anaerobic digestion, biogas and the circular economy
TRANSCRIPT
Facilitator
Anaerobic Digestion, Biogas and the Circular
Economy
Barbara E. Waelkens, M. Sc.
September 24th 2019, Sacramento, CA
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Facilitator
Outline
• Anaerobic Digestion process in digital detail
• Technologies and Developments for Biogas Production
• Biogas from Manure on Dairy Farms
• Biogas from organic municipal solid waste (oMSW)
• Challenges and Opportunities – the circular economy approach
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Facilitator
Anaerobic Digestion, Biogas and the Circular Economy
Substrate is fed to a reactor, processed
and produces biogas and digestate
Biogas is treated and processed to heat,
electricity or upgraded to biomethane
Digestate is dewatered, dried and incinerated, landfilled or used in
agriculture
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Facilitator
Large Particles:
Slow Degradation Anaerobic Digestion
Fundamentals
(Particulate) organic matter
breaks down by action of
enzymes and micro-
organisms, under the
absence of oxygen, to:
Intermediate Products
Amino Acids, Monosacch.
LCFAs, VFAs, H2
Final Products
CO2, CH4, H2S and NH3
Biologic imbalance:
Acidification
Biologic selection:
Loss in CH4 potential
Biogas composition:
Reflex of bio-process Data: Rosenwinkel et al. 2015
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Facilitator
Anaerobic Digestion
Digital Detail
Project MOST: Model based process automation of biogas plants
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Facilitator
Anaerobic Digestion
Fundamentals
Symbiotic dependence of acetogens and
methanogens
Methanogenic growth velocity vs temperature
van Lier et al. 1997
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Facilitator
Biogas Production
Anaerobic Digestion Process Design
Goals:
• Produce as much CH4 as
possible
• Degrade most (or all) organic
material
• CAPEX and OPEX as low as
possible
• Not contaminate the
environment?
• Produce no waste?
• Have predictable performance?
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Facilitator
Biogas Production
Useful Benchmark Values: Control Substrate
• Initial control
• Biogas potential
estimate through
Buswell eq.
• Byproducts
Substrate Composition Biogas Potential
l/kgrem
Methane content
%v
Biogas Potential
l/kgrem
Carbohydrates CcHhOo 700-830 50-55 350-450
Proteins CcHhOoNnSs 700-900 70-75 490-680
Fatty Acids CcHhOo 1000-1400 68-73 680-1020
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Facilitator
Biogas Production
Substrates of Interest
Substrate Organic Municipal Solid
Waste (example) Manure Energy Crops
TS/TVS 450 g/kg / 75% >50 g/kg / 75% >300 g/kg / 90%
Nutrients Variable, may present NH3
toxicity
Nutrient rich, may result in
NH3 toxicity
Variable, may require N and
micronutrient addition
Contaminants Particles, glass, plastic, metal,
sand, ash Sand, stones Large particles, seeds, stones
Biogas Potential [l/kgTVSin] 350-500 500-700 500-700
Methane content [%v] 55-68 50-62 50-62
Biodegradability TVS [%] 40-60 % 40-60 % 90 %
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Facilitator
Biogas Production
Useful Benchmark Values: Reactor Design
Parameter Unit Value
Hydraulic Retention Time d > 20?
Organic Loading Rate kg/(m3*d)
[lb/(ft3*d)]
1.1 – 9.9
0.009 – 0.082
Volatile Solids Removal % 59-89%
Local Power Input W/m3
[W/ft3]
100
0.38
Energy Demand %total 10%
0
1
2
3
4
5
6
7
8
9
10
0 20 40 60 80 100
Org
anic
Loadin
g R
ate
[kg/(
m3*d
)]
Hydraulic Retention Time [d]
WWTP 1 WWTP 2 Biomass Digester
20 g/l 40 g/l 200 g/l
400 g/l
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Facilitator
Biogas Production
Reactor Design – Wet Digestion (< 10 % TS)
• Covered Lagoon
• Low CAPEX
• Limited Temperature control
• Limited mixing control
• High HRTs
• CSTR
• Higher CAPEX
• Temperature control
• Mixing control
• Lower HRT (smaller footprint)
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Facilitator
Biogas Production
Reactor Design – CSTR Mixing (< 10 % TS)
• Rotors • Gas loop
Krieg & Fischer (2001)
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Facilitator
Biogas Production
Reactor Design – Dry Digestion (> 20 % TS)
• 2 Stage Garage Fermenter
• no pre-treatment
• Work intensive feeding strategy
• Plug Flow Fermenter (requires pre-treatment)
• Requires pre-treatment
• Automated feeding strategy
FNR, 2010
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Facilitator
Digestate Management
Challenges
• Digestate has historically been used as fertilizer
• Global supply chains significantly affect the balance
• 60 % of drinking water in Germany comes from
groundwater (UBA, 2013)
• Upper limit for NO3 in the groundwater is 50 mg/l
(98/83/EU)
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Facilitator
Digestate Management
Current technologies
• Dewatering up to 35 % TS
• Drying up to 90 % TS
• Incineration
• Nutrient recovery from the
ashes
• Direct disposal in
agriculture
• Nutrient recovery +
precision agriculture
https://www.bioecosim.eu/index.html
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Facilitator
• Understanding of nature‘s processes
• Measuring and controlling its limits
• To design functional systems
• Considering all mass streams
• And its consequences
…and the Circular Economy
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Facilitator
Digestate
Biogas
Anaerobic Digestion
…and the Circular Economy
