Category Archives: Uncategorized
My wife wrote a book
You can find it here.
California Drought
I can’t find good references to directly support the common claim that 80% of California water is used by agriculture. But I could find numbers on 2010 consumption. As shown below, irrigation accounts for 60.7% of water usage (this includes more than agriculture). It seems 80% figure comes from subtracting out water reserved for environmental uses.
2010 Figures:
mgpd = million gallons per day
Total = 38 billion gallons per day = 13,870 billion gallons per year
Irrigation (crop, pasture, recreational lands such as parks, golf courses) 60.7% (23,056 mgpd)
Thermoelectric power generation (equipment cooling) 17.4% (6,601 mgpd)
Public supply (domestic, commercial, industrial, pools, parks, firefighting) 16.6% (6,307 mgpd)
From California Wikipedia article
California GDP (2012) = $1.959 trillion
California agriculture production = $46.7 billion (2013) (~2.4% of California economic output).
California population (2014) = 38.8 Million
Upshot of this is ~2.4% of California economic output consumes more than half of California water.
I’m having trouble finding water use by agriculture commodity, but it’s easy to find agriculture economic output by commodity.
Milk $6.9B
Grapes $4.4B
Almonds $4.3B
Nursery plants $3.5B
Cattle, Calves $3.2B
Strawberries $1.9B
Lettuce $1.4B
Walnuts $1.3B
Hay $1.2B
Tomatoes $1.17B
Interesting blog on California water
Statistics Primer
Khan Academy has good resources on probability and statistics.
These are particularly interesting crib notes for image sensors:
Standard error of the mean
Basic definitions
Alternate variance formulations
Box and whisker plots
These are more generally interesting:
Regression, Least squares error
Law of large numbers
Binomial distribution
Poission process
Good books on China
Recently I took a vacation to China. I finished three great books while there:
Asia’s Cauldron. Excellent introduction to geopolitical realities of the South China Sea. This will be one of the most tense military regions in the 21st century.
Age of Ambition: Chasing Fortune, Truth, and Faith in the New China. Excellent summary of trials and tribulations in modern Chinese life.
Biography of Deng Xiaoping. It’s hard to understand how modern China became an economic powerhouse without learning about this man. The book is scholarly and long, so skimming is fine. I found parts about normalization of relations with the USA particularly interesting.
Social cost of all carbon produced in USA
Using prior estimate for social cost of carbon, we can calculate externalized cost of all carbon emitted in the USA.
I calculate it as between $234B/year and $1,254B/year. This equates to 1.4% to 7.4% of GDP, $0.7k to $4.0k/person/year, or $2.0k to $10.6k/household/year. This social cost accounts not only for greenhouse gasses, but also premature deaths from pollution, etc. My layman’s interpretation of social cost is that if properly priced in, it fully accounts for a carbon neutral society.
Currently, this cost is externalized. If internalized, free markets would sort it out. This sorting out would almost certainly find major points of efficiency along the way leaving the final cost less than these figures.
***See calculations below
1. Assume all emitted carbon comes from oil, coal, and natural gas consumption. We can find the amount consumed here.
Oil consumed in USA = 6.88E9 bbl/year (1 bbl = 1 oil barrel)
Coal consumed in USA = 891E6 sh tn/yr (short tons/year) = 1.782E12 pounds (1 short ton = 2000 pounds)
Natural gas consumed in USA = 25.5E12 cubic feet/yr = 0.260E12 therms/year (0.010196 therms/cubic foot)
2. Find how much CO2 that one unit of above energy sources produces when combusted using this reference.
Oil = 0.43 metric tons CO2/barrel
Coal = 9.31E-4 metric tons CO2/pound of coal
Natural gas = 0.005302 metric tons CO2/therm
3. Calculate CO2 produced for all the energy sources
Oil = 0.43 * 6.88E9 = 2.96E9 metric tons CO2/year
Coal = 1.782E12 * 9.31E-4 = 1.66E9 metric tons CO2/year
Natural gas = 0.26E12 * 0.005302 = 1.38E9 metric tons CO2/year
Total = 2.96E9 + 1.66E9 + 1.38E9 = 6.0E9 metric tons CO2/year from all nonrenewables
4. Calculate social cost of carbon of this emitted carbon
Social cost is bounded by $39/metric ton and $209/metric ton
Social cost (low) = $39 * 6.0E9 = $234B/year
Social cost (high) = $209 * 6.0E9 = $1,254B/year
5. Calculate cost per person
USA population = 314M
Cost per person (low) = $234/0.314 = $745/person/year
Cost per person (high) = $1,254/0.314 = $3,994/person/year
6. Calculate cost per household
USA households = 118M
Cost per household (low) = $234/0.118 = $1,983/household/year
Cost per household (high) = 1254/0.118 = $10,627/household/year
7. Calculate cost relative to GDP
USA GDP = $17E12
Percentage of GDP (low) = 0.234/17 = 1.4%
Percentage of GDP (high) = 1.254/17 = 7.4%
Python and Matlab are equivalent for handling datacubes
Python with the numpy library can handle datacubes easily and with the roughly the same speed as Matlab. Since Python is free, to me that means it wins overall.
See my presentation: Jacquot_PythonMatlab1
How much extra should gallon of gas cost to internalize social cost?
Answer: $0.35/gallon to $1.90/gallon more than it currently does.
Calculation:
(0.00907 tons CO2/gallon) * ($39/ton) = $0.35/gallon
(0.00907 tons CO2/gallon) * ($209/ton) = $1.90/gallon
Social Cost of Carbon and the Pruis
Even when accounting for the social cost of carbon, the Prius doesn’t make economic sense versus the Honda Civic for my driving habits.
Gallon of gas produces: 0.00907 metric tons of CO2 (20 pounds)
Social cost of CO2 (low): $39 / metric ton (US Govt estimate)
Social cost of CO2 (high): $209/ metric ton (mean + 2 stdev of peer-reviewed study)
Extra gas used in Civic over Prius: (313 – 199) = 114 gallons/year
Extra CO2 produced by Civic over Prius = 144 * 0.00907 metric tons/gallon = 1.306
Extra social cost per year of Civic over Prius (low) = 1.306 * $39 = $51/year
Extra social cost per year of Civic over Prius (high) = 1.306 * $209 = $273/year
Over 5 years, the Prius costs $1600/more than Civic, which is $320/year. Even the high estimate for social cost of carbon ($273/year) doesn’t make up the difference.
Is a Prius green?
Is the Prius green? I’m concluding the short answer is yes. This comes not from doing calculations myself, but rather relying on information from “major”-ish news sources.
I define green here as producing less CO2 over the entire life cycle of a car than the competition.
Most confusion on this issue stems from a 2007 report titled “Dust to Dust” by CNW Marketing Research (an automotive market research company) that concluded a Hummer is greener than Prius. Unfortunately I can’t easily find a copy of this report (CNW took it down) , but a variety of sources (here, here) document issues with the conclusions. Most notably, the report apparently listed the lifetime of a Prius as 109k miles and the Hummer at 379k miles. Consensus online appears to be the report is discredited. I think it’s telling that I can’t find any other mention of a credible report questioning the overall CO2 savings of a Prius (or other hybrid).
The Prius does indeed consume more energy during production than conventional cars, but driven to 160k miles, the Prius wins in terms of overall carbon emissions. ACEEE rankings, list Prius near the top of green cars.
A Fox News article also concludes Prius is green (have to scroll all way to bottom to find it).
There are a lot of reasons to buy a Prius. You get conspicuous conservation with your easy advertisement for how green you are. You get to drive in an obnoxious way while maximizing your mpg. Your car looks so weird it is bound to get attention (though not so weird now since it’s a best seller). And you can feel smug.
Driving a Prius won’t save the planet (whatever that means), but it appears to produce less CO2 over its entire life cycle than conventional cars.