Fire, water, fuel and the mile-high city
In early June, editors from Processing magazine were at the AWWA ACE13 annual conference & exposition in Denver, Colo. Temperatures there under the brightest of blue skies were 90 F much of the time, warm for the time of year. AWWA is the American Water Works Association.
Casual convention hall conversations indicated concerns at the stress early meltdown of the surrounding mountains’ snowcaps will put on the regional water system.
In fact, Colorado is a place where energy- and water-related issues have real immediacy, what with several-year’s drought going, forest fires burning in the Black Forest and elsewhere and natural-gas fracking being an issue.
Customers of the utility Denver Water have cut water use by 20% in the last 10 years, says the Denver Business Journal. Yet December last, the U.S. Dept. of Interior released results of a three-year Colorado River Basin Water Supply and Demand study that predicts the river will have shortages of about 3.2 million acre feet of water, compared to demand, by the year 2060.
A recent review of Henry Petroski’s just-published book on the infrastructure engineering project, “To Forgive Design: Understanding Failure,” says “for instance, public works departments across the Northeast have begun replacing the pipe-like drains called culverts as fast as they can, swapping the size that the textbooks recommend for the much larger diameters the new rainfalls demand. ‘The books we’ve always used to design culverts, you can throw them all out,’ Dave Wick, district manager of the Warren Count Soil and Water District, recently said. ‘What was once called a 100-year event is now a 50-year event, and a 50-year event has become a 25-year event.’”
A new report from the Center for Climate and Energy Solutions, “Leveraging Natural Gas to Reduce Greenhouse Emissions,” notes that U.S. greenhouse gas emissions are where they were in the 1990s, in part because electricity generators are using more natural gas,.
Further opportunities include:
• Manufacturing growth with reduced emissions by using natural gas in efficient combined heat and power systems.
• Natural gas-powered fuel cell and micro-turbine use, producing on-site energy use waste heat.
• Substituting natural gas for diesel and gasoline in fleets and heavy-duty trucks.
• Direct use of natural gas in homes and businesses, replacing electric space and water heaters with natural-gas models.
Getting the money and agreeing on regulation are the big sticking points. The eminently practical includes identifying and addressing methane leaks from natural gas production, transmission and distribution, and learning more about combined heat and power systems.