Wednesday, July 15, 2020

Make Biogas from Rice Crop Residues and Stop the Burning of Rice Straw Throughout Asia

Rice straw biogas production from rice crop residues is a proven technology that is still completely untapped and at the same time stop the smoke from burning rice fields after each crop.

Around 300 million tonnes of waste rice straw is burnt in fields across Asia every year. Rice accounts for 48% of all greenhouse gas emissions from crops globally, or 1,000 MT of CO2e/yr. Straw burning is producing smoke so thick it can block out the sun for days on end in the main rice-producing regions. This comes at great cost in respiratory ailments and early deaths.

As the global population grows, more rice is produced, leading to yet more straw burning every year. And the sooty “black carbon” particles in the smoke are far more potent global warmers than the gases most people worry about, such as carbon dioxide.

Rice straw biogas diagram showing the CO2 reduction possible.

Straw Innovations

One company which believes it has the answer to this problem is Straw Innovations Limited, with biogas operations in Laguna in the Philippines.

What Straw Innovations are saying is revolutionary, because if implemented globally their plans for the anaerobic digestion of rice straw would transform this major waste into:
A major asset as a renewable fuel source: locally produced 24/7
Valuable compost or fertiliser that can build soil fertility
Increased rice productivity, enabling three crops per year instead of just two
A means of rural development and job creation, right where they are so much needed in the midst of the developing nations.

A Global Vision for Rice Straw Biogas from Anaerobic Digestion


It is hard not to be impressed by the vision of their Director, Craig Jamieson, who recently presented to the World Biogas Association's eFestival attendees stating that:

“If all available rice straw were to be digested, it would reduce global CO2 emissions enough to offset all of the CO2 currently emitted by the entire global aviation industry (918 MT of CO2e/yr), leaving the resulting biogas from the anaerobic digestion process to power their farms and localities.”

“It would also save a huge problem with rice straw stubble burning where 300 million tons are now being burnt every year, just in Asia. If you have ever visited cities such as Delhi in India during the rice straw burning season you will know just how appalling it is to have to live with the smoke that creates.”

“Governments are progressively banning the burning, but farmers frequently don't see any alternative, and therefore aren't complying. The race is on to find ways of using all global rice-waste in a way that doesn't simply end-up causing another problem to further impoverish the world's poor”.
Many local jobs would also be created to serve the biogas industry locally, and the need for importing energy from abroad in these nations would be greatly reduced.

Diagram of rice straw removal and use.

Rice Agronomics and “To Burn or Not to Burn”

The most obvious solution would seem to be simply returning the rice straw back into the soil. The problem is that it then rots in waterlogged ground, producing methane emissions. Methane is a greenhouse gas, approximately 25 times more potent than CO2.

Another disadvantage of returning it to the land is that waiting while the previous crop decomposes delays the establishment of the next rice crop.

Burning the rice crop-waste in the fields reduces methane emissions by 50%, but results in local air pollution, including black carbon which also traps heat in the atmosphere.

“Upland rice” or “aerobic rice” can be grown instead, where the fields are not flooded. Then the straw can be returned to the soil without the high methane emissions. However, upland rice suffers from lower yields and much greater weed problems, which require hand-weeding or the use of herbicide chemicals.
Other Solutions – Alternate Wetting and Drying (AWD)

A compromise is to alternate between flooding and draining rice fields. This can enable higher yields and reduced weed growth (as with flooded fields), but with reduced water use and lower methane emissions (because it’s not continuously flooded).

However, AWD can increase emissions of N2O – one of the most potent greenhouse gases – especially if not well managed, and the drying phase is not always possible in countries with heavy rain seasons.


Sheeting over the dry straw for digestion.
Covering a new batch of rice straw to exclude air and produce biogas.

The “Straw Innovations Limited” Biogas Plant Solution

Straw Innovations Limited has been researching and developing rice straw biogas technology since 2017, partnering with Universities and other biogas companies keen to innovate in what, if their voice is heard, will become a $multi-billion industry.

Financial assistance has been provided by the UK Government, which has enabled them to trial an innovatively simple and low-cost dry anaerobic digestion process, with support from British universities and QUBE Renewables.

Their solution is to remove the rice straw from the fields and co-digest it with manure. With most crops, removing all the crop residues would lead to loss of organic matter in the soil, but with flooded rice-rice systems, this is not a problem. The lack of oxygen reaching the soil means that any organic matter breaks down more slowly.

Just leaving the crop roots in the soil after harvest provides enough organic matter to retain soil fertility; hence all the straw can be safely removed and used for other things. That being the case the collection and use of rice straw in the anaerobic digestion (AD) process can truly be a sustainable process.


straw-burning-in-vietnam
At the end of every growing season, rice farmers burn off all the leftover rice straw on Vietnam's fields. This process produces huge amounts of carbon emissions. – CC BY-NC-ND by Ratclimaa

Anaerobic Digestion of Rice Straw: a Big Opportunity

Anaerobic digestion has so far been adopted mostly in three areas of activity, using “wet AD technology” these being:

– Domestic and small community waste: in developing nations – especially China where several million low-tech biogas plants have been built and operated. They continue to provide much needed clean fuel and fertiliser to rural communities.

– Municipal Wastewater Sludge Treatment from the Activated Sludge Process: in industrialised nations, these have been in use for more than 50 years but are being installed now at an ever-increasing rate to enable water companies to decarbonise their operations. The best of them are using their AD plant biogas to help power operations and move rapidly toward corporate goals for compliance with global decarbonisation targets arising from the 2015 Global Accord signed in Paris.

– Commercial: Large CSTR type “Wet AD” Reactors for agricultural and food waste applications originally developed to be fed by specially grown food crops, but this has now become rare due to the removal of government subsidies and tax-breaks from food crop use. Nowadays such plants are fed with crop wastes instead, digesting what remains after the food has been harvested.

The numbers of these plants globally are rising each year and the pace of development is accelerating. The decomposed contents of the digester are returned to the land as fertiliser, creating a sustainable, ‘closed-loop’ cycle.

All 3 “wet AD” applications above are now well-proven and attracting mainstream investment. However, Straw Innovations are using a novel, “Dry AD” batch process.
Dry Anaerobic Digestion

“Dry AD” refers to biogas production using less water (20% dry matter or above) and is also now a mature technology, used until now mostly for local government-funded MSW pre-treatment. “MSW pre-treatment” is essentially anaerobic digestion/ biogas extraction which governments require to reduce the biological activity of the waste before the organic content of mixed MSW is allowed to be disposed to landfill.

Straw Innovations has adapted the dry AD process for rice straw biogas and if they have their way dry digesters will become far more popular.

Rice straw and biogas article featured image.

Rice Straw Biogas – The Next Big Opportunity for Anaerobic Digestion

The view of everyone at Straw Innovations Limited, is that now is the time for the AD industry to move into the Anaerobic Digestion of rice straw, and by so doing the rice-producing nations can also join with the rest of the world in using AD technology to decarbonise their economies at little or no net cost.

Dry AD technology is well-proven and should attract investment from banking institutions, as Straw Innovations prove its application for rice straw.

While implementing this technology for rice straw biogas they will also benefit from the many spin-off advantages of anaerobic digestion processes.

Not least will be the benefit in removing the deathly annual palls-of-smoke from straw burning, now blighting the rice-growing nations of the world.

The anaerobic digestion of rice straw must surely be a massive opportunity right in front of our eyes!
For more information, see Straw Innovations' at www.strawinnovations.com or on Facebook https://www.facebook.com/StrawInnovations/

Saturday, July 11, 2020

Demand Rises for Biomethane from Biogas Plants as Shell Signs Supply Deal

Biomethane from Biogas is in demand and it could hardly be better for biomethane producers that a major oil company such as Shell has signed up to take a biomethane supply from the Danish company Nature Energy.

Demand Rises for Biomethane from Biogas Plants


This deal among others is just a part of a consistent pattern of developing demand for this form of renewable energy biomethane which has contributed to the current high prices being obtained by biomethane producers for their climate change ameliorating energy. Read on for more details:

Nature Energy Press Release:

Nature Energy begins biomethane supply deal with Shell Energy Europe

Nature Energy has entered into a major agreement to sell biomethane to Shell Energy Europe Limited. The long-term agreement is the largest of its kind and demonstrates the important role that biomethane can play in Europe’s transition to a lower-carbon society.
“The agreement is a seal of approval of biomethane as a key driver in the energy transition globally. We are proud that a major energy player like Shell is investing in our biomethane,” 
states Ole Hvelplund, CEO of Nature Energy, and continues:
“This agreement is a commercial breakthrough for biomethane. The size of the agreement also gives us more strength to realize new biomethane projects. We have ambitions to build several large-scale biomethane plants in Denmark, North America and other parts of Europe, and the agreement with Shell is a crucial step for both Nature Energy and the energy transition,” 
Ole Hvelplund states and continues:

“In our dialogue with Shell, we have seen how important it is for them to contribute to the energy transition. For this reason, we have no doubt that it is the right thing to come together in pursuit of spreading biomethane across Europe.”

Shell welcomed the agreement as part of its wider drive to provide more and cleaner energy solutions for society.

“Biomethane has an important role to play in the energy transition. This purchase is an important part of our work to provide a range of lower-carbon energy choices for our customers across Europe,” 
states Jonathan McCloy, General Manager for gas at Shell Energy Europe. He continues:

”We are pleased to strengthen our relationship with Nature Energy through this biomethane supply deal.”

About Nature Energy 

Nature Energy is the biggest producer of biomethane on the European gas grid. Biomethane injected into the European gas grid can be stored, which is crucial to secure more renewable energy. Biomethane provides a direct path towards a green transport, industry, and heating sector by using existing distribution infrastructure. Read more about Nature Energy here.