In 2007, in Area Development's Corporate Survey, energy availability and costs rose to third among priority site selection factors, behind only highway accessibility and labor costs. Some 89 percent of surveyed corporations ranked energy factors as "important" or "very important." This speaks to the heightened energy sensitivity of emerging industries, as well as some pervasive trends like rising energy costs and limitations of energy availability.
The rise of this issue in the corporate survey is significant for a number of reasons:
• Energy is a primary driver of the economy. Energy concerns of general consumers are paralleled by the rising importance of energy in national policy. Renewable energy portfolio standards (RPS), energy security, and potential pressure on carbon emissions are all national issues that will decide how we generate and use energy in the future.
• There is increasing energy awareness across all sectors. Industries as diverse as call centers, financial services, warehousing, wholesalers, farming, and logistics organizations are all paying more attention to energy and energy efficiency.
• Utility companies (investor and non-investor owned) are generation and distribution constrained. Nationally, this business is facing rising commodity prices, increased regulation, and unseen demand. Energy security is critical in this environment. John Bradley, Senior VP at the TVA, recently observed, "Rates are critical, but recently, availability and reliability are what people are really concerned about."
Increasing Prices and Demand
From 2000 to 2007 the average price of industrial electricity increased 3-4 percent per year, and there is little reason to expect that this trend won't continue in the near future. While recent national generation capacity has remained ahead of demand, the margins of this excess are forecast by the EIA (Energy Information Administration) to decline from 16 percent in 2006 to 13 percent in 2011. While these U.S. averages seem to suggest that excess power levels are diminishing, on average there is still plenty of power predicted to be available. Averages, however, do not account for nuances in local conditions.
Another trend that no one disputes is the increase in energy demand. Despite trends favoring conservation and energy efficiency across all sectors, energy use will continue to rise, driven primarily by residential and commercial consumers, and also by increasing industrial loads. As the cost of building new facilities and environmental concerns continues to rise, there is considerable pressure to shrink the footprint of new industrial, commercial, and residential facilities. The graph on page 50 represents the increase and the scale of associated challenges of higher energy density facilities.
At CH2M HILL we see rapid growth in the photovoltaics, electronics, and data center markets. These sectors all share significant reliance on reliable, available, and cheap power. Across these industries, factors like automation, speed to market, public image, power quality, reliability, and redundancy are forcing site selectors to be more energetic in understanding and embracing energy siting criteria.
Today's design technology for such energy-intensive facilities is capable of delivering unprecedented energy efficiency. Unfortunately, many owners and developers undertake the development of such projects without seeking and implementing the latest energy-reduction strategies, which are capable of saving millions of dollars in long-term operating costs while benefiting the environment in the process.
Reliability and Other Concerns
In photovoltaics, power requirements for a progressive large-scale manufacturing operation can range from 10 to 100 MW while operating around the clock. Phased over only a few years, these factories are focused on speed-to-market and rapid scale up. If possible, they seek to compress or avoid typically long lead times for things like electrical gear by looking to existing buildings or sites that are power-ready. A critical concern, however, is that converting existing buildings to an advanced technology function as specialized as photovoltaics manufacturing poses many cost and performance risks that could cancel out any potential schedule advantages achievable by choosing an existing building. The decision to convert an existing building versus building a new one must be carefully made, starting with strong confidence that the design approach for the building conversion benefits from the most advanced power-reducing strategies.
Power reliability is important, but it does not typically dominate decision-making in photovoltaic manufacturing. Electricity can represent only up to 5 percent of the cost of goods sold depending on the manufacturing technology, but every opportunity to reduce costs is critical in the increasingly competitive PV industry.
The electronics industry requires a deep network of suppliers and partners, and has grown up around the United States in clusters that are accustomed to dealing with the necessary exotic gasses and chemicals, as well as power demands up to the 40 MW scale ramped up over a few years. These companies can sometimes follow automotive manufacturing because of some overlap in the support base, but locating electronics manufacturing beyond established support regions is difficult. Tight and elaborate environmental controls and complex, very high-value products running 24/7 require extremely reliable power.