Monday, May 20, 2013

Water may reshape energy industry

Demand for fresh water could exceed supply by an estimated 40 percent by 2030, pushing up prices for the water-intensive energy industry. Soaring water prices would help wind, solar, and natural gas, but hurt coal and nuclear plants.

By Eli Hinckley,?Guest blogger / May 19, 2013

A worker helps monitor water pumping pressure and temperature, at the site of a natural gas hydraulic fracturing and extraction operation run by Encana Oil & Gas (USA) Inc., outside Rifle, in western Colorado. A doubling of water prices wouldn't hurt energy operations, but soaring prices would.

Brennan Linsley/AP/File

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Why It Matters

Energy: The industry uses 23 percent of fresh water globally and 40 percent in the US.

Environment:?Higher water prices would be one way to ration increasingly precious fresh water, where demand is outstripping supply.

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There is a broad and growing consensus that freshwater is undervalued. It is a limited, but vital, commodity without a price. In nearly every region the price of water is the cost of water access rights, treatment costs, and transportation costs. There is no price or market for the water itself.

That will begin to change. Prolonged drought and overuse have depleted freshwater reserves at the same time that demand is rising rapidly. The resulting imbalance has some projections of demand for freshwater exceeding supply by?as much as 40% by 2030?. Increasingly, water starved regions have begun to look to ways to both reduce overall use and to prioritize different types of use. While there are a number of policy approaches, one that seems to have wide support is the idea of regional exchanges where water could be priced (with adjustments for preferred uses) and sold.

The implications for the energy industry are significant. Fuel extraction is water intensive, especially for mining and fracking extraction - for fracked natural gas, about a gallon of water is required to extract one mmbtu. Electric generation from fossil fuels also requires large amounts of water. The average kWh produced from coal-fired electric generation uses a gallon of water, and while natural gas averages less water use, nuclear uses significantly more.

Initially, reduction in use will focus on eliminating waste and high-use-low-value activities (like watering a lawn), but as the limitations become more acute some uses will simply cease to be provided for, or the cost of use will increase, forcing a rebalancing of the ways water gets used.

Currently, agriculture is the single largest use for freshwater, globally roughly 70% of freshwater use is for agriculture - upward pressure on food costs has already been pointed to as a significant source of political destabilization, so in water limited areas adding to food costs will not have political appeal.

Direct water use by individuals is typically less than 10% of total water use. The remainder is industrial use - the majority of which is energy related - which uses roughly 23% of fresh water globally (worth noting that reports have energy related water use as high as 40% of total water withdrawals here in the U.S.). Pricing structures could be designed any number of ways, but against the current use mix, it is reasonable to think that energy and industrial uses (along with specialty agriculture) are likely to be the most politically viable place to increase costs in hopes of influencing use.

The impact of water prices on energy activities will, of course depend on how high the cost. Historically, the prices paid for water are so low as to be of little concern to most energy businesses, even if they were to double, but given the high cost of disruption from shortages, real, significant increases in prices are a possibility in the future. Pricing cuts both ways, it will add to the cost of energy, but it would also provide certainty as to availability. There are already markets in which doubts about the absolute availability of water has limited the ability of developers to finance new power generation.

Over the longer term the value of low-water use (or saltwater viable) energy generation will increase relative to high water demand energy sources. Wind, solar and natural gas (especially conventionally sourced gas) will gain some advantage relative to coal and nuclear.

Another area to pay attention to are technologies and processes that can reduce or eliminate water use from the energy process - these types of technologies have been underfunded to date because of limited market value. We are seeing increased interest by investors (especially from early stage investors like Vodia Ventures, which is working from a thesis that the potential disruption is undervalued and that the potential for truly transformative technology or process is just beginning to emerge now) in building positions because with a clear view on the economic value associated with water savings these companies can become extremely valuable.

The Christian Science Monitor has assembled a diverse group of the best energy bloggers out there. Our guest bloggers are not employed or directed by the Monitor and the views expressed are the bloggers' own, as is responsibility for the content of their blogs. To contact us about a blogger, click here. To add or view a comment on a guest blog, please go to the blogger's own site by clicking on the link in the blog description box above.

Source: http://rss.csmonitor.com/~r/feeds/csm/~3/9nLuXvrZPK4/Water-may-reshape-energy-industry

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