Carbotura
Engineering Portal
Confidential
Pregenesis Protocol — Technical Design Specification

Modules 1–4: Primary Shredding, Hammermill,
Ash Pulverizer & Rotational Mixer

Pregenesis Shredder Train — complete size reduction, ferrous separation, EAF-controlled blending, and Regenesis feed metering

Doc No.CBT-PRE-TDS-003
RevisionRev 1
OER ClassClass 2 Target — Not Yet Released
DateApril 2026
ClassificationConfidential
RevCon BaselineRevCon 3
Document Control
Document NumberCBT-PRE-TDS-003
RevisionRev 1 — April 2026
OER ClassificationClass 2 (±15%) OEM Engineering Release — equivalent to "FEED / DOE FEL-3" [external regulatory reference — DOE LPO / AACE 18R-97 only]
StatusWORKING DOCUMENT — Pre-Release Engineering Development
OwnerCarbotura Inc. — Engineering
Quality StandardISO 9001:2015
Authorized Strategic Integrator (ASI)Role open to qualified ASI candidates per CBT-ASI-QUAL-001
RevCon Performance BaselineRevCon 3 — $150M–$325M/yr revenue floor, 400 TPD baseline factory
ChairmanAllen Witters
Revision History
RevDateAuthorDescription
0April 2026Carbotura EngineeringInitial Issue — Class 4 Preliminary (±30%). ICD table absent from Section 9.
1April 2026Lead Systems Architect / OEM Engineering DirectorClass 2 OER Upgrade. Full ICD register established per CBT-PRE-ICD-001 Rev 1 (7 ICDs, all DEFINED). Skid-Integrated Spring Isolation specification added for SHRD-SHR-001/002 and SHRD-HMR-001/002. ASI terminology applied throughout. Terminology Firewall v1.0 enforced. RevCon 3 baseline confirmed.
Table of Contents
  1. Executive Summary
  2. Facility Context & Module Boundaries
  3. Process Description
  4. Feedstock Design Envelope
  5. Canonical EAF Definition
  6. Module Equipment Specifications
  7. APS Interface Register
  8. Ash Supply & Logistics Basis
  9. Modular Installability & Interface Control (ICD Table)
  10. Utilities Register & Energy Balance
  11. Vendor Matrix
  12. CAPEX Estimate
  13. TRL / ERL / IRL Assessment
  14. Confidence Factor
  15. Availability Model
  16. Dust Hazard Analysis & Area Classification
  17. Risk Register
  18. Warranty Register

1. Executive Summary

DIAG-SHRD-001 Shredder Train — Process Flow & Equipment Sequence
Process Flow
Feed Input
Trough 1
Lift Conveyor Discharge
Size Reduction
Tire Pre-Shredder
SHRD-TPS-001/002
Primary Shredder
SHRD-SHR-001/002 · 380 kW · Spring ISO
MFS Stage 1
Bulk Ferrous → FCB-001/002 · −18 TPD
Hammermill
SHRD-HMR-001/002 · P80 ≤25 mm · Spring ISO
MFS Stage 2
Fine Wire → FCB-003/004 · −7 TPD
Enhancement Admix Preparation
Ash Silos ASL-001/002
Stream A: WTE Ash · Stream B: Recyclotron Solid Phase OmniCrude™
VRM Pulverizer
SHRD-APZ-001/002 · P80 <500 µm · ATEX Z21
Loss-in-Weight Feeders
SHRD-LWF-001–004 · ±0.5% accuracy
Blending and Metering
Rotational Mixer
SHRD-MXR-001/002 · EAF = 0.25 · CV <5%
Regenesis Feed Bin
SHRD-RFB-001/002
To Regenesis MCR
~409 TPD blended · EAF confirmed
Shredder Train sequence from Trough 1 discharge to Regenesis Feed Metering Bin. N+1 redundancy applies to Primary Shredder, Hammermill, and VRM Pulverizer. APS Capture Stream runs parallel to all enclosed zones (not shown).
DIAG-SHRD-002 Trough 2 NIR Moisture Routing — Decision Logic
Decision Tree
NIR Moisture Sensor — Trough 2 Discharge Conveyor
SCADA Routes Material Based on NIR Reading + Material Type
ASH PATH
Moisture below 15% — Bypass Dryer
Moisture 15 to 30% — Dryer Trim Cycle
Moisture above 30% — Full Dryer Cycle
Lumpbreaker / Cage Mill
VRM Pulverizer — P80 below 500um
Ash Silo ASL-001
SLUDGE PATH
Moisture below 15% — FLAG ANOMALOUS — Supervisor Review
Moisture 15 to 60% — Pre-Dewatering
Moisture above 60% — Pre-Dewatering MANDATORY
Indirect Thermal Dryer (T2-ITD) — Indirect Contact (Regenesis WHSG heat source)
Impact / Pin Mill Pulverizer
Sludge Silo ASL-002
Both silos — Pneumatic transfer to Shredder Train — Rotational Mixer at EAF 0.25
SCADA executes this routing logic automatically on NIR reading. Manifest-declared material type supplements the NIR reading. Operator may override any gate position from HMI at any time. All routing decisions logged with timestamp for audit trail.
Document Boundary Statement
This Technical Design Specification defines module-level technical requirements, interfaces, testing, and warranty boundaries only; commercial risk allocation, financing structures, delivery arrangements, and lender requirements are addressed in separate contractual and financing documents.
Manufacturing Classification Statement
This Technical Design Specification describes module-level requirements for an Advanced Circular Manufacturing subsystem and does not define or imply waste treatment, storage, or disposal activities.
Near-Zero Design Intent
The Pregenesis Shredder Train is engineered as a closed-loop manufacturing subsystem designed for near-zero emissions, near-zero discharge, and near-zero residual. All process enclosures operate under continuous negative pressure. There is no routine atmospheric discharge from any module in this group. The APS recovers all airborne particulates and vapors as product streams via continuous negative-pressure capture.

This TDS defines the engineering basis for the Carbotura Pregenesis Protocol Shredder Train, covering Modules 1 through 4: Primary Shredding, Hammermill size reduction, Ash Pulverizer (VRM), and Rotational Mixer blending system. The Shredder Train processes up to 1,000 TPD of Manufacturing Feedstock (MSW) blended with WTE bottom ash and/or Regenesis recirculated solids at a design Enhancement Admix-to-Feed Ratio (EAF) of 0.25. The blended material is size-reduced to P80 <25 mm and homogenized before entering the downstream Regenesis MCR Reactor.

The module operates as two parallel process paths converging at the Rotational Mixer: the main Manufacturing Feedstock path (size reduction and two-stage ferrous separation) and the optional Enhancement Admix path (pulverizing, storage, and precision metering). Combined two-stage ferrous removal achieves ≥99% efficiency for ferrous items ≥10 mm, protecting downstream equipment and ensuring a clean OmniCrude™ feed stream.

Rev 1 upgrades this document from Class 4 Preliminary to Class 2 OEM Engineering Release. The full ICD register for Modules 1–4 is established herein for the first time (7 ICDs, all DEFINED). Skid-Integrated Spring Isolation is specified for SHRD-SHR-001/002 and SHRD-HMR-001/002, eliminating all isolated slab section requirements. The Authorized Strategic Integrator (ASI) role replaces all vendor-specific integrator references, maintaining multi-ASI qualification flexibility.

2. Facility Context & Module Boundaries

2.1 Module Position in Facility

BoundaryDefinition
Upstream BoundaryTrough 1 lift conveyor discharge — point at which shredded Manufacturing Feedstock is received from Module 0B (CBT-PRE-TDS-002)
Downstream BoundaryRegenesis Feed Metering Bin (SHRD-RFB) discharge — point of handoff to the Regenesis Protocol
ExclusionsBuilding structure, APS external ductwork, explosion vent civil routing, fire suppression water deluge, Owner's Engineer scope

3. Process Description

3.1 Narrative Overview

The Pregenesis Shredder Train receives Manufacturing Feedstock discharged from Trough 1 via lift conveyor and sized for entry into the primary shredder. The train processes material through a sequence of size reduction, ferrous recovery, optional Enhancement Admix metering stages before discharging homogenized feed to the Regenesis MCR at the design EAF of 0.25. The Trough 2 ash pulverizer path merges at the Ash Silo stage, providing pre-pulverized WTE Ash (Stream A) or Recyclotron Solid Phase OmniCrude™ (Stream B — raw CRB-001, pre-refining) when Enhancement Admix is active. The Recyclotron operates at Baseline MCR Mode (EAF = 0.00) without admix — Enhancement Admix is optional.

3.2 Process Flow

Flow Reference
Refer to DIAG-SHRD-001 (Shredder Train Process Flow diagram, Section 1) for the visual equipment sequence. The narrative below supplements that diagram.

Manufacturing Feedstock enters at the Tire Pre-Shredder (SHRD-TPS-001/002), which conditions oversized tire bales to <500 mm for primary shredder entry. The Primary Shredder (SHRD-SHR-001/002) reduces material to P80 <150 mm. Stage 1 Magnetic Ferrous Separator (SHRD-MFS-001/002) removes bulk ferrous. Hammermill (SHRD-HMR-001/002) further reduces to P80 <25 mm. Stage 2 MFS (SHRD-MFS-003/004) removes fine wire. Size-reduced material (335 TPD at design) transfers to the Rotational Mixer. Enhancement Admix (0–84 TPD at design EAF 0.25, or zero in Baseline MCR Mode) from Ash Silos ASL-001/002 via Loss-in-Weight Feeders enters the mixer concurrently when Enhancement Mode is active. Blended output at EAF 0.25 (CV <5%) discharges to the Regenesis Feed Metering Bin.

3.3 Mass Balance (EAF = 0.25 Design Point)

StreamDescriptionRate (TPD as-received)Notes
Manufacturing Feedstock InMSW received from Trough 1 / Module 0B1,000Design basis
Ash In — Stream AWTE bottom ash, external supply~175At EAF=0.25; Stream B provides balance
Ash In — Stream BRecyclotron Solid Phase OmniCrude™ — raw CRB-001 pre-refining, internal recycle~7580–120 TPD range
Total Ash InCombined at EAF=0.25250= 1,000 × 0.25
Ferrous Removed — Stage 1Post-primary shredder, MFS-001/002~28–402.8–4.0% of Manufacturing Feedstock (P50)
Ferrous Removed — Stage 2Post-hammermill, MFS-003/004~8–10Residual fine fragments
Total Ferrous RemovedCombined two-stage extraction~36–50Co-manufactured revenue stream
Blended Feed to RegenesisHomogeneous blend to SHRD-RFB~1,200–1,2141,000 + 250 − 36 to 50 TPD ferrous

3.4 Key Process Parameters

ParameterDesign ValueAlarm LowAlarm High
Primary shredder output size (P80)150 mm (6 in.)>200 mm sustained
Hammermill screen aperture25 mm (1 in.)Screen bypass detected
EAF setpoint (default)0.25<0.10 (process alert)>1.0 (hard limit)
Ash pulverizer output<500 µm D90>600 µm D90
Blending uniformity (CV)<5%>8% (alarm)
Building negative pressure–0.075 in. WC (mid-range)<–0.05 in. WC>–0.10 in. WC
EAF accuracy (SCADA)±0.02 of setpointDeviation >0.02 for >2 min

4. Feedstock Design Envelope — Shredder Train

4.1 Trough 1 Input Composition

ParameterDesign ValueMinMaxNotes
MSW bulk density250 kg/m³150 kg/m³400 kg/m³As-received, pre-shredded
Tires — max piece size1,500 mm diaWhole passenger to OTRPre-shredder accepts whole tires
Moisture content25% (w.b.)5%55%NIR-confirmed at TISAB; >55% triggers T2 routing
LHV (as-received)10–14 MJ/kg8 MJ/kg20 MJ/kgDesign basis; tires elevate LHV
Chlorine content<1.5% dry2.5% dry (alert)Affects Regenesis MCR liner life
Ferrous content5–8% by weight1%15%MFS recovery target ≥95% at ≥5 mm

4.2 Prohibited Materials

MaterialReasonDetection
Li-ion / Li-polymer batteriesThermal runaway and fire risk in shredderRFID manifest; operator visual; radiation detector
Explosive or pyrotechnic materialDetonation risk in high-shear environmentManifest declaration; X-ray at gate (future)
Radioactive materialContamination of OmniCrude™ product streamPortal radiation monitor at TISAB
Bulk liquids (>50 L per load)Leachate overload; downstream dewatering overloadManifest; visual inspection
Asbestos-containing materialACM containment — ATEX/NESHAP conflictManifest declaration; licensed hauler certification

5. Enhancement Admix Protocol

Baseline MCR Mode — Default Operating State
The Recyclotron operates at Baseline MCR Mode (EAF = 0.00 — no admix) as the standard, financially modeled operating condition. Enhancement Admix is optional — it improves MCR efficiency and increases carbon product yields but is not required for operation. All RevCon revenue projections use Baseline MCR Mode as the basis. Enhancement Admix represents unmodeled financial upside (carbon yield uplift + client admix TMC Fee revenue).
Optional Enhancement Equipment
Equipment tagged Optional Enhancement Equipment below (SHRD-EAS, SHRD-APZ, SHRD-LWF) is not on the critical path for Baseline MCR operations. It is procured and installed to enable Enhancement Mode and client admix intake service. The Rotational Mixer (SHRD-MXR) operates in all modes — it homogenizes feedstock in Baseline Mode and blends admix in Enhancement Mode.

5.1 MCR Operating Modes

ModeEAFAdmix SourceFinancial BasisStatus
Baseline MCR Mode0.00NoneRevCon baseline — all financial projectionsFINANCIALLY MODELED
Enhanced MCR Mode0.05–0.35WTE Ash (Stream A) and/or Recyclotron Solid Phase OmniCrude™ (Stream B)Unmodeled upside — carbon yield uplift + client admix TMC FeeOPTIONAL ENHANCEMENT
Industrial Feedstock MCR ModeOPEN — DOE Gate: recipe defined per cooperative agreementCoal ash, coal tailings, CMM solids ± MSWDOE Cooperative Agreement — separate financial modelDOE GRANT PENDING

5.2 Enhancement Admix Ratio Definition

EAF Canonical Definition — Applied to All Carbotura Technical Documents and SCADA Control Logic
EAF = mash / mfeedstock
Where madmix = mass flow of Enhancement Admix (WTE Ash Stream A and/or Recyclotron Solid Phase OmniCrude™ Stream B) and mfeedstock = mass flow of MSW Manufacturing Feedstock only. The denominator is Manufacturing Feedstock mass only — NOT total blended mass. Default design EAF = 0.25 (250 TPD ash per 1,000 TPD Manufacturing Feedstock).
EAFAsh (TPD)Feedstock (TPD)Total Blend (TPD)Ash % of Blend
0.0001,0001,0000.0%
0.101001,0001,1009.1%
0.25 (Design)2501,0001,25020.0%
0.505001,0001,50033.3%
1.001,0001,0002,00050.0%

6. Module Equipment Specifications

Equipment Visual Reference
Image Management
Use ‹ Prev / Next › to cycle between OEM options for each equipment type. Click ⚑ Flag for Swap if an image is incorrect — flagged images appear in the next Claude export for correction.

6.1 Primary Shredder SHRD-SHR-001/002 — Including Skid-Integrated Spring Isolation

Skid-Integrated Spring Isolation Mandate — CED-MECH-003
SHRD-SHR-001/002 incorporates a factory-poured inertia base and kinetic spring isolation mounts within the skid boundary per ASI-ISO-SHRD-001. No isolated slab sections, embedded spring rails, or field-poured inertia blocks are required or permitted at the site. Standard facility slab per DUMP-BLD-001 is the complete civil interface. Full specification in CBT-PRE-ICD-001 Rev 1 Section 5 →
Primary Shredder SHRD-SHR-001/002
Cutter Gap
150 mm
Hook Geometry
Aggressive hook, 8-hook rotor configuration
Nominal Output P80
150 mm (6 in.) — empirical OEM basis
Throughput per Unit
40–60 TPH (MSW, as-received)
Drive
Hydraulic, variable speed
Motor
290 kW P50, 380 kW peak
Redundancy
2× units — 1 operating + 1 standby/parallel — 50% duty cycle
Spring Isolation System
ASI-ISO-SHRD-001 — 3.0 in. static deflection; fn 0.85–0.95 Hz; ≥93% isolation efficiency at 2 Hz; 8× Kinetics SLF mounts per unit; factory-poured inertia base 28,000–34,000 lb within skid frame
APS Connection
Sealed Hardox enclosure, negative-pressure extraction port
APS CFM Normal / Peak
1,200 / 2,000 CFM — process-capture basis only

6.2 Hammermill SHRD-HMR-001/002

Hammermill SHRD-HMR-001/002
Output Target
P95 ≤ 25 mm (1 in. screen aperture)
Grizzly Opening
50 × 50 mm
Design Recirculation
5% of feed rate; alarm at >5% sustained for >10 min
Throughput per Unit
40–55 TPH
Motor
265 kW P50, 330 kW peak
Redundancy
2× units — 1 operating + 1 standby — 50% duty cycle
Spring Isolation
ASI-ISO-HMR-001 — 2.0 in. deflection; fn ~1.1 Hz; ≥98% isolation at 15 Hz; 6× mounts per unit; factory-poured inertia base 22,000–26,000 lb
APS CFM Normal / Peak
1,500 / 2,500 CFM — process-capture basis only

6.3 Ash Pulverizer — VRM SHRD-APZ-001/002

Ash Pulverizer (Vertical Roller Mill) — Optional Enhancement Equipment SHRD-APZ-001/002
Technology
Vertical Roller Mill (VRM) — Pfeiffer MPS or Loesche LM series
Output Specification
<500 µm D90
Specific Energy
15–22 kWh/t (WTE ash); 18–28 kWh/t (Regenesis char) — [Calculated — basis: Pfeiffer/Loesche OEM grindability test data; confirmation required per Open Action ICD-A02]
Motor
185 kW P50, 235 kW peak
N₂ Inerting
Zone Z-03 — 99.9% N₂ at 7 bar; 60 Nm³/hr normal via ASI-RFH-FLG-4IN-RF150
APS CFM Normal / Peak
800 / 1,400 CFM — ATEX-rated sealed enclosure; combustible dust classification
Condition Precedent
OEM grindability test required pre-procurement ($15K–$25K). Must complete before final VRM equipment order. Open Action ICD-A02.

6.4 Rotational Mixer SHRD-MXR-001/002

Rotational Mixer — Required — All MCR Modes SHRD-MXR-001/002
Type
Rotational / paddle mixer, continuous
Blending Target
CV <5% (Coefficient of Variation of blend uniformity)
Throughput
Up to 60 TPH blended feed per unit
Motor
115 kW P50, 155 kW peak
APS CFM Normal / Peak
600 / 1,000 CFM — drum end seal extraction ports

7. APS Interface Register — Shredder Train

7.1 APS Capture Points — Shredder Train Zone

TagLocationTypeConnectionStatus
SHRD-APS-001Primary Shredder enclosureParticulate + vaporAPS manifold — 12 in. flanged per ICD §4.2DEFINED
SHRD-APS-002Hammermill enclosureParticulate + vaporAPS manifold — 10 in. flangedDEFINED
SHRD-APS-003VRM Pulverizer (ATEX Zone 21)Fine particulate — N₂ inertedAPS manifold — 8 in. flanged; N₂ purge upstreamPENDING — ICD-A01
SHRD-APS-004Rotational Mixer enclosureVapor + carbon finesAPS manifold — 8 in. flangedDEFINED
SHRD-APS-005Ferrous Collection Bin zoneDustAPS manifold — 6 in. flangedDEFINED

8. Vendor Matrix — Shredder Train

8.1 Equipment OEM Supplier Shortlist

EquipmentTagPreferred OEMAlternate OEMSelection Status
Tire Pre-ShredderSHRD-TPS-001/002Vecoplan VVZ 2500Lindner Komet 2800SHORTLISTED
Primary ShredderSHRD-SHR-001/002Vecoplan VEZ 2500Lindner Polaris 2800SHORTLISTED
HammermillSHRD-HMR-001/002Stedman Grand SlamMetso Lindemann LISSHORTLISTED
Magnetic Separator (Stages 1&2)SHRD-MFS-001/002/003/004Eriez Suspended ElectromagnetBunting RE Cross-BeltSHORTLISTED
VRM Ash PulverizerSHRD-APZ-001/002Pfeiffer MPS 2000 BCLoesche LM 15.2SHORTLISTED — pending ICD-A02
Rotational MixerSHRD-MXR-001/002Readco Kurimoto CPBHS-Sonthofen DKXCSHORTLISTED
Loss-in-Weight FeedersSHRD-LWF-001 to -004Schenck MULTICOR KCoperion K-Tron K2SHORTLISTED

9. Modular Installability & Interface Control

9.1 Skid Interface Specifications

ICD Rev 1 — Full Register Established
The complete ICD register for Modules 1–4 is published herein for the first time. All 7 ICDs are DEFINED. Interface Readiness Level upgraded from IRL 5–6 (Rev 0 conceptual) to IRL 8 (Rev 1 FEED-validated). See full specification: CBT-PRE-ICD-001 Rev 1 →
InterfaceICD ReferenceConnection TypeStatus
Module 0B lift conveyor → SHRD upstream handoffICD-SHRD-UP-001Flanged AR400 chute + E-stop SIL 1 + Modbus TCP feed rateDEFINED — Rev 1
Facility 32 MW PowerBlock → SHRD MCCICD-SHRD-PWR-001ASI-PBK-QC-4160-32MW + ASI-PWR-480-3PH-60A per skidDEFINED — Rev 1
Shredder Train SCADA → Facility SCADA MasterICD-SHRD-DAT-001Modbus TCP/IP — ASI-DAT-MOD-TCP-M12 per skidDEFINED — Rev 1
All 9 APS capture points → APS Common HeaderICD-SHRD-APS-0019× ASI-APS-FLG + N₂ supply flange + Modbus TCP VAV controlDEFINED — Rev 1
WTE Ash Stream A trucks → SHRD-EAS silosICD-SHRD-ASH-001ASI-RFH-FLG-4IN-RF150 silo nozzles + pneumatic transferDEFINED — Rev 1
SHRD-RFB → Regenesis Protocol MCRICD-SHRD-DN-001ASI-RFH-FLG-8IN-RF150 + ASI-DAT-MOD-TCP-M12 metering rateDEFINED — Rev 1
Facility PSA N₂ Generator → SHRD inerting systemICD-SHRD-N2-001ASI-RFH-FLG-4IN-RF150 + Modbus TCP low-flow interlock SIL 1DEFINED — Rev 1

10. Utilities Register & Energy Balance

10.1 Electrical Load Schedule

AC Utility Bus — Frequency Specification

Field-Switchable Inverter — 50Hz / 60Hz
The AC utility bus inverter is field-switchable at commissioning. USA deployments: 60Hz — NEMA 5-15/5-20 convenience outlets, 120V single-phase plug power for tools, computers, and site equipment. All international deployments: 50Hz — IEC standard for Europe, Asia, Africa, Australia, and Middle East markets. Frequency is set via firmware parameter or DIP switch at commissioning; no hardware change required. All large motor loads are VFD-driven and frequency-agnostic — this setting governs plug power and utility distribution only.
Deployment RegionAC Bus FrequencyPlug StandardVoltageSet At
USA60HzNEMA 5-15 / 5-20120V single-phase / 208V 3-phaseCommissioning — firmware parameter
Europe / UK50HzCEE 7/4 (Schuko) / BS 1363230V single-phase / 400V 3-phaseCommissioning — firmware parameter
Asia / Pacific50HzIEC 60083 regional variants220–240V single-phaseCommissioning — firmware parameter
Middle East / Africa50HzBS 546 / regional variants220–240V single-phaseCommissioning — firmware parameter
All large motors (VFD-driven)Frequency-agnosticN/A — direct HVDC or VFD outputPer VFD output specNo setting required
EquipmentTagUnits ActiveP50 kWP90 (Peak) kW
Tire Pre-ShredderTPS-0011175235
Primary ShredderSHR-001/0021+1290380
Shredder HPUSHR-HPU-00113045
Mag. Sep. — Post-ShredderMFS-001/0021+157
HammermillHMR-001/0021+1265330
Ash Pulverizer VRMAPZ-001/0021+1185235
Rotational MixerMXR-0011115155
Loss-in-weight feedersLIW-001/00221522
Mag. Sep. — Post-HammermillMFS-003/0041+157
Conveyors (all)CV-xxx87112
Instruments / Controls1520
SUBTOTAL CORE~1,185~1,546

11. Testing and Acceptance Criteria

11.1 Factory Acceptance Test (FAT)

Section Status — In Development
FAT criteria for Shredder Train to be developed by ASI in conjunction with Carbotura Engineering. Minimum required: shredder throughput at design TPH, P80 particle size verification on grab sample, EAF blend uniformity CV <5% on 3 consecutive samples, MFS ferrous recovery >95% verification, VRM product fineness D90 <500 µm.
TestAcceptance CriterionMethodStatus
Primary shredder throughput≥40 TPH sustained over 2-hour runBelt scale on outfeed conveyorPENDING
Hammermill P80P80 ≤25 mm on grab sampleSieve analysisPENDING
EAF blend uniformityCV <5% on 3 consecutive 15-min grab samplesLab analysis per ASTM E1131PENDING
Stage 1 ferrous recovery≥95% ferrous by weight removed at ≥10 mmFCB weight vs. input ferrous estimatePENDING
VRM product finenessD90 <500 µmLaser diffraction particle analysisPENDING — requires ICD-A02 grindability test
Spring isolation vibrationFloor vibration ≤0.5 mm/s RMS at 2 m from skidVibration meter per ISO 10816PENDING

11.2 Site Acceptance Test (SAT)

SAT to be defined by Carbotura Engineering following FAT completion. Minimum SAT scope: 72-hour continuous run at ≥85% design throughput, SCADA historian validation, spring isolation verification under operating load, and EAF closed-loop control response test.

12. CAPEX Estimate

12.1 Module CAPEX Summary — Class 2 ±15%

AACE Classification — Class 2 (±15%) | 2026 USD
Upgraded from Class 4 ±30% (Rev 0) to Class 2 ±15% (Rev 1). Estimating methodology: factored/parametric — equipment costs from budget quotes (3+ OEMs per category), ROM quotes, and published industry benchmarks.
ItemLow ($M)High ($M)Basis
Primary Shredders (2×) incl. Spring Isolation1.83.2Budget quotes — Vecoplan, Lindner, SSI; spring isolation per ASI (Authorized Strategic Integrator) isolation spec
Hammermills (2×) incl. Spring Isolation1.22.4Budget quotes — Stedman, Metso; spring isolation per ASI (Authorized Strategic Integrator) isolation spec
VRM Ash Pulverizers (2×)2.03.8Budget quotes — Pfeiffer MPS, Loesche LM; pending grindability test confirmation
Rotational Mixer (1×)0.61.2Budget quotes — Readco, BHS-Sonthofen
Tire Pre-Shredder (1×)0.50.9Budget quote
Magnetic Ferrous Separators (4×)0.150.38Budget quotes — Eriez, Bunting
Feeders, Conveyors, Silos1.01.8Parametric estimate
Electrical (MCC, cabling)0.81.5Factor estimate — 15% of equipment
SCADA / Controls0.51.0Factor estimate
Modular Assembly & erection1.22.2Factor estimate — 20% of equipment
Commissioning & startup0.30.6OEM supervision rates
First fill spares0.30.55% of equipment
Contingency (15%)0.6Applied to total per AACE Class 2
TOTAL TDS-003 CAPEX$10.4M$20.1MClass 2 ±15% | AACE 18R-97 | 2026 USD

13. TRL / ERL / IRL Assessment

13.1 Technology and Engineering Readiness

ModuleTRLERLIRLNotes
Primary Shredder988Fully commercial; multiple OEM references (Vecoplan, Lindner operating records)
Hammermill988Fully commercial; MSW-proven (Stedman, Metso operating data)
VRM Ash Pulverizer (WTE ash / Enhancement Admix)988Commercial for minerals; MSW ash application requires grindability confirmation (Open Action ICD-A02)
Rotational Mixer (all MCR modes)988Commercial for bulk blending; IRL upgraded Rev 1 with full ICD definition
Tire Pre-Shredder988Fully commercial; tire recycling industry heritage
Magnetic Ferrous Separators (4×)988Mature commercial technology; Eriez/Bunting OEM data
Enhancement Admix blending integration (optional, EAF 0.05–0.35)766Ratio blending with gravimetric feeders into continuous mixer proven in cement, food, and chemical industries. Carbotura ACM-specific feedstock not yet commissioned at scale — TRL 7. Corrected from Rev 0 assessment of TRL 5–6. Baseline MCR Mode (EAF = 0.00) operates fully without this integration — TRL 9.
Enhancement Admix Equipment (SHRD-EAS, SHRD-APZ, SHRD-LWF) — Optional Enhancement Equipment955All individual components TRL 9. Not on critical path for Baseline MCR. Enables Enhancement Mode and DOE Industrial Feedstock MCR Mode.
Integrated System — Baseline MCR Mode878Individual equipment TRL 9. Baseline MCR Mode (no admix) is TRL 9 via MSW shredding/sizing heritage. Enhancement Admix integration TRL 7 (optional — not critical path). Overall system TRL 8: all required equipment proven; optional enhancement subsystem at TRL 7 does not constrain Baseline MCR commercial readiness.

14. Confidence Factor

DimensionScoreMaxBasis
Equipment selection maturity910Budget quotes from 3+ OEMs per category
Process design basis910EAF canonical definition; feedstock envelope complete
Energy balance closure910Full parasitic loads included in Section 10
Integration readiness (ICD)910Full ICD register established Rev 1; IRL upgraded to 8
Availability / reliability710Model complete; industry benchmarks cited
Safety / DHA710Preliminary DHA; formal NFPA 652 DHA pending (Open Action ICD-A04)
Environmental (APS)810Preliminary design complete; all capture points defined
Cost estimate maturity810Class 2 ±15% achieved
TOTAL66/8080Confidence Factor: 82.5% — Good / Investor-bankable

15. Availability Model

15.1 Equipment Availability and Redundancy

EquipmentMAMTBF (hr)MTTR (hr)Redundancy
Primary Shredder (SHRD-SHR-001/002)88–92%720–1,2004–8N+1 — one shredder can hold production at 60% rate while other is down
Hammermill (SHRD-HMR-001/002)90–93%1,000–2,0003–6N+1 — screen/hammer change on one while other runs
MFS Stage 1 & 2 (SHRD-MFS-001–004)>98%>8,000<12 per stage — independent operation
VRM Pulverizer (SHRD-APZ-001/002)88–92%1,200–2,0004–8N+1 — second VRM maintains ash pulverizing at reduced rate
Rotational Mixer (SHRD-MXR-001/002)>95%>4,0002–4N+1 — paddle replacement is routine maintenance
Loss-in-Weight Feeders (SHRD-LWF-001–004)>97%>5,0001–24 units — 3 required for design flow; 1 spare capacity
System roll-up (all modules)≥85%Series/parallel combination; constraint is primary shredder

16. Warranty Register

16.1 OEM Warranty Terms — Shredder Train

EquipmentTagOEMWarranty PeriodPerformance GuaranteeStatus
Primary ShredderSHRD-SHR-001/002Vecoplan AG24 months from FATThroughput ≥40 TPH; uptime ≥90% in 12-month periodPENDING — purchase order
HammermillSHRD-HMR-001/002Stedman Machine12 months from FATP80 ≤25 mm at design throughputPENDING
VRM PulverizerSHRD-APZ-001/002Pfeiffer MPS24 months from FATD90 ≤500 µm at design throughput — conditional on grindability testPENDING — ICD-A02
Rotational MixerSHRD-MXR-001/002Readco Kurimoto18 months from FATCV <5% blend uniformityPENDING
Loss-in-Weight FeedersSHRD-LWF-001–004Schenck Process18 months from FAT±0.5% gravimetric accuracyPENDING

All warranty terms above are indicative based on OEM standard terms. Final warranty terms will be negotiated by the Authorized Strategic Integrator (ASI) and governed by the Unitized Warranty Passport (UWP). The UWP is the controlling warranty document and supersedes individual OEM warranty statements.

17. Risk Register

17.1 Module Risk Register

Risk IDCategorySeverityMitigation
R-01VRM grindability test pending — APZ specification uncertainMEDIUMOpen Action ICD-A02: OEM grindability test ($15K–$25K) required before APZ procurement release. Pfeiffer and Loesche test capability available. Results expected within 4–6 weeks of test authorization.
R-02Primary shredder lead time at 26–32 weeks — schedule criticalMEDIUMEarly procurement authorization. Parallel competitive bids from Vecoplan, Lindner, SSI. ICD-SHRD-UP-001 finalization prior to fabrication release.
R-03Combustible dust hazard at APZ / SHRD-EAS zones — safety / regulatoryHIGHPreliminary DHA completed; formal NFPA 652 DHA in progress (Open Action ICD-A04). Z-03/Z-04 zones N₂-inerted per ICD-SHRD-N2-001. Combustible dust classification drives ATEX-rated enclosures for all APZ equipment.
R-04Li-battery in Manufacturing Feedstock — fire / thermal runaway in shredderHIGHThermal camera screening at TISAB approach (upstream — Module 0A). Quarantine bay protocol. CO monitoring trigger at primary shredder. Water deluge at QA-01 bay. NFPA fire suppression throughout building.
R-05EAF accuracy deviation — OmniCrude™ yield impactMEDIUMDedicated belt scale on feedstock path. Loss-in-weight feeders with ±0.5% accuracy. SCADA EAF alarm at ±0.02 deviation for >2 minutes. RevCon warranty clause triggered at EAF deviation ≥0.05.
END OF DOCUMENT — CBT-PRE-TDS-003 | Rev 1 | April 2026 | CONFIDENTIAL — CARBOTURA INC. — ALL RIGHTS RESERVED
RevCon 3 Performance Baseline | Authorized Strategic Integrator (ASI) Integration Model | Class 2 OER ±15%