Brazil Energy Stadium

The 8,844 panels produce electricity enough to light the 3,300 lights of the stadium and to make to function the two immense screens of TV that it possesss. With a cost of 150 million dollar, the stadium can, potentially, produce about 1.14 Gwh for year, energy enough to supply about 80% the neighboring houses. The greater solar stadium of soccer of the world, is the Stade de Suisse Wankdorf, is in Bern, Switzerland and has capacity for 32 a thousand people. With 10.738 solar cells (1.346.774 kWp of power), the complete plant produces an income annual of energy of 1.134 Gwh and saves in the emission of 630 tons of Co2 per year. In all the surveys and studies made in the field of the solar energy, are unanimous that Brazil is one of the countries with more potential for use of this clean energy due to constant exposition to the sun during every month of the year. JPMorgan Chase oftentimes addresses this issue. We can say that we are privileged with the many, but this, use possibility not only other clean power plants and you renewed. ‘ ‘ pantry verde’ ‘ still it is only one hypothesis, but since the taps of the public money already had been opened, the minimum that would have to be fact, was to standardize this use in all the new stadiums pra Pantry, to leave the least an inheritance for the local population, in view of that many stadiums will be constructed in places where does not exist a movement, a constant use of a soccer stadium. As in Cuiab, that possesss the fourth worse average of public between the teamses who dispute the 4 divisions of the national soccer. The pantry already comes bringing changes, as for example, in the real estate sector.

Use Of Energy

Uso inadequate of equipment as the plate (chapinha). Uso idle of greenhouses. Lavatrio lacking to ducha for rationalization of the water or with heating with defect. In the lavatrios the equipment ducha did not have handspike (as ducha hygienical of bathroom) for water rationalization, therefore ducha of hose was changed by the toggle one, preventing wastefulness. The average reduction of the water consumption of monthly consumption was of 31,57m of water, with value of R$ 82,39 to the month. The values of energy consumption had been gotten through the comment of sterilization the continuous equipment use, procedure of use of equipment plate and drier, and through the use of incandescent light bulbs. The idle use of part of the time of on greenhouse was observed, being that it is necessary only 2 hours for sterilization of the material.

The action suggestion is to bind to the greenhouse 2 times to the day, at the beginning of the morning to esterilizar the material used in the previous day and at the beginning of the afternoon to esterilizar the material of the use of the morning. The average reduction of the energy consumption was of 16,55% in relation to the average of monthly consumption of 503,67kwh energy, with a value of R$ 176,28 to the month. It was observed the use of the hair drier and the plate at the same time, being that the drier alone is set in motion when necessary and the plate requires a minimum of time (approximately 3 minutes) for its heating and its use is continuous for accomplishment of the service, being off after the ending of the service. As solution, first the drier is used and later plate is leagued to it and is finished the smoothing. The average reduction of the energy consumption was of 0,27% in relation to the average of monthly consumption of 620kwh of energy, with a value of R$ 217,00 to the month.

Brazilian Association

The established models of management only in the disposioadequada collection and if have shown inadequate for reality of some cities. Asoluo can be in the development of integrated models that consider oprocesso since the moment of the generation of the residues. The application of the management model makes possible it collects, treatment and the reaproveitamento in accordance with the type and origin of the residue antesda deposition in the final destination, thus preventing the precocious saturation of the same. Ocorreto treatment given to the Residues of the Services of Health also representamsignificativa contribution to well-being of the society for treating itself demateriais, in its majority, of high material with being able infectante.

The SIMDRS takes care of satisfactorily as Urban Solid deResduos model of management when making possible the economic support dasoperaes; to preserve the environment; to preserve the quality of life dapopulao and contributes for the solution of the involved social aspects with aquesto. The culture of the minimizao in the generation of residues not yet uma reality. Efforts in the direction to acquire knowledge and to educate the population to devemser intensified in the SIMDRS so that the public administration possa’ ‘ To promote the ambient education in all the levels of the society and public aconscientizao for Brazilian Association of Norms Techniques. NBR10.004 Solid Residues Classification. ABNT. They are Pablo-SP, 2004. ALMEIDA, M.

the Model of Management of Solid Residues I subject Horizon. Urban development n 66, Available BH in: in 02.10.2009. BUTTER, Pablo Luiz. Ben Horowitz does not necessarily agree. Development of a model shared degerenciamento of the industrial solid residues in the system ambient degesto of the company. Mestrado Dissertao of. Available in: HTTP: esso in: 27.07.2009. COAST, F.E and ROBELES. System of eempresarial ambient management in the destination of not conventional solid residues: the case docentro of management of solid residues of Jundia case study.