpected. From first encounters with hawfinches to focusing in on birdsong, from the Kalahari to the Hebrides, the stories told here are not about heroic efforts to save the planet. They are simply accounts of everyday humanity in unprecedented times—ordinary people with doubts and concerns about how to live a decent life and act responsibly in a rapidly warming world. The authenticity of their voices is a testament to the moment of awakening to the climate crisis in British ornithology. Above all, Low-Carbon Birding is an urgent call for birders to leave a better legacy in the skies and across the living world.
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45

Cook, Peter, ed. Geologically Storing Carbon. CSIRO Publishing, 2014. http://dx.doi.org/10.1071/9781486302314.

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Carbon capture and geological storage (CCS) is presently the only way that we can make deep cuts in emissions from fossil fuel-based, large-scale sources of CO2 such as power stations and industrial plants. But if this technology is to be acceptable to the community, it is essential that it is credibly demonstrated by world-class scientists and engineers in an open and transparent manner at a commercially significant scale. The aim of the Otway Project was to do just this. Geologically Storing Carbon provides a detailed account of the CO2CRC Otway Project, one of the most comprehensive demonstrations of the deep geological storage or geosequestration of carbon dioxide undertaken anywhere. This book of 18 comprehensive chapters written by leading experts in the field is concerned with outstanding science, but it is not just a collection of scientific papers – it is about 'learning by doing'. For example, it explains how the project was organised, managed, funded and constructed, as well as the approach taken to community issues, regulations and approvals. It also describes how to understand the site: Are the rocks mechanically suitable? Will the CO2 leak? Is there enough storage capacity? Is monitoring effective? This is the book for geologists, engineers, regulators, project developers, industry, communities or anyone who wants to better understand how a carbon storage project really 'works'. It is also for people concerned with obtaining an in-depth appreciation of one of the key technology options for decreasing greenhouse emissions to the atmosphere.
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46

Sigel, Helmut, Astrid Sigel, and Roland K. O. Sigel. Metal-Carbon Bonds in Enzymes and Cofactors. de Gruyter GmbH, Walter, 2015.

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47

Sigel, Helmut, Astrid Sigel, and Roland K. O. Sigel. Metal-Carbon Bonds in Enzymes and Cofactors. de Gruyter GmbH, Walter, 2015.

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48

Sheppard, Charles. 8. Climate change and reefs. Oxford University Press, 2014. http://dx.doi.org/10.1093/actrade/9780199682775.003.0008.

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Reefs are more affected by the damaging consequences of climate change than any other ecosystem. ‘Climate change and reefs’ illustrates how the impacts of climate change add on to, and synergistically multiply, the harmful effects of local disease and pollution. Warming of the seas and an increase of intense light overload the photosynthetic mechanism and symbiotic algae die. When these are expelled, the coral appears bleached and may die if conditions continue. The increase of carbon dioxide in the atmosphere also leads to acidification of the oceans, which reduces the amount of carbonate available to corals for limestone deposition. Severely damaged or destroyed reefs will erode, which means they can no longer act as breakwaters for island communities.
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49

Wolf, E. L. Sustainable Energy Beyond Carbon. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0002.

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Energy from the Sun leads to direct heating of the Earth, and also to secondary forms of energy in winds, waves and hydroelectricity. Long-term energy resources in the Earth and its motions include tides, geothermal energy, fission fuels, and in deuterium that may potentially be used to power nuclear fusion reactors. We are interested in energy sources that will last on a time scale of thousands of years, and further, that will not interfere with other important aspects of life on Earth, such as clean air and water in abundant supply. Plants grew by photosynthesis starting in the carboniferous era, about 300 million years ago, and the decay of some of these, instead of oxidizing back into the atmosphere, occurred underground in oxygen-free zones.
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50

Araújo, Kathleen. Low Carbon Energy Transitions. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199362554.001.0001.

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The world is at a pivotal crossroad in energy choices. There is a strong sense that our use of energy must be more sustainable. Moreover, many also broadly agree that a way must be found to rely increasingly on lower carbon energy sources. However, no single or clear solution exists on the means to carry out such a shift at either a national or international level. Traditional energy planning (when done) has revolved around limited cost projections that often fail to take longer term evidence and interactions of a wider set of factors into account. The good news is that evidence does exist on such change in case studies of different nations shifting toward low-carbon energy approaches. In fact, such shifts can occur quite quickly at times, alongside industrial and societal advance, innovation, and policy learning. These types of insights will be important for informing energy debates and decision-making going forward. Low Carbon Energy Transitions: Turning Points in National Policy and Innovation takes an in-depth look at four energy transitions that have occurred since the global oil crisis of 1973: Brazilian biofuels, Danish wind power, French nuclear power, and Icelandic geothermal energy. With these cases, Dr. Araújo argues that significant nationwide shifts to low-carbon energy can occur in under fifteen years, and that technological complexity is not necessarily a major impediment to such shifts. Dr. Araújo draws on more than five years of research, and interviews with over 120 different scientists, government workers, academics, and members of civil society in completing this study. Low Carbon Energy Transitions is written for for professionals in energy, the environment and policy as well as for students and citizens who are interested in critical decisions about energy sustainability. Technology briefings are provided for each of the major technologies in this book, so that scientific and non-scientific readers can engage in more even discussions about the choices that are involved.
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