MIT Says Natural Gas Best To Lower Carbon Emissions

eldavojohn writes "This week MIT released a comprehensive, hundred-page report entitled 'The Future of Natural Gas' that outlined the many scenarios the United States faces when aiming to reduce carbon emissions. From the New York Times recap: 'The scenario goes like this, according to MIT: Nuclear power, renewable energy, and carbon capture and sequestration are relatively expensive next to gas. Conventional coal is no longer a major source of power generation in the United States. "Natural gas is the substantial winner in the electric sector: The substitution effect, mainly gas generation for coal generation, outweighs the demand reduction effect."' Will this urging help to produce a policy shift from renewable energy (like wind) to natural gas for the United States?"

There's not one single approach which will work

[stomv]

Let's focus only on the 13 of carbon emissions in America which are electricity related:

Coal emits 2.1 lbs CO_2-eq per kWh generated. Oil 1.9, nat gas 1.3. Wind, solar, geothermal 0. If we instantaneously switched all 20 quads of energy from coal used to generate electricity to natural gas *tomorrow*, we'd save roughly 10% of our overall carbon emissions (coal is 1/3 of overall carbon emissions used almost entirely for electricity, and switching to gas saves 1/3 (1.3/2.1 ~= 2/3)). So the 10% is nice, but it's clearly not enough.

We've got to do better than that. Additional ways to do better include:
* Improving building envelope (air sealing and insulation) has a substantial impact on both heating and cooling load. Interested in the electricity portion -- focus on the southeast and the southwest explicitly. Work to improve the existing building infrastructure with regard to envelope.
* Strengthen building codes. There's no point in tightening up old buildings if we permit new buildings to be built leaky. This is especially important to do at the Federal level, because (a) most new construction is in the southeast and southwest, not northeast nor midwest, and (b) their Republican governments have shown no interest in passing state laws. Before you go off on a libertarian rant, keep in mind that even if a homeowner was savvy enough to understand the importance of a tight and well insulated home, he would have very little ability to measure/inspect the potential home because seeing through sheetrock is nontrivial. Building inspectors, on the other hand, are looking at the space before finish walls are installed, and therefore have a perfect opportunity to inspect for energy efficiency.
* Follow California's lead in ratcheting up energy efficiency requirements for appliances and electronics. Sure, they won't get it all right the first time -- that's true of just about all engineering projects -- but the overall impact is substantial. It's not just about saving money for customers, it's also about reducing the demand on the grid and at the power stations.
* White/green/solar roofs, particularly in urban areas, particularly in those with more sun exposure in warmer climes. This is a simple building/zoning code change, and it has a tangible impact over time.
* Local renewable. Solar or wind at the home or small commercial level, on site, helps not only reduce demand (from the utility, it appears to be the same thing), but it also reduces the demands on the local grid. This is important because it allows us to hold off on building larger capacity at the local level for as long as possible, a huge savings. Ways to foster this include tax credits, time-variable pricing (solar), and even simply ensuring that net-metering is legal everywhere.
* Renewable Portfolio Standards (RPS) have been enacted in roughly 30 states. Essentially, they require utilities to increase the percentage of renewable electricity in the mix of their electrons by a little bit each year or every few years. They define what counts as renewable (typically large hydro is excluded, biofuel may or may not be, wind and solar and geothermal are, some states allow a portion to be met with negawatts (efficiency improvements). The elegance is that the utilities can choose the technologies / facilities which make sense for them to meet the criteria, they can "bank" surplus credits, and if they come up short they pay a financial penalty which is severe enough to make compliance cheaper than punishment.

You'll notice I've entirely avoided mentioning nuclear power. I'm not opposed to it, but I also acknowledge that it's far more expensive for society than the pro-nuke folks let on, and it's far safer than the anti-nuke folks acknowledge. In either case, since it is more expensive than lots of alternatives, let's work on the alternatives and see how far we can push them. If we've legitimately pushed wind and solar and geothermal and efficiency as far as we can and