Biogas Fueling the Olympic Torch
China is playing a rule role in the area of biogas – processes by which we can turn our waste, animal waste and food waste into a high-end, usable commodity. The subject of using fecal matter as an energy source ranges from taboo in some societies to wide acceptance and utilization in others. In China, it fits into the latter category. Here’s what China’s National Development and Reform Commission has on the books for biogas.
In China alone there are a billion and a half people with just as many livestock, poultry and garbage dumps all providing methane feedstock daily. It’s hard for China to sidestep the idea of turning something that was discarded into a commodity for electricity generation. China plans to have an installed capacity of bio-energy projects reaching 5.5million kilowatts by 2010, but jumping to 30 million kilowatts by 2020, a 600 percent increase in the next 11 years.
Biogas is a combustible combination of gases produced by micro-organisms when livestock manure and other biological wastes are allowed to ferment in the absence of air in closed containers. The major constituents of biogas are methane (60 percent), carbon dioxide (35 percent) and small amounts of water vapour, hydrogen sulphide, carbon monoxide and nitrogen. Biogas is mainly used as fuel, like natural gas, while the digested combination of liquids and solids ‘bio-slurry’ and ‘bio-sludge’ are mainly used as organic fertilizer for crops. Chinese companies are now finding numerous other uses for biogas, bio-slurry and bio-sludge in China.
This development touches on an important aspect of Peak Oil: in a peak oil world there will be less fertilizer production and consequently higher fertilizer prices, which method higher farming costs that must be passed along as higher food prices. You could open Pandora’s Box when explaining how oil-dependent the farming, transport and processed food production industries are. Increased transportation costs to move food stuffs from field, to factory to your plate. Fertilizer and pesticide rely on natural gas and oil based chemicals for production, and farm machinery is run on liquid fossil fuels. The simplest equation is: Higher crude oil prices = Higher food costs.
China began using biogas digesters seriously in 1958 in a campaign to adventure the multiple roles of biogas production, which solved the problem of the disposal of manure and improved hygiene. During the late 1970s and early 1980s the Chinese government realized the value of this natural resource in rural areas and this was the first important step in the modernization of its agriculture. Six million digesters were set up in China, which became the biogas capitol of the world incorporating the ‘China Dome’ digester which is nevertheless used to the present day, especially for small-extent domestic use. China’s 2003-2010 National Rural Biogas Construction Plan is to increase biogas-using households by a further 31 million to a total of 50 million, so the rate of use would reach 20% of total rural households.
By the end of 2006, the total number of families that use biogas reached 22 million, with a total annual biogas production of about 8.5 billion cubic metres and had built biogas pits for 22 million households in rural areas, and provided more than 5,200 large and mid-sized biogas projects based around livestock and poultry farms. The typical eight cubic metre biogas pits are able to provide 80 percent of the necessary cooking energy for a four-member family, according to The Energy and Zoology Division inside the Ministry of Agriculture. By 2020, about 300 million rural people will use biogas as their main fuel.
During the current, 10th, Five Year Plan, China is developing 2,200 grid strength biogas engineering projects for wastes from intensive animal husbandry and poultry, treating more than 60 million tonnes of manure a year, that’s in addition to the 137,000 installed digesters to treat sewage. According to The Chinese Academy of Sciences and Geography, the total annual production of manure and night soil could theoretically generate about 130 billion cubic metres of methane, equivalent to 93 million tonnes of coal and 80 percent of industrial wastewater can also be used to produce methane. The number of large extent grid strength extent plants are planned to increase to 30,000 by 2030, a 15-fold increase.
As the idea of cleaning up the ecosystem starts to take traction in China, dealing with sludge from urban and industrial wastewater treatment that has traditionally dumped into landfills, oceans and waterways is taking center stage with a catchy campaign “Recycle Waste into a Resource”. The Chinese central government is showing great interest in medium and large extent biogas plants and integrated agricultural and agro industrial biomass with waste handling plants to reduce water pollution.
To ease the usage of biogas the government had set up biogas technical training courses in Shanxi Province and in 2005 trained 6,000 farmers, 4,000 of which attained National Biogas specialized Technician Certificate. The Ministry of Agriculture which administers The Chengdu Biogas Scientific Research Institute (BIOMA) also operates an international training and research center in Chengdu, Sichuan Province. Farmers from Yunnan Province that graduated from the course are experimenting with a “four-in-one” biogas plant that incorporates a pigpen and a household latrine to provide feedstock, then uses methane to heat a greenhouse for growing vegetables and raises carbon dioxide within the greenhouse to raise plant provide.
Biogas feedstock programs throughout China are just beginning to utilize industry waste from other supplies; alcohol production and paper mills. Tianguan Alcohol Factory, which consumes two million tonnes of shop-worn grains per year to produce denatured alcohol, is now recycling the dregs of the distiller to produce biogas in a 30,000 cubic metre digester, supplying more than 20,000 households or 20 percent of Nanyang city’s population.
Hongzhi Alcohol Corporation located in Mianzhu, Sichuan Province which is the largest alcohol factory in south-western China, uses its industrial organic wastewater, sewage and dregs to produce biogas. The city of Mianzhu treats 98 percent of municipal sewage including wastewater from hospitals by digesters with a total capacity of 10,000 cubic metres.
Chenming Paper Co. which generates 300 tonnes of sludge a day, is adding its own start up biogas program using pulp wastes. The same goes for intensive animal husbandry on many large or medium size livestock and poultry farms in the suburbs of cities. China’s strength generation is starting to morph into local energy generation for local residents from local industry using local feedstock, which is a form we should get used to in a world of high energy prices: Local production, Local consumption.
As our globalized distant point of manufacture, long delivery chain lifestyle changes year upon year with declining crude oil availability, known as “Peak Oil”, we as a world will need to find crude oil substitutes to supply base chemicals for industrial and manufacture processes. Using biogas directly for cooking or co-generation of electricity and heat is especially possible when the biogas is used at or near the site of generation. Biogas methane can also be used to make methanol, an organic solvent and an important chemical for producing formaldehyde, chloromethane, organic glass, and compound fibre. Good quality fertilizer and electricity generated are additional bonuses.
Finally, biogas can be used to prolong storage of fruit and grain. An air of methane and carbon dioxide inhibits metabolism, thereby reducing the formation of ethylene in fruits and grains prolonging storage time and the same air kills unhealthy insects, mould, and bacteria that cause diseases.
My mind’s eye sees a future where food storage will be in local communities as the Just-in-Time delivery system will encounter problems as fuel becomes more expensive and disposable income worldwide is reduced. I envision a return to a bulk delivery system of dry goods which will be weekly or bi-weekly that will require local communities to store their own grain and bulk food employing biogas to keep pests and rodents out of the food supply. Tiny shipments as we are used to today will need to be restructured into a bulk delivery system, the concept of one box from one company half way around the world stocked on a store shelf should taper off with higher crude prices. Foods from supermarkets and hyper-marts packed in small individual boxes, bags or wrapped in plastic will have their own set of problems for delivery and manufacture to conquer. Which gives biogas an edge by offering solutions to two probable side effects in the future because of continuing upward crude prices, food storage and fertilizer.
What I never hear mentioned is a back-up fertilizer system. We are required by law in many countries to have back up batteries and generators for basic electrical systems in case of strength failure. Is there a back-up fertilizer system in place for our food production in case of oil shortages or long-lasting supply disruptions? Biogas production may provide a bit of protection. It is hardly an Olympic step, but it’s a step.