ERTG Claims Service Banner
On-farm-Anaerobic-Digestion-Schematic

Anaerobic Digestion of Manure

on farm biogas from manureThe anaerobic digestion of manure is the most common type of on farm anaerobic digestion, although there are an increasing number of on farm AD plants which also either grow and digest their own bio-energy crops, or import food waste, and other similar feed materials.

The most basic manure digestion plants are low profile low cost and simple Anaerobic Digestion plants, usually found on dairy farms which accept the farm's own manure. The facility would normally be expected to by owned and operated by the farmer/farm business, but on occasions may be part of a co-operative venture and in that case most are community funded or government aided.

Image; Biogas plant at Oakley Little Wood (Philip Jeffrey) / CC BY-SA 2.0

Frequently those plants that process only the waste produced on that farm, may avoid the more stringent regulation of larger plants where there is import of feed materials, and often would not be approved to accept Animal By-Products.

On-farm Anaerobic Digestion Schematic Diagram

Table 1 – Simple On-Farm Anaerobic Digestion Schematic Diagram

On farm Anaerobic Digestion Schematic

The anaerobic digestion of manure/ farm slurries may be carried out as a joint venture between the members of a farming co-operative. In such cases the AD Plant will be located on one farm within the co-operative, and these biogas plants are called “Central” anaerobic digestion plants.

Central Anaerobic Digestion

These plants are larger and more complex than On Farm Anaerobic Digestion Plants. They will serve a number of livestock farms and usually be PPC Permitted by the environmental regulator. They will usually accept Animal By-Products wastes for digestion and be licensed by the state veterinary service to do so.

Central Anaerobic Digestion Plant Schematic

Table 2 – Simple Central Anaerobic Digestion Schematic Diagram

Central-Anaerobic-Digestion-Plant-Schematic

Diagrams provided courtesy of DEFRA: Ref – AEAT/ENV/R/2104; Assessment of Methane Management and Recovery Options for Livestock Manures and Slurries. Report for: Sustainable Agriculture Strategy Division,Department for Environment Food and Rural Affairs,London SW1P 3JR.

Centralised Anaerobic Digestion in Denmark

The Danish were the early leaders, with the Germans and Ducth, close to follow. In Denmark in 2008 there were over 20 centralised Anaerobic Digestion plants in operation and more than 60 farm scale Anaerobic Digestion in use. That figure will be much higher now.

Technically these have been operating well we are told, and in 2008 many had been operating for more than 15 years. They are economically viable and most operate as co-digestion plants with slurries, in additional to food industry, brewing industry etc wastes.

The farm manure slurries do not add a great deal of gas production, and accepting the sludges from the farm may be seen as more valuable as a disposal method for this wastewater which cannot be discharged to watercourses without treatment, than as a biogas and energy revenue creator.

The comparative gas yield figures are:

  • 1 tonne liquid manure 5% Dry Mass (DM) = 20 m3 biogas
  • 1 tonne organic waste = 0 –1000 m3 biogas

[box type=”note”]At the beginning of this page we said that the anaerobic digestion of manure may also include the use of energy crops specially grown to be used to create energy. In general we are against the large scale use of crops for this purpose, as it can displace food crops and raise the cost of food, and might even conceivably cause food shortages in the worst cases. However, the use of certain crops, as part of the feedstock used, can assist in efficient manure digestion, and some digester operators may also use parts of their crop as digester feedstock. This would otherwise go to waste and rot away in the fields. In such circumstances the use of energy/food crops can be a positive feature, and very acceptable.[/box]

Comments

  1. Reply

    I’d like to point out that biogas plants based on dairy manure only, have a bad reputation due to low biogas production per unit mass of manure and therefore a low return on investment. This is made worse by high capital investment and operational costs. In the US viable energy production and waste recycling from anaerobic digestion of manure is only possible if the facility is run on a combination of manure, co-digested with other higher yielding biomass materials.

    • MythKracker
    • October 21, 2017
    Reply

    I see that from looking at this website that you are just one of many people I speak to who interpret the phrase “Climate change is a fact.” to mean “We must all work together to protect the planet.” To do this you are using word “fact” falsely. To say it is a fact is no longer associated with “objective reality” but rather you must be using the word in association with subjective concepts such as “policy.”

  2. Reply

    Creating your own green energy on the basis of your farm’s manure can put 5p in your pocket for every litre the farm produces. You also get independence from energy producers and distributors and the increasingly rising energy prices.

    • Fasa
    • January 31, 2019
    Reply

    All I have to say is CRAP.

    • Caroline S
    • October 10, 2021
    Reply

    They could do a better job of collecting carbon so that it can be fed to an Algae Farm, which I believe they could perform better at. Then, using the oil generated by the algae, you can power another generator with it. And use the carbon dioxide to grow vegetables as food. Alternatively, simply refeed it to another batch of Algae.

Leave a Reply

Your email address will not be published. Required fields are marked *

This site uses Akismet to reduce spam. Learn how your comment data is processed.

Advertisement Banner for Home Biogas Buddy.
0 Shares
Share
Tweet
Pin
Share