Transport global

Martin, D. J., and Michaelis. (1992). Research and Technology Strategy to Help Overcome the Environmental Problems in Relation to Transport Global Pollution Study. Luxembourg EEC. 

The relative development of the infrastructure to transport C02 is still in its early stages. This is reflected by the low number of existing infrastructures developed to transport C02 from stationary sources into geological structures. Table 1 provides an overview of the current developments for C02 transportation globally. /Ml of these examples have been developed in relation to the EOR technique, where the C02 source is found mainly in natural reserves. In Europe, only a few projects are in operation, but there are plans to deploy an extended C02 pipeline network along Europe to optimise C02 storage structures. 

Worldwatch Institute (2007). Biofuels for Transport Global Potential and Implications for Sustainable Agriculture and Energy in the 21st Century. Earthscan Publications, Ltd. 

Wassmann, R., Thein, U.G., Whiticar, M.J., Rennenberg, H., Seiler, W., and Junk, W.J. (1992) Methane emissions from the Amazon floodplain characterization of production and transport. Global Biogeochem. Cycles 6, 3-13. 

Wassmatm, R., U. G. Thein, M. J. Whiticar, H. Retmenbetg, W. Seiler, and W. J. Junk. 1992. "Methane emissions from the Amazon floodplain characterization of production and transport." Global Biogeochemical Cycles 6 3-13. 

The revolution of global energy system often bring us social shock, but the transfer from fossil system to the CO2 recycling system is sufficiently gradual system-transformation using hybrid systems. All the system can provide a liquid fuel transportable globally. 

World Watch Institute, Biofuels for Transport. Global Potential for Sustainable Energy and Transport, Earthscan, London, Sterling, 2007. 

For the other metals, Hg correlates with Zn, Pb and Cd at SC but not at CBL. Similarly, Hg did not correlate with other metals in Florida (30). The metals Cu, Ni and Cr are strongly correlated at both sites. Mercury, which is transported globally, also likely has a two component signal from local sources -coal combustion emissions and waste (medical and municipal) incineration while Pb and Cd have their primary sources as waste incineration (P, II). The overall inter-relationships of Pb, Cd and Hg suggest that overall, in the city, Pb and Cd do have different sources. The metals Pb, Cd, Cu and Zn are well correlated at CBL (Table III). This suggests that the correlations found for Hg at SC reflect the urban sources and not the regional picture. 

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