What are the advantages and disadvantages of anaerobic digestion vs composting is a question asked by a large number of people.
Many of our readers who are familiar with composting, but who are thinking more widely about the subject of recycling organic waste and have just heard about Anaerobic Digestion want to know the anaerobic digestion pros and cons.
If this is you, read on while we answer the question: “Which is best, anaerobic digestion, or the much simpler and lower capital cost method of composting?”
First of all the two processes are very much the same. The crucial difference is that composting is the decomposition of organic matter in the presence of air (oxygen) and anaerobic digestion (AD) is the decomposition of organic matter, without air (and most importantly oxygen) present.
Now we make the case for each process by listing the advantages and disadvantages of anaerobic digestion vs composting below:
In circumstances where pathogenic organisms may be present, in many countries (such as the UK and EU) the “Animal By-products regulations” (ABP Regs.) must be complied with for all commercial compost sales/ spreading on land.
It is necessary to pasteurize both composted material and the digested output as well, to ensure that all infectious agents have been effectively removed.
Commercial composting companies and Anaerobic Digestion Plant owners ensure that they meet the relevant regulations by applying the PAS 100 code for Quality Compost.
During composting this is done by ensuring that it composts rapidly and raises its own temperature, through the heat produced during composting. The required hot temperature must be held constant for a stated minimum time period.
Ensuring that every batch self-sanitises itself this way requires very good operating practice. and detailed monitoring to demonstrate successful pasteurisation to the local environmental regulating body. This is much harder during composting than during anaerobic digestion because in an AD plant, the digestate is heated within a tank and mixed throughout the tank.
By comparison at a composting plant, the windrow edges may not reach the required temperature and with varying quality batches, raising the temperature to the required level is dependent on the self-heating effect of the composting process itself. For compost pasteurisation to be effective it depends on a high rate of energy within the composting material itself in every batch, and thus the required temperature can be hard to achieve.
3. Composting Requires Net Input of Energy: This disadvantage is the biggest disadvantage of composting! Composting requires the input of quite large energy inputs to fuel and operate the equipment needed to aerate and turn the compost piles.
By comparison, anaerobic digestion wins hands-down for “greenness” by providing its own power. it does not need additional power from fossil fuels. In the future, even the collection vehicles will be powered by methane from the AD process.
4. Company Sustainability: Composting makes no contribution to reducing the carbon footprints of the businesses that use the composting process.
By comparison, AD Plants can assist businesses by reducing their carbon footprint.
4. Odour Risk: Like AD, if run inefficiently, composting can cause an odour nuisance.
The Difference Between “Green” and “Food” Waste Compost
The are two distinct “Green” and “Food waste” compost types and input materials according to their source.
Green and food-derived composts can be used in landscape and regeneration projects. Green compost is solely derived from garden waste and comes from sources such as domestic gardens, municipal parks and recreational areas, and is collected separately from other waste streams.
This compost is usually produced outdoors in open windrows.
Food-derived compost contains a mixture of garden and food waste collected separately from other waste streams from households and businesses. This compost is produced in enclosed in-vessel systems and must be compliant with Animal By-Products Regulations (ABPR), as well as the relevant waste legislation. via wrap.org.uk
We also found the following blog articles which discuss anaerobic digestion vs composting as follows, which you might find interesting to read:
Similar to composting, in AD bacteria consume organic waste such as food scraps, silage, and animal waste and generate an environmentally benign byproduct that can be used as a natural fertilizer. Unlike composting, however, AD also produces biogas, which consists of about 2/3 methane (CH4). Natural gas is methane with a small amount of other trace gases, so biogas can be used as fuel like natural gas. … via ADAlternativeToComposting
Yes, one is with and the other without oxygen, and both divert waste from the landfill—but in terms of the end products, what is the advantage of anaerobic digestion? Simply put, does society face a shortage of compost or renewable energy?
In San Francisco, the green compost bins are ubiquitous. Even the food trucks are required to place bins alongside their trucks for compost, recyclables, and trash. Result: the city is diverting an enormous amount of trash from the landfill to help meet its zero-waste goal and producing lots of compost in the process – a process which also produces a lot of carbon dioxide, “the primary greenhouse gas emitted through human activities,” according to the EPA.
A few cities are taking an alternative, more expensive approach to diverting this organic waste called anaerobic digestion and in the process also producing biomethane that is captured for use in electricity generation or used as a transportation fuel. And from a “carbon intensity” perspective, this biogas, also called renewable natural gas, scores at the bottom of carbon intensity chart for California's Low Carbon Fuel Standard, i.e. it is one of the cleanest of all transportation fuels…. Pop Quiz Difference
Anaerobic Digestion vs Composting: Another Way to Compare the “Aerobic” Process of Composting with “Anaerobic” Digestion is to compare the simplified process diagrams which we show below:
(Source: Advanced Biological Treatment of Municipal Solid Waste, Defra UK, 2007)
It is not widely known that although both anaerobic digestion and composting can easily be done in a manner which creates large amounts of microplastic which is spread on agricultural land to be washed into global oceans.
Composting is inherently worse for causing plastic pollution than anaerobic digestion.
The simple reason for this is that:
There are advantages to both anaerobic digestion and composting, and certainly applying either before green garden waste, or other organic waste is spread on the land, is better than not processing these materials at all.
On balance, the preferred process is anaerobic digestion.
The primary reason that anaerobic digestion is considered more sustainable than composting is that composting requires an energy input to carry out the process. The energy is used in the power needed to turn the compost piles during composting.
The fact that anaerobic digestion:
are generally the factors that make anaerobic digestion the best, most sustainable, option.
Footnote:
Although composting (IVC or in Windrows) and anaerobic digestion (AD) treat similar wastes, they are in fact complementary and not competing technologies.
From an energy consumption and greenhouse gas emission reduction point of view, there is merit in having an AD stage first followed by composting.
The benefit of an AD process is that it produces energy in the form of biogas, whereas composting will generally use energy in the processing stages, in aerating the waste and treating any leachate arising from the process. Although the AD liquor which comes out of an AD plant often needs treating, the energy required is available from the biogas.
The digestate from AD often needs to be matured by composting before it can be applied to land. This point is important to be aware of when comparing anaerobic digestion vs composting because the best use of composting is to use it in combination with anaerobic digestion. In this way, they compliment each other for the best possible outcome.
Since the AD process has reduced the total amount of material (which has been removed as gas), less energy should be required than if the whole amount of waste was treated through composting.
Notwithstanding these issues, some proportions of materials are inherently better suited to either composting or anaerobic digestion.
For example, high proportions of green waste with much bulky wood material is better suited to composting processes as it is easier to handle and has less gas production. Conversely, high proportions of kitchen waste are better suited to AD processes as the gas production potential is
higher and odour control is easier to achieve.
We hope that you found this article useful. If so, and you have a moment to do this. We would greatly appreciate your comments.
Both are processes for recycling organic waste. The main difference is that composting is done in the presence of air (oxygen), while anaerobic digestion occurs without air (particularly oxygen).
Anaerobic digestion is a net energy-producing process, generating renewable energy in the form of biogas. It sanitizes the waste and reduces odours and environmental pollution. It also has long-lasting fertilizing effects and can produce carbon dioxide, a valuable product.
Anaerobic digestion requires significant investment, can cause odor issues if run inefficiently, and doesn't convert as large a proportion of the carbon in the biomass to biogas compared to gasification. It also needs careful pH control and often requires post-treatment processes for nutrient removal.
Composting requires lower initial capital investment and less training compared to anaerobic digestion. It reduces environmental pollution and diseases spread through untreated organic waste and produces a solid fertilizer output.
Composting can spread diseases if it contains animal or food waste and it doesn't comply with certain regulations. It requires significant energy inputs, contributing less to reducing carbon footprints. Like anaerobic digestion, inefficient composting can cause odour problems.
Commercial composting is a net user of energy which is used to turn the compost piles for better maturation and the screens which shred the compost to make it suitable for use. This equipment could be converted to use electricity or hydrogen as its fuel source but currently, petrol and oil-based fuels are used which adds to the carbon emissions from composting.
If composting is done badly the unturned piles may become anaerobic which will result in the worst possible outcome for climate change when methane is generated and emitted directly to the atmosphere.
UK research conducted in the 1990s showed that governments that encourage garden composting risk being found to encourage carbon emissions. The fact is that when the public conducts composting in their back gardens they simply don't have the skills necessary to avoid anaerobicity and the resulting highly damaging methane emissions. This important point is seldom made when comparing anaerobic digestion vs composting and yet is very important.
Yes, they can be complementary technologies. From an energy consumption and greenhouse gas emission reduction perspective, having an anaerobic digestion stage first followed by composting has merit. The energy required for treating the digestate from AD can be supplied by the biogas produced during the process.
Green waste with much bulky wood material is better suited to composting processes, as it's easier to handle and has less gas production. Kitchen waste, on the other hand, is better suited to anaerobic digestion processes due to its higher gas production potential and easier odor control.
The preferred process is anaerobic digestion, mainly because it is a net energy-producing process, whereas composting requires energy input. The ability of anaerobic digestion to produce biogas, a renewable and clean energy source, makes it the more sustainable option.
This article was first published on 23 Oct 2015. Previously dated September 2021.
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