Logistics and operations of the organization
Recently, San Diego Gas & Electric adopted renewable facilities eligible for designing and implementing accounting systems of tracking and verifying compliance. The new facilities are authorized to develop procurement rules and provide oversight of activities across different forms of energy production. Further, it administers payment of incentives for different market costs across all sections of renewable energy. Since the adoption of the renewable facilities, San Diego Gas & Electric has conducted a variety of renewable solicitations of energy. These solicitations were competitive encompassing bilateral negotiations and an all source solicitation. Such high-profile negotiations championed the signing of more contracts based on existing and new renewable energy projects (Ferrey, 2010).
Levels of employment among the various forms of energy production
San Diego Gas & Electric operates through issuing contracts. The company enters into standard contracts with different winning bidders across various forms of energy production. They select the best contractors based on least costly projects after which they give a full subscription to the allocated capacity of the auction. San Diego Gas & Electric believes that they cannot enter into a contract if the bids prove to be uncompetitive or if they suspect market manipulation. This is followed by a written explanation of rejecting the specified contract (Schneider, Rosencranz & Niles, 2002).
Ethical and social responsibilities of waste and by-product disposal
Technologies of solar energy produces electricity without necessarily causing water and air pollution. Technologies of thermal solar energy are based on cooling water, which most of it can be recycled. In the manufacturing of electricity and energy, only a small percentage of hazardous waste and bi-products are produced. Reports indicate that San Diego Gas & Electric systems of creating electricity do not generate solid waste. Their manufacturing procedures generate minimal amounts of hazardous bi-products and waste such as cadmium and arsenic. These are properly disposed thus avoiding human and environmental harm. Similarly, San Diego Gas & Electric plants do not generate solid waste in the process of generating electricity, unlike the production and construction of plant facilities, which produces small proportions of hazardous waste (Schneider, Rosencranz & Niles, 2002).
Describe changes and effects of transitional demographics within the energy sector
For millenniums, sun, water, wood and wind power have been used for purposes of milling, heating and cooking. The 18th and 19th century industrial revolutions replaced the above energy forms with fossil fuels including petroleum and coal. At various levels of industrialization, the energy sector transformed from using fuel reserves and focused on renewable energy sources. This is because players in this industry believed that fuel reserves would soon be exhausted. This prompted the industry to conduct experiments with solid wood, methanol gas, liquid bio-fuels and solar steam. The industry has re-focused attention on renewable sources of energy, not because of issues of depletion of fossil fuels, but rather due to apprehension over global warming and acid rain from the increasing carbon dioxide accumulation in the atmosphere. Therefore, many environmentalists and scientists are advocating for the global switch to renewable sources of energy derived from the sun (Hoffmann & Dorgan, 2012).
Employ longevity strategies to uphold profit margins
San Diego Gas & Electric energy has obtained renewable energy contracts based on commitments of purchasing advanced 300 MW. This project comes with new developments of Wind projects, expected to be completed by the end of 2013 spanning on 5,200 acres. The company is developing a photovoltaic solar unit projected to generate 200 MW online by the end of 2013. The company is on its way up to meeting their initial goal of 44% of their power derived from renewable sources (Hoffmann & Dorgan, 2012).
Ferrey, S. (2010). Unlocking the global warming toolbox: Key choices for carbon restriction and sequestration. Tulsa, Okla: PennWell.
Hoffmann, P., & Dorgan, L. (2012). Tomorrow’s energy: Hydrogen, fuel cells, and the prospects for a cleaner planet. Cambridge, Mass: MIT Press.
Schneider, H., Rosencranz, A., & Niles, O. (2002). Climate change policy: A survey. Washington, DC: Island Press.