HAVANA, Jan. 8th (IPS) Black plastic pipes, readily available on the mainly empty shelves of Cuba’s shops, distribute biogas to homes in the rural town of La Macuca, buried under the ground or running through the grass and stones in people’s yards.
The strong blue flame in the kitchens of the eight homes supplied by producer Yuniel Pons is thanks to engineer Alexander Lopez Savran, who innovated the standard fixed-dome bio digester to create distribution networks with the few basic materials available in this Caribbean island nation.
“A new biodigester has been designed to obtain pressure, which means that biogas can be distributed more than five kilometers away without the need for a compressor or blower. That is where the innovation lies,” the engineer, who lives in the city of Cabaiguán, capital of the municipality of the same name, where La Macuca is located, in the central province of Santi Spíritus, told IPS.
“Three years ago, I had a big mess with animal waste, until I sought advice and began to make biogas…We are working on expanding the corrals so that another biodigester can benefit 15 more families, who have already been selected.” — Yuniel Pons
Lopez, 32, made headlines in 2017 when he received the Green Latin America Award in Ecuador, and the Massachusetts Institute of Technology included him among the 35 young Latin Americans whose innovations improved the lives of their communities.
With a long-standing movement of biogas promoters and current regulations for private pork production favorable to its expansion, Cuba faces the challenge of creating efficient distribution networks to further exploit this ecological resource and raise the quality of life of rural localities, amidst an anemic economy.
“We started by taking a close look at the problem,” López recalled. “We had pork-raising centers that needed biodigesters, but the volume they were going to produce would be much greater than the consumption of those state facilities. On the other hand, we didn’t have the equipment to be able to distribute it.”
This fuel arises from the decomposition of organic matter, especially cattle manure and human feces. But on many farms with biodigesters there is a surplus of methane gas which, if not used, puts pressure on the equipment and is often released into the atmosphere, contributing to pollution.
In addition, biogas is most efficient for cooking because up to 70 percent of the energy is lost when it is used to generate electricity or fuel a vehicle.
“Two factors were considered: we had too much energy and there are difficulties in cooking food in the communities due to deficits in access to energy or electricity costs,” Lopez said, referring to the dependence of most Cuban households on electric appliances.
After two years of study and design, Lopez came up with the first prototype, which over time “has changed structurally to gain in efficiency, durability and performance,” he said, when interviewed by IPS in Pons’ home, where Pons lives with his wife Sandra Díaz and their son.
Most of the biodigesters designed by Lopez have been built as part of the Biomas Cuba project, which is coordinated by the state-run Indio Hatuey Experimental Pasture and Forage Station, located in the province of Matanzas, with support from the Swiss Agency for Development and Cooperation.
This initiative, which seeks to bring about energy sustainability in the Cuban countryside, provides part of the inputs, while the producer provides another part, to build the biodigester, which with fixed-dome technology is expensive because it requires a large volume of building materials but is compensated with distribution and 40 years of durability.
López estimated that his 10-cubic-meter biodigester costs the equivalent of 1,000 dollars in Cuba, but with an efficiency equal to that of a standard 15-cubic-meter biodigester. Less profitable are the polyethylene biodigesters, which cost about 800 dollars, serve just one home and have a useful life of up to 10 years.
So far, 10 bio digesters have been built with this local innovation in four localities of Cabaiguán: El Colorado (two), Ojo de Agua (one), Juan González (six) and La Macuca (one), which supply 102 homes and improved the lives of 600 people, saving 65 percent of electricity consumption per household.
And the technology was also replicated in Matanzas, although the engineer lamented the lukewarm reception by decision-makers with respect to the biodigester, which could contribute to the national plan for renewable energies to provide 24 percent of electric power by 2030, compared to just four percent today.
In well-equipped corrals, Pons keeps between 100 and 150 pigs behind his house as part of an agreement between state companies and private producers that in 2017 produced a record 194,976 tons, which did not, however, meet the demand of the country’s 11.2 million inhabitants. And that total was apparently not surpassed in 2018.
“Three years ago I had a big mess with animal waste, until I sought advice and began to make biogas,” recalled the producer, who is supported by Biomás. “We are working on expanding the corrals so that another biodigester can benefit 15 more families, who have already been selected.”
Jose Antonio Guardado, national coordinator of the Movement of Biogas Users, which emerged in 1983 and today has more than 3,000 members spread throughout almost all of Cuba’s provinces, said he was happy with the trend in Cuban agriculture to create solidarity biogas networks.
Guardado told IPS that there is “greater awareness, political support and participative activities in the context of local development,” although obstacles to distribution persist because “materials in the market are not optimal, sufficient or affordable” and “there is a lack of institutional infrastructure to provide this service in an integrated manner.”
Meanwhile, in El Cano, outside of Havana, the solidarity plans of farmer Hortensia Martínez have come to a halt despite the fact that she used her own resources to build a biodigester with a traditional fixed 22-cubic-meter dome on her La China farm, to supply the farm itself and share with five neighboring homes.
“Now I plan to give it a boost, but we haven’t been able to implement it because we don’t have the connections to the community’s houses and it has valves, special faucets and a type of hose that makes it possible to bury the network underground,” the farmer, who is well-known for her community projects, especially targeting children, told IPS.