Anaerobic Digestion

Solution Strengths, Weaknesses and Critical Indicators

Anaerobic Digestion:

  • Long usable life and can be run reliably
  • Creates energy and generates environmental credits
  • Proper feeding & system monitoring is required to avoid system downtime
  • Proven technology for odor control
  • Proven technology for GHG reduction
  • Proven technology for pathogen reduction
  • Different types of systems produce varying gas production rates
  • Requires proper preparation of the feedstock
  • Requires other technologies for energy utilization
  • Requires other technologies for digestate handling
  • Requires other technologies to prevent nitrogen loss
  • Complex systems may require expertise not available on-farm

Overall Summary

 Primary Application

  • Dairy farms with over 500 cows or farms with meaningful organics for co-digestion.
  • Vacuumed/scraped manure, manure slurries, bedded pack that is diluted with digester effluent.

 Economic/Return on Investment Considerations

  • Economics are almost always a challenge; on a value of renewable energy basis, AD is hard to justify, at present received prices for electricity and gas.
  • AD does provide several non-monetary benefits to a farm (see below).

 Industry Uptake

  • 200 dairy-based U.S. installations and thousands worldwide.

Technology Maturity

  • Refined, standard designs available from multiple technology providers.

Primary Benefits

  • Odor reduction – 70 to 95% reduction of indicator acids.
  • Manure organic matter reduction – 35%.
  • Renewable electrical energy production – 2,000 kWh/cow possible each year.
  • Pathogen reduction – 90%+ elimination of fecal coliform organisms as a typical indicator pathogen.
  • Greenhouse gas emission reduction – amount varies by location and farm-specific, but reductions can be large, on the order of 67%+.
  • Nutrient preservation/transformation – key crop nutrients in manure are not consumed by AD and the nutrient form is more plant available than when not digested.
  • Contributes to society’s goal for organic landfill diversion – co-digestion easily achieved enhancing above benefits.

Secondary Benefits

  • Pre-treatment for tertiary treatments like ammonia stripping.
  • Post treatment of waste separation can produce adequate recycled manure solids for bedding livestock.
  • Renewable thermal heat production – 13,500 Btu’s/cow or more possible each year.
  • Nutrients converted for a more plant available form.
  • Increased crop yields possible.
  • Possible reduction of impact on water quality.

How it Works

  • Raw or pre-treated manure is conveyed into a gas tight vessel on a regular basis (daily or more often) that operates at a set temperature (38 ⁰C in most cases).
  • Naturally occurring microbes in manure break solids down into energy-rich biogas.
  • Biogas is used to fuel engine-generators to make electricity or is cleaned to make a natural gas replacement.
  • Some of the produced gas, or heat produced by an engine-generator set is used to heat the digester making it a net energy production system.

 Pre-treatment and/or Post-treatment Required

  • Pre-treatment not required when organic material is used to bed stalls and/or when manure is not substantially diluted. Pre-treatment to remove bedding sand is required with sand-bedded stalls.
  • Pre-treatment may be used to remove excess moisture from influent from barns where hydraulic flushing is used.
  • Post-treatment not required but may be employed based on overall goals of the manure treatment system.

Limitations

  • Does not reduce volume.
  • Does not work well with raw manure containing bedding sand.
  • Does not work with highly diluted manure due to cost and heat demands for a large vessel.

Other Considerations

  • Currently, most systems are farmer managed, more consistent results may be achieved by dedicated operators.
  • Adding co-digestible material will increase the nutrient content of the digestate and will need to be addressed in the nutrient management plan.
  • A portion of nutrients are converted from organic to inorganic. More nutrients are available for immediate update by crops, so nutrient management plans should be updated to reduce the potential for water quality concerns.

Solutions Providers in order of 9-Point Scoring System

In partnership with dairy farmers or other commercial facilities, Maas Energy Works specializes in developing, owning, and operating anaerobic manure digesters. Daryl Maas, president of Maas Energy Works, has learned about digesters not by selling them to others, but by building, owning, and operating them himself. Maas got started in…
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The most common biogas system is a complete mix CSTR-Digester.  The CSTR features a gas tight, vertical, cylindrical digester vessel.  The mixing of its contents is provided by a centered vertical low-speed agitator which is characterized by its high circulation rate.  Thus the digester content is perfectly mixed. At the…
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RAD2 Anaerobic Digester Systems: Analysis, Design, Funding, Implementation & Management Recent advances in digester technology paired with development of high-quality, low-cost combined heating and power systems have made anaerobic digesters an attractive option for many modern dairy farms. As more digesters come online, this technology has become increasingly reliable. By…
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The Impact 25 Series Bioenergy Systems are designed to scale down the size and cost of anaerobic digestion (AD). This system provides on-site generation of energy from food waste and similar organic materials. This can reduce the environmental footprint of even a single cafeteria or restaurant by offsetting trucking offsite…
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The gas collection covers are available for pond and tank applications. Each cover is custom designed with low maintenance requirements. Generally, the only mechanical requirement for the covers is maintenance of rainwater pumps and gas draw-off systems that are provided by others. The bio-gas collected from the cover systems can…
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The main components GESS includes in their biogas facilities to insure stable functioning: Metering technology to deliver the required amount of substrate Efficient digest mixing system and stable production of gas at low energy consumption Gas preparation for optimal energy conversion in CHPs Equipment for hygienization according to the EU…
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GSR’s patent-pending, scalable, bolt-on platform changes the waste nutrient management game.  It converts the growing problem of excessive nutrients into an enormous opportunity by generating new revenue sources from clean, organic streams of recovered materials and saving on treatment costs – nationwide and worldwide. GSR’s process combines cutting edge technological…
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Fitec’s self-cleaning digester includes a grit removal system and a plastics removal system. Contaminants are continuously discharged to maintain maximum digester capacity and eliminate down-time due to cleaning. In use at over 15 different biogas plants, the Fitec Self-Cleaning Digester prevents the build-up of contaminants in digester tanks, allowing for…
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Farm Power Northwest’s  goal is to build manure digesters that will serve as many Pacific Northwest dairy farms as possible. Most western Washington and Oregon dairy farms are too small to build their own digesters and successfully market the products. That’s where Farm Power Northwest comes in. Farm Power works…
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EnviTec Biogas utilizes a complete mix co-digestion system and has the capability to handle various feedstocks including but not limited to: dairy manure, milk waste, soiled feed and food waste. The digester system is composed of three individual components (CHP, flare and pressure guard). These items function to handle biogas…
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