Technological and economical feasibility of a 40,000 t/y...

Technological and economical feasibility of a 40,000 t/y tyre pyrolysis plant:

results of a H2020 SME Phase 1 study Dr Frank Riedewald, Managing Director, Composite Recycling Ltd, Cork, Ireland

frank.riedewald@comp.recycling.com

www.crlltd.com

Dr Maria Sousa-Gallagher, Process and Chemical Engineering, University College Cork, Ireland

ETRA conference, 18th March 2016

Waste Tyre Pyrolysis

Contents 1. Requirements for a commercial process 2. Composite Recycling Ltd’s process 3. Technical assessment 4. Market analysis 5. Financial assessment

This project has received funding from the European Union’s Horizon 2020 research and

innovation programme under grant agreement No. 672558.

Requirements for a commercial process

Scale Scale

Scale – Amount of tyres

Economies of scale and sales of: P-oil, rCB & steel

1. Scale of plant (40,000 - 100,000t/y)

2. Whole tyres – no shredding, no granulating

3. Continuous

4. Simple (low tech, low pressure, existing technology)

5. Accessible markets for all products

Economic tyre recycling process

Composite Recycling Ltd’s process

Reactor

Pyrolysis vapours

Direct heat transfer – tyres are insulators

Carbon black

Whole process

Technical Assessment

Concept layout of a 40,000 t/y plant

Technical assessment

Scrap tyre feeding system

Pyrolysis chamber – hot dip galvanizing

MOC = 316 SS

Carbon black recovery

Analysis: rCB is free of rubber

Steel removal – hot dip galvanizing

Steel is galvanized

Safety - Hot dip galvanizing

Pyrolysis oil - conventional

Pyrolysis oil

Market analysis

Market value of products – P-oil, rCB, steel

Market analysis

Product Market price Market Competitors

Tipping fee €97/t - Not given

P-oil €218/t Heavy fuel oil €400-600/t

rCB €30/t Coal €75-600/t

Steel €80/t Recycled €75-200/t

Valid: December 2015

Financial Assessment

40,000 t/year or 4m tyres/year

Oil (50%) €218/t

€4,360,000

Carbon Black (30%) €30/t

€360,000

Steel (10%) €80/t

€320,000

Financial assessment

Gate Fees €97/t

€3,880,000

Gas (10%) Self-sustaining

General assumptions Parameter Assumption

Location Europe

Currency Euro

Operating time 7,500/h, 85% uptime

Loan period 10 years

Interest rate 6%

Inflation 3%

Plant life 20 years

Discount rate 10%

Government support None (financial)

Shifts 5

Personnel 33

Financials 40,000t/y plant; amounts in thousands Year 0 1 2 3 8 9 10

Revenues 9,830 10,125 10,429 12,090 12,452 12,826

Expenditures

Capital 28,377

Capital payments -3,856 -3,856 -3,856 -3,856 -3,856 -3,856

Operating cost - -1,029 -1,060 -1,092 -1,266 -1,304 -1,343

Overall expenditures -3,856 -8,416 -8,553 -8,694 -9,464 -9,633 -6,821

Profit -3,856 1,414 1,572 1,735 2,625 2,820 6,005

Discounted Cash Flow -3,856 1,414 1,572 1,735 2,625 2,820 5,404

Cumulative Cash Flow -3,856 -2,442 -870 865 11,288 14,107 19,511

Measure Value

IRR (10 years) 20%

NPV (10 years) €2.1m

Payback period 2.5 years

40,000t/y minimum throughput of an economic plant

Financials 40,000t/y plant – effect of shredding

Measure Value

IRR (10 years) 20%

Measure Value

IRR (10 years) Negative

Shredding €25/t

Future profitability

Market analysis

Product Price (today)

Price (future)

Reason IRR (Sensitivity)

P-oil €218/t €400/t Oil price increase 100%

rCB €30/t €100/t rCB upgrade 40%

€400 = ~$80/bbl in 2020

Use proven, existing technologies

IRR over 20%

Summary

The next steps

1.Investment, H2020 Phase 2

2.Demonstration plant

Composite Recycling Ltd

References

1. M. Felisa Laresgoiti et al.; Chromatographic analysis of the gases obtained in tyre pyrolysis; J. Anal. Appl. Pyrolysis 71 (2004) 917–934.

2. P.T. Williams, Pyrolysis of waste tyres: A review, Waste Management, 33 (2013) 1714-1728; see: http://eprints.whiterose.ac.uk/77990/

3. P. Rathsack, F. Riedewald, M. Sousa-Gallagher, Analysis of the pyrolysis oil obtained from whole tyre pyrolysis with molten zinc as the heat transfer media using comprehensive gas chromatography mass spectrometry, J. Anal. Appl. Pyrolysis, 116 (2015) 49-57.

4. M. Stelmachowski; Conversion of waste rubber to the mixture of hydrocarbons in the reactor with molten metal; Energy Conversion and Management 50 (2009) 1739-1745.

5. F. Riedewald, P. Conway, M. Sousa-Gallagher, Tyre recycling utilising molten metal, Loss Prevention Bulletin, August, 2015.

6. F. Riedewald, M. Sousa-Gallagher, Novel waste printed circuit board recycling process with molten salt, MethodsX (2015).

Composite Recycling Ltd

Technological and economical feasibility of a 40,000 t/y...

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