Avances al estudio de impacto ambiental del proyecto de aprovechamiento integral de recursos naturales “Mar de Trafalgar”

A. Bejarano

doi:10.3989/ic.2006.v58.i504.313

Authors

A. Bejarano Director Técnico de la Delegación Andalucía de TECNOAMBIENTE. Pueblo marinero de Puerto Sherry. El Puerto de Santa María, Cádiz (España).

DOI:

https://doi.org/10.3989/ic.2006.v58.i504.313

Keywords:

environmental impact assessment, environmentally friendly, aeolian, aquaculture, offshore

Abstract

The project “Sea of Trafalgar” was conceived with the objective to take advantage of the natural resources the gulf of Cadiz, of a clean, sustainable form and with little or null environmental repercussion, settling down as it bases of the mentioned development the advantage of the enormous aeolian potential that displays the areas that they surround to the Straight of Gibraltar bounded to offshore electrical wind generation were considered in parallel way, other vectors of development, being the impulse of a modern aquaculture in open sea and the regeneration of the traditional places for casting fishing-nets were the best alternatives selected to profit the excellent bioclimatic conditions of the gulf of Cadiz. The group of all this considerations in a single performance does that the project “Sea of Trafalgar” appears to the vanguard of the present technological development, not telling on any type of referring to European nor world-wide level.

Downloads

Download data is not yet available.

References

(1) Hanna, A.; Senouci, A.: ‘’Material cost minimization of concrete wall forms’’. Building and Environment. Vol. 32, nº. 1 (1997), pp. 57-67. doi:10.1016/S0360-1323(96)00037-6

(2) Arslan, M.: ‘’Effects of drainer formworks on concrete lateral pressure’’. Construction and Building Materials. Vol. 16, Nº 5 (2002), pp. 253-259. doi:10.1016/S0950-0618(02)00025-9

(3) Andriamanantsilavo, N. R. y Amziane, S.: ‘’Maturation of fresh cement paste within 1 to 10 m large formworks’’. Cement and Concrete Research. Vol. 34, nº 11 (2004), pp. 2.141-2.152.

(4) Arslan, M., Simsek, O. y Subasi, S.: ‘’Effects of formwork surface materials on concrete lateral pressure’’. Construction and Building Materials. Vol. 19, nº 4 (2005), pp. 319-325. doi:10.1016/j.conbuildmat.2004.07.007

(5) DIN (1980).: ‘’Norma DIN-18218. Frishbeton auf lotrechte pressure of concrete on vertical formwork’’. Berlin: Deutsches Institut für Normung.

(6) CIRIA (1985).: ‘’Concrete pressure on formwork’’, CIRIA Report 108. London: Construction Industry Research and Information Association.

(7) ACI (2004).: ‘’Norma ACI 347-04. Guide to Formwork for Concrete’’. Farmington Hills: American Concrete Institute.

(8) Gallego et al.: ‘’Determinación de las presiones ejercidas por el hormigón fresco en encofrados de gran altura’’. Ingeniería Civil, nº 142 (2006), pp. 101-108.

(9) Tattersall, G.H.: ‘’The Workability of Concrete’’. A Viewpoint Publication (1976). PCA.

(10) Ferraris, C.F. y de Larrard, F.: ‘’Testing and modeling of fresh concrete rheology’’. Gaithersburg, Maryland: NISTIR 6094. Building and Fire Research Laboratory (1998).

(11) Drucker, D.C. and Prager, W.: ‘’Soil Mechanics and Plastic Analysis or Limit Design’’. Quart. Appl. Math. Vol. 10, nº 2. (1952), pp. 157-165.

(12) ANSYS: ‘’ANSYS User’s Manual. Version: 8.1’’ (2004). Houston: Swanson Analysis Systems, Inc.

(13) Chen, W.F. y E. Mizuno.: ‘’Nonlinear Analysis in Soil Mechanics’’. Amsterdam: Elsevier Science (1990).

(14) L’Hermite, R.: ‘’Vibration and the rheology of freshly mixed concrete’’. Revue des Materiaux de Construction, nº 405 (1949), pp. 179-187.

(15) Ritchie, A.: ‘’The traixial testing of fresh concrete’’. Magazine of concrete Research. Vol. 14, nº 40 (1962), pp. 37-41.

(16) Olsen, R.H.: ‘’Lateral pressure of concrete on formwork’’. PhD Thesis (1968) Oklahoma State University.

(17) Alexandridis, A. y Gardner, NJ.: ‘’Mechanical behavior of fresh concrete’’. Cement & Concrete Research. Vol. 11, nº 3. (1981), pp. 323-339. doi:10.1016/0008-8846(81)90105-8

(18) Djelal, C., Vanhove, Y. y Magnin, A.: ‘’Tribological behaviour of self compacting concrete’’. Cement and Concrete Research. Vol. 34, nº 5 (2004), pp. 821-828. doi:10.1016/j.cemconres.2003.09.013

(19) Vanhove, Y., Djelal, C., Magnin, A.: ‘’A device for studying fresh concrete friction’’. Cement Concrete & Aggregates. Vol. 26, nº 2 (2005), pp. 35-41.