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Integrating Anaerobic Digestion with Composting

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Integrating anaerobic technology into an in-vessel composting technology ... AD is good for quick release of energy but unable to cope with ligneous material ... – PowerPoint PPT presentation

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Title: Integrating Anaerobic Digestion with Composting

1
Integrating Anaerobic Digestion with
Composting by James Lloyd
In partnership with
2
What to expect

A General Look
Integrating anaerobic technology into an
in-vessel composting technology sales business.
A Closer Look
Combining composting with anaerobic digestion
and the reasons for doing it.

3
Finding a new technology (1)

Why bother?
The Wind of Change
English Waste Strategy
WRAP food waste report
Dont think of it as losing potential sales
think of it as gaining a whole new market!
A change in company direction and philosophy

4
Finding a new technology (2)

What did we look for?
Quality and excellence in delivery
Robust/ workable technology
Track record and availability
Price
Ease of operation
Compatibility with existing technology
Suitability to UK waste and operations

5
What did we find?

3 types of technology (broadly speaking)
Lots of WET systems (lt10 DS)
Few Intermediate Systems (10 -20 DS)
Very few really DRY systems (gt20 DS)
High Capex Opex
Higher process performance risk
Economics reliant on energy sales

6
Why continue?

EWS, WRAP report, market forces, Renewable
Obligations, energy prices, etc.
Some deliverable technologies
High levels of return for Green Energy
Advent of the DOUBLE ROC
One imagination grabbing technology!

7
What is BEKON?

Dry digestion i.e. gt20 DS
Ideal for solid wastes
Able to process combined kitchen/ garden
Batch process F.E.L. operated
Idiot proof
Robust and easy to fix
Static relies on percolate recirculation
No internal moving parts
Very low parasitic energy use and opex

8
Quick picture
9
The result?

Very positive high levels of interest from all
sectors (WM Co. ? LAs ? Businesses)
Wider company appeal development of new
contacts
Wider company appeal tailor-made solutions
Problems with
Re-branding the company
Company identity

10
More specifically
11
Integrating the two ?on site?

Only relevant for dewatered digestate or
digestate from DRY digestion plants
Digestate is still very active
AD is good for quick release of energy but unable
to cope with ligneous material
Use of PAS 100 or PAS110
?Finished? product for end markets

12
Benefits of Integration

Flexibility ABP can be achieved in either
composting OR anaerobic phase
No need to shred, macerate, or pump solid waste
and associated mechanical problems
Higher resistance to feed variations and
contamination
Lower product contamination

13
Benefits of Integration (2)

Long term emission control strategy (Germany,
Italy, UK to follow)
Move towards enclosing ALL composting
ABP composting already enclosed
Recovery of higher capex through energy recovery
(ROCs, e-kWh and t-kWh)
Proven processes and markets (PAS100)

14
Examples
Existing 80,000 tpa windrow composting operation
Existing Herhof composting operation
15
Examples (2)
Previously a 10,000 tpa windrow composting
operation
Combined with a new Tunnel Composting plant
16
Examples (3)
Combined with a new windrow Composting plant
Combined with a new Tunnel Composting plant
17
How the economics work

In simple terms
?to compete on a gate fee basis with traditional
IVC the AD portion of the project must stack up
on electrical savings or revenues alone?
While the enclosed maturation is reduced, it is
of comparable size and therefore cost to an IVC
on its own.

18
How the economics work (2)