As long as we seem to be in the mood to spend our way out of trouble anyway, what say we try to acquire a little something in return for or effort?
I have written about the Hyperion Power Module with some degree of specificity in the past, but the present socio-political climate within the US national environment allows me to complete the strategic formulation, I believe.
Since the recent signing into law of the US$850b financial legislation, the mechanism to create a unifying force to relieve the impending energy crisis the USA presently faces is now available. Since the SecTres works for the President, a simple executive order to assign 8.5 of those $850b to a specific project would provide ample force, I submit.
Beginning now, the President should direct formation of a contract with Hyperion to purchase 500 of it’s standard power modules on a crash construction basis to enhance the US domestic electric grid.
Here’s the Plan: The USG offers to pay a one-time fee of US$1,000,000 per unit and to supply sufficient real estate from suitable USG controlled land, limited legislative exemption from construction legal challenge, engineering and regulatory assistance for site and plant design and the sum of US$200,000,000 for each of five purpose-built construction facilities. Additionally, USG agrees to purchase at 50% of the present advertised price of US$25,000,000 apiece, 500 units over the course of 5 years plus one year for construction of the assembly plants. Finally, USG agrees to finance from this allocation the recruitment, relocation, training and housing needs of sufficient workforce to initially staff all five anticipated production facilities.
In addition to our weekly awards, every week MemeBox releases a Top 10 List of the most interesting and useful Future Scans posted the during the preceding week. This list is a great way to get acquainted with what the Future Scanner has to offer and to quickly digest some great information.
“It’s just a math problem.” – Google CEO Eric Schmidt
Google is thinking big, again! The company that was founded to ‘organize all the world’s information’ is now focusing its attention on energy. Google’s Cleantech Movement plans to “eliminate all utility fossil fuel dependence and 50 percent of automobile fossil fuel dependence by 2030.” So far, the company has already invested $45M in wind, solar, and geothermal energy, with tidal and wave power as next in line. This will not only save consumers and America money, one of Google’s motivations, it will also protect the Earth’s environment, reason number two, which is “all part of not being evil (Source: Stefanie Olsen/CNET). In other words, not only is funding alternative energy helpful for its monetary benefits, it helps the environment and gives Google a positive image in the public eye. It will also benefit Google’s energy guzzling servers, whose life-force is the precious commodity of electricity, thus saving the company money.
Schmidt believes that better energy efficiency will lead to more savings. And moving from fossil fuels to renewable, alternative energies will also cost less in the long-term. As an example, while it may indeed cost a hefty amount to make the switch, once in place, the ‘U.S. would save 97% of $2.17 trillion in energy spending over the next 22 years.’ Google’s renovation of its own buildings to cut carbon emissions, installed solar and power monitoring equipment, and is already saving money each year. Restructuring the U.S. power grid, currently with a 9 percent efficiency loss, could also make the country’s energy more efficient and thus, save more money.
Are Computer Servers 21st century ‘energy guzzlers’?
While Google should be lauded for its progressive view on energy efficiency, it also has an intrinsic self-interest in cheap electricity. Google’s new server farm to be built on the banks of the Columbia River in Oregon, called The Dalles data center, will need an estimated 103 megawatts of electricity to run, ‘enough to power 82,000 homes, or a city the size of Tacoma, Washington – via Roughtype
While The Dalles center will not be up and running until 2011, Google’s multitude of other server farms also require large amounts of electricity. Cheaper electricity will allow Google to save money powering their farms, as well as allow further expansion.
What is behind Google’s real motivations? Not being Evil, or Green is Good
Hydrogen fuel cells, which produce electricity, are an evolution to modern day batteries. If we can store hydrogen efficiently as a solid, we can expand the use of energy from intermittent solar and wind power. We can also lower the costs and improve performance of electric vehicles. Two recent research announcements hint that cost effective storage could be much closer to reality.
Nanoscale science & surface area
One of the key enablers of storing hydrogen as a solid is high surface area. How much? Can you imagine holding a gram of material with surface area equal to several football fields for storing hydrogen molecules?
Nanoscale (billionth of a meter) material design means high surface area ratio to volume. We can also tap nanotechnology to create storage materials able to bind and release hydrogen molecules at low pressure and low temperature.
Carbon scaffolding for storage
There are a number of ways to store hydrogen as a solid, and also as a liquid. Earlier we featured a look at metal-organic frameworks or MOFs as a viable long term storage material. Today we’ll look at two other carbon-based hydrogen storage systems.
Carbon is a controversial storage medium since it is ‘sticky’ and can often bind hydrogen too tightly. But mixing (or ‘doping’) carbon with other elements can leverage the benefits of carbon’s high surface area and its Lego-like structural design.
‘Doping corn cobs?’
The Department of Energy has awarded $1.9 million to researchers at the University of Missouri and Midwest Research Institute (MRI)
The Missouri team has found that carbon briquettes (derived from corn cobs) then “doped” (or mixed and layered) with boron, have a unique ability to store natural gas with high capacity at low pressure.
While corn cobs hydrogen storage sounds a bit far fetched, one gram of this carbon material has a surface area comparable to a football field. The boron additive to carbon creates binding energies with H2 molecules that might make this a viable storage medium.
Carbon Graphene Layers
Another carbon based solution was announced last week from researchers in Greece using stacked thin sheets of carbon doped with lithium.
The Wikimedia Foundation, home of Wikipedia, the 8th ranked site on the internet, is switching its servers (all 400 of them) over to an Ubuntu operating system. “Wikimedia’s move to Ubuntu is part of an effort to simplify administration of the organization’s 400 servers, which previously ran a mix of various versions of Red Hat and Fedora.” The volunteers and staff (consisting of five people) cite ease of use and simplicity of server migration making everything “a million times easier.”
So what is the appeal of Ubuntu?
For starters, it’s free. Anyone staring at a Mac or Windows Operating System at your local tech-mart knows that to get a good operating system you may have to shell out as much as $200.
Secondly, Ubuntu is open-source. Although many are still confused or wary of open-source software, we’re seeing an explosion of it in the last few years. Firefox, a popular open-source web browser, has gone from 3% of the global market in 2005 to almost 20% today with over 500 million downloads. There’s just something about open-source software that appeals to many people — the idea that you’re using something from a community and not a corporation.
So what does this mean in the long run? Although Ubuntu may take a while to get used to, we will see it gracing the desktops of users more and more in the next five years. If it really takes off, Microsoft may find itself a company that builds applications instead of operating systems. Even Apple is expecting some heated competition for its iPhone operating system with the release of the Linux-based Google Android mobile phone software.
In recent years forward-looking architects and designers have been pushing out the leading edge of advanced energy systems for built environments. Along the way they have created a new marketplace for integrated energy solutions with lower costs and improved performance. Their efforts have been supported by the growing list of Leadership in Energy and Environmental Design (LEED) certified buildings.
On Tuesday, Proximity Hotel in Greensboro, NC, became the first hotel to be awarded the LEED Platinum certification by the U.S. Green Building Council. LEED is the USGBC’s rating system for designing and constructing the world’s greenest, most energy efficient, and high performing buildings.
Opened in late 2007, the Proximity (videos) was designed to use 40% less energy and 30% less water than comparable hotels. It along with the adjacent Print Works Bistro are the first hotel and first restaurant to obtain the USGBC’s top level certification.
“When we started the design process four years ago, I would have never believed that we could use 41% less energy and 33% less water without one iota of compromise in comfort or luxury and with minimal additional construction costs,” says Dennis Quaintance, the CEO and CDO (Chief Design Officer) of builder Quaintance-Weaver “It just goes to show what a determined team can accomplish if they use common sense and get a little bit of help from the sun.”
I wrote about the unveiling of White Knight Two back in July, and no, it is not yet ferrying billionaires to sub-orbital six minute vacations. But it has just become useful (rather than enviable) to the rest of us.
On September 30th, The International Astronautical Congress announcedthat Virgin Galactic was partnering with the National Oceanic and Atmospheric Administration to measure greenhouse gasses in the upper atmosphere using White Night Two and Space Ship Two. Both crafts will be fitted with atmospheric sensors and will begin gathering data in test flights.
The planes are uniquely suited to help the NOAA for two reasons. The most obvious is that they will go much higher than conventional aircraft. Thus, they can monitor the hard to reach mesosphere and thermosphere. Information about these layers of the atmosphere is vital for scientist to create accurate climate change models. Also, the planes were designed with tubes that channel outside air to internal speed sensors. This feature was added in the design phase in anticipation of scientific work.
The US Departments of Energy (DOE) and Agriculture (USDA) have released its National Biofuels Action Plan [4.9MB] detailing Federal agency and private partnership efforts to accelerate the development of ‘a sustainable biofuels industry’. While first generation biofuels such as corn ethanol have been under tremendous scrutiny in recent months, the US agencies appear to be positioning themselves to offer measurably sustainable biofuel resources that will rely heavily on next generation resources (e.g. non-food, waste biomass) and biologically driven conversion processes. [Principles outlined in Biofuel Plan Factsheet]
The official word – We have Plan
“Federal leadership can provide the vision for research, industry and citizens to understand how the nation will become less dependent on foreign oil and create strong rural economies,” USDA Secretary Schafer said. “This National Biofuels Action Plan supports the drive for biofuels growth to supply energy that is clean and affordable, and always renewable.”
Translation: We are hedging our bets on the future of bioenergy!
Looking beyond the rhetoric of energy security, and clear tip of the hat to rural agricultural politics and the influence of mainstream agricultural players, target-based plans do secure federal funding streams for next generation bioenergy solutions. And there are significant funds headed towards innovative start up companies that could develop game-changing bio industrial applications. These start ups could ease our reliance on traditional petrochemicals for making fuels, fertilizers and raw materials processing.
But the key takeaway might be that the DOE is hedging R&D investments on traditional chemical biofuel refining processes (traditional catalysts) by also advancing potentially lower cost biological conversion processes (enzymes/algae).
To develop low cost cellulosic biofuels from non-food biomass feedstock, the agency announced $12.3 million contract with bioenergy startup Novoyzme. The company will be contracted to develop enzymes capable of breaking down strong cellular plant walls under its named project DECREASE (Development of a Commercial-Ready Enzyme Application System for Ethanol).
According to Novoyzme, the company has confirmed plans to launch the enzymes required for commercially viable production of ethanol from cellulose by 2010, midway through this contract, with plans to reach an enzyme cost target that is even further reduced by 2012. But there is still rural politics infused as the primary feedstock is expected to be leftover corn biomass waste.
If you managed to watch the debate last night, you’re probably just as frustrated as everyone else at the way the candidates behaved. I’m not talking about physical behavior, but the verbal arguments. Every other line was about how the other candidate wasn’t telling the truth about certain subjects. I guess “not telling the truth” is the new way of saying “you’re lying” without coming off as confrontational.
This may be how debates have been run since the founding of this country (heck, the campaign of Jefferson vs Adams was probably the worst mud-slinging campaign of all time), but don’t you think in the age of instant information that twisting the truth only breeds distrust? What does it tell you about the candidates when every spin they try and weave can be blown apart by going to a site like FactCheck.org?
It’s time we adapted the political discourse to the 21st Century.
We need to sit these candidates down face to face and ask them the hard questions. If they try and spin a lie, the moderator should be informed via something akin to Twitter and call them on it right then and there. “I’m sorry Mr. Lincoln, you haven’t always been anti-slavery. In fact, just last week in Kentucky you told the audience you weren’t concerned about slave rights.” Can you imagine how incredible that would be? Facts would be facts, lies would be lies, and each politician would be responsible for the words they say.
This may seem a little harsh, but these people are vying for the office of President of the United States of America. This isn’t a show like Bill O’Reilly or Keith Olbermann where the commentators aren’t held accountable for their lies mistakes.
The American people deserve more from the candidates and this method of debating (only three debates, are you kidding me?) is incredibly outdated. Let’s get the candidates to speak the truth and stop this incessant parlay which makes every debate seem like a tie.
The Wikimedia Foundation, home of Wikipedia, the 
The US Departments of Energy (DOE) and Agriculture (USDA) have 
If you managed to watch the debate last night, you’re probably just as frustrated as everyone else at the way the candidates behaved. I’m not talking about physical behavior, but the verbal arguments. Every other line was about how the other candidate wasn’t telling the truth about certain subjects. I guess “not telling the truth” is the new way of saying “you’re lying” without coming off as confrontational.