Ultra High Voltage (UHV) Transmission is the Renewable Energy Interstate

Ultra High Voltage (UHV) Transmission is the Renewable Energy Interstate

While other parts of the world are busy actually building national Ultra High Voltage (UHV) transmission infrastructure the US continues to do noting more substantial than litigate. A UHV super grid would be able to move renewable energy from where it is abundant to where people live and work, and do so at an economic cost. This kind of national electric energy infrastructure would enable solar, wind, hydro and geothermal generated electric power to reach market. It is a critical piece of the kind of future energy infrastructure we will need in order to continue to prosper. John goes into a lot of detail and provides numerous links to examples and more in depth reading on this very important subject.

Remember Hydropower? Proven and Cost-Effective Clean Energy

Remember Hydropower?  Proven and Cost-Effective Clean Energy

This post takes a look at hydro power potential in the US, which is significant. For example, Oak Ridge National Laboratory has estimated that there is more than 12GW of untapped capacity at existing dams across the US; this is in part due to the fact that only 3% of existing dams generate electricity. Furthermore a 2006 DOE report noted that in every region realistic increases in generation capacity ranged from a minimum of 50% to well over 100%, which represents a lot of potential additional power. Large dams have serious environmental issues, disrupting Salmon runs for example, but a lot more power can be generated from existing dams and from less disruptive run of the river hydro.

Does Concentrated Solar Power Have the Answer to Intermittency Concerns?

Does Concentrated Solar Power Have the Answer to Intermittency Concerns?

In this post John outlines two developments in the thermosolar concentrated solar power (CSP) arena that are enabling CSP to fulfill the role of baseload suppliers. Molten salt energy storage is naturally suited for CSP facilities and is quite efficient as an energy store — both in terms of low loss and in terms of capital expenditures (compared with batteries for example). By storing power in this way CSP plants can continue delivering power even after the sun has gone down. In addition by pairing CSP with stand-by combined-cycle natural gas generators greater overall reliability can be achieved.