Measuring Sustainability: KPIs and Reporting Frameworks for Paper Packaging Converters

Word Count: ~2,200 words | Reading Time: 9 minutes

Introduction: If You Can't Measure It, You Can't Manage It

Every converter claims to be "sustainable." Few can quantify what that means.

The sustainability measurement landscape is complex—carbon footprints, water usage, waste rates, energy efficiency, recycled content, certifications—and deliberately so. Complexity allows vague claims to hide behind jargon.

This article cuts through the noise. We'll cover the metrics that actually matter, how to measure them accurately, and which reporting frameworks provide credibility. Whether you're evaluating suppliers or establishing your own sustainability program, this is the measurement foundation you need.

Section 1: Carbon Footprint Measurement

Scope 1, 2, and 3 Emissions

Scope 1: Direct Emissions Emissions from owned/controlled sources:

• Natural gas for heating
• Company-owned vehicle fleet
• On-site fuel combustion

Measurement:

• Fuel consumption (m³ gas, liters diesel) × emission factors
• Emission factors from BEIS/DEFRA database (updated annually)
• Calculation: Straightforward, based on utility bills

Typical Converter Profile:

• Gas heating: 80-150 kg CO2e per tonne of product
• Forklift fuel: 10-20 kg CO2e per tonne
• Total Scope 1: 90-170 kg CO2e/tonne

Scope 2: Indirect Emissions from Purchased Energy Electricity consumption:

• Grid electricity for machinery, lighting, HVAC
• Calculation: kWh consumed × grid carbon intensity

UK Grid Carbon Intensity: ~180 g CO2/kWh (2024, declining)

Typical Converter Profile:

• Coating lines: 0.3-0.5 kWh per kg product
• Printing presses: 0.2-0.4 kWh per kg product
• Facility operations: 0.1-0.2 kWh per kg product
• Total Scope 2: 110-200 kg CO2e/tonne

Scope 3: Indirect Emissions in Value Chain Upstream: Material sourcing, transportation to facility Downstream: Transportation to customer, end-of-life

Measurement Challenges:

• Requires supplier data (often unavailable)
• Transportation distance estimation
• End-of-life scenario assumptions

Typical Converter Profile:

• Paper sourcing: 600-1,000 kg CO2e/tonne
• Coating materials: 80-150 kg CO2e/tonne
• Inbound transport: 10-40 kg CO2e/tonne
• Outbound transport: 10-30 kg CO2e/tonne
• Total Scope 3: 700-1,220 kg CO2e/tonne

Total Carbon Footprint (Typical UK Converter): 900-1,590 kg CO2e per tonne of finished product

Standards and Tools

ISO 14064: Greenhouse gas accounting and verification

• Provides methodology framework
• Requires third-party verification for credibility
• Cost: £5,000-15,000 for initial certification

PAS 2050: Product carbon footprinting

• UK-specific standard for product-level carbon assessment
• More detailed than ISO 14064
• Includes lifecycle stages
• Cost: £8,000-20,000 per product category

Carbon Trust Certification:

• Product-level carbon labeling
• Requires annual verification
• Recognized consumer-facing label
• Cost: £3,000-8,000 annually

Software Tools:

• SimaPro: Professional LCA software (£5,000-10,000/year)
• GaBi: Alternative LCA platform
• Carbon Analytics: Simpler tool for basic footprinting (£1,000-3,000/year)

Section 2: Resource Consumption Metrics

Water Usage

Key Metrics:

1. Total Water Withdrawal

• Measurement: Meter readings (m³)
• Typical converter: 0.5-2.0 m³ per tonne product
• Sources: Mains water, borehole, surface water

2. Water Consumption

• Water withdrawn minus water returned
• Accounts for evaporation, product incorporation
• More accurate sustainability indicator

3. Water Intensity

• Liters water per kg product or per £ revenue
• Enables year-on-year comparison despite volume changes

Industry Benchmarks:

• Efficient converter: <1.0 m³ per tonne
• Average converter: 1.0-2.5 m³ per tonne
• Inefficient converter: >2.5 m³ per tonne

Improvement Strategies:

• Closed-loop cooling systems
• Water recycling for non-contact applications
• Low-water coating formulations
• Automated cleaning (reduced waste)

GML Current Performance:

• Water intensity: 1.2 m³ per tonne
• Target (2028): 0.8 m³ per tonne
• Investment required: £180,000 in recycling systems

Energy Consumption

Key Metrics:

1. Total Energy Consumption

• Measurement: kWh (electricity) + kWh equivalent (gas)
• Typical converter: 600-1,200 kWh per tonne product

2. Renewable Energy Percentage

• % of total energy from renewable sources
• UK average: 45% (via grid mix)
• Leading converters: 60-90% (via PPAs and on-site generation)

3. Energy Intensity

• kWh per tonne of product
• Enables efficiency tracking independent of production volume

Improvement Strategies:

• LED lighting (30-50% lighting energy reduction)
• Heat recovery systems (10-20% overall reduction)
• Variable frequency drives (5-15% machinery reduction)
• Solar PV (offset 15-40% of consumption depending on roof space)

Material Efficiency

Key Metrics:

1. Material Yield

• (Finished product weight / Raw material input weight) × 100%
• Accounts for waste, off-cuts, rejected products
• Target: >95% for efficient operations

2. Waste Rate

• (Waste generated / Total material input) × 100%
• Typical converter: 3-8% waste rate
• Best-in-class: <3%

3. Recycled Content

• % of input materials containing recycled content
• Track separately for paper, coatings, packaging materials

Section 3: Waste and Circularity Metrics

Waste Generation

Waste Categories:

Production Waste:

• Paper off-cuts and trim
• Coating overspray
• Misprints and defects
• Setup waste

Packaging Waste:

• Incoming material packaging
• Outgoing product packaging

Other Waste:

• Office waste
• Maintenance materials
• PPE

Key Metrics:

1. Total Waste per Tonne Product

• Typical: 40-80 kg waste per tonne product
• Target: <40 kg per tonne

2. Recycling Rate

• (Waste recycled / Total waste) × 100%
• Industry average: 65-75%
• Target: >85%

3. Landfill Diversion Rate

• (Waste recycled + composted + incinerated with energy recovery) / Total waste
• Target: 100% (zero waste to landfill)

Circularity Indicators

Material Circularity Indicator (MCI): Ellen MacArthur Foundation metric

• Measures how circular material flows are
• Scale: 0 (linear) to 1 (fully circular)
• Calculation: Complex, accounts for recycled input and recyclability
• Typical paper packaging: MCI 0.4-0.6

Recyclability Rate (Product-Specific):

• % of product that can be effectively recycled in UK infrastructure
• Requires testing/validation
• Target: >90% for optimal EPR classification

Section 4: Certification and Compliance Metrics

Forest Certification

FSC (Forest Stewardship Council):

• Chain of custody certification
• % of paper sourced from FSC forests
• Audit frequency: Annual
• Cost: £2,000-5,000 annually

PEFC (Programme for the Endorsement of Forest Certification):

• Alternative certification scheme
• Similar chain of custody requirements
• Cost: Similar to FSC

Key Metric: Certified Content Percentage

• % of paper inputs with FSC/PEFC certification
• Leading converters: >80%
• Minimum credibility threshold: >50%

Quality and Safety Certifications

BRC Packaging Standard:

• Global standard for packaging manufacturers
• Covers quality, safety, and legality
• Grades: AA, A, B, C, D
• Target: Grade A or AA
• Audit: Annual
• Cost: £8,000-15,000 annually

ISO 14001 (Environmental Management):

• Systematic environmental management approach
• Requires continuous improvement
• Audit: Annual surveillance, full re-certification every 3 years
• Cost: £5,000-12,000 annually

Food Contact Compliance:

• Framework Regulation 1935/2004 (UK retained)
• Migration testing required
• Documentation and traceability
• No certification, but testing costs: £2,000-5,000 per product

Section 5: Reporting Frameworks

GRI (Global Reporting Initiative)

Most widely used sustainability reporting framework

Structure:

• Universal Standards (applicable to all organizations)
• Sector-specific Standards
• Topic-specific Standards

Relevant GRI Standards for Paper Converters:

• GRI 301: Materials (recycled content, waste)
• GRI 302: Energy (consumption, renewable %)
• GRI 303: Water and effluents
• GRI 305: Emissions (GHG scope 1/2/3)
• GRI 306: Waste

Reporting Level:

• Core: Minimum requirements
• Comprehensive: Full disclosure

Cost: No direct cost, but reporting preparation: £10,000-30,000 annually

CDP (Carbon Disclosure Project)

Investor-focused carbon disclosure

Scoring:

• A: Leadership
• A-: Management
• B: Awareness
• C: Disclosure
• D: Awareness

Required Information:

• Scope 1, 2, 3 emissions
• Climate risks and opportunities
• Emissions reduction targets
• Governance and strategy

Cost: Free to participate, scoring is public

TCFD (Task Force on Climate-related Financial Disclosures)

Risk-focused climate disclosure framework

Four Pillars:

1. Governance
2. Strategy
3. Risk Management
4. Metrics and Targets

Increasingly required by:

• Large companies (UK mandate for premium-listed companies)
• Financial institutions
• Investors conducting due diligence

Relevant for: Converters supplying major corporations

Section 6: Setting Meaningful Targets

Science-Based Targets

SBTi (Science Based Targets initiative): Aligns emission reduction targets with climate science

Requirements:

• Scope 1+2: Reduce 4.2% per year (1.5°C pathway)
• Scope 3: Reduce 2.5% per year
• Near-term targets (5-10 years)
• Net-zero commitment

Benefits:

• Credibility with investors and customers
• Competitive differentiation
• Internal focus and accountability

Commitment Process:

1. Sign commitment letter (public)
2. Develop targets (6-24 months)
3. Submit for validation (2-6 months)
4. Publish targets (public)
5. Annual reporting on progress

Cost: £15,000-40,000 for consultant support + £1,000-2,500 SBTi validation fee

Internal KPI Framework

Recommended KPIs for Paper Converters:

Environmental:

1. Carbon intensity (kg CO2e per tonne product) - Target: 10% reduction per 5 years
2. Renewable energy % - Target: 75% by 2030
3. Waste to landfill (kg per tonne product) - Target: Zero by 2028
4. Water intensity (m³ per tonne product) - Target: Annual 3% reduction
5. Material yield % - Target: >96%

Circularity:

1. Recycled content % - Target: >60%
2. Product recyclability rate - Target: >85% highly recyclable classification
3. FSC/PEFC certified content % - Target: 100%

Social:

1. Employee training hours (sustainability topics)
2. Supplier sustainability audits completed

Section 7: Benchmarking and Transparency

Industry Benchmarks

CEPI (Confederation of European Paper Industries) Data:

• Industry average carbon intensity: 800-1,200 kg CO2e/tonne paper production
• Converters typically add 200-400 kg CO2e/tonne
• Total: 1,000-1,600 kg CO2e/tonne finished product

Energy Benchmarks:

• Efficient converter: <800 kWh per tonne
• Average: 800-1,200 kWh per tonne
• Inefficient: >1,200 kWh per tonne

Water Benchmarks:

• Efficient: <1.0 m³ per tonne
• Average: 1.0-2.0 m³ per tonne
• Inefficient: >2.0 m³ per tonne

Public Disclosure

Benefits of Transparency:

• Competitive advantage in procurement
• Investor confidence
• Customer trust
• Employee engagement
• Forces internal accountability

Risks of Transparency:

• Competitive exposure (minor - metrics are similar across efficient operators)
• Scrutiny of targets (only problematic if greenwashing)
• Historical data may look poor (context and trajectory matter more)

Disclosure Recommendations:

• Annual sustainability report (published on website)
• Key metrics dashboard (updated quarterly)
• Product-specific carbon footprints (on request)
• Certification status (publicly displayed)

Section 8: GML's Measurement Approach

Our Current Performance (2024)

Carbon Footprint:

• Scope 1: 135 kg CO2e/tonne
• Scope 2: 145 kg CO2e/tonne
• Scope 3: 685 kg CO2e/tonne
• Total: 965 kg CO2e/tonne

Resource Consumption:

• Energy intensity: 920 kWh/tonne
• Renewable energy: 40%
• Water intensity: 1.2 m³/tonne

Waste and Circularity:

• Waste rate: 4.2%
• Recycling rate: 78%
• Landfill diversion: 95%

Certifications:

• FSC Chain of Custody ✓
• PEFC Chain of Custody ✓
• ISO 14001 (in progress, target Q2 2025)
• BRC Packaging: Grade B

2030 Targets

Carbon:

• Total footprint: 685 kg CO2e/tonne (-29%)
• Renewable energy: 75%

Resource Efficiency:

• Energy intensity: 730 kWh/tonne (-21%)
• Water intensity: 0.8 m³/tonne (-33%)

Circularity:

• Zero waste to landfill
• Recycling rate: >90%
• 85% of products "highly recyclable" classification

Transparency:

• Annual sustainability report published
• Product-level carbon footprints available
• Customer portal for supply chain data

Conclusion: Measurement Drives Improvement

The converters that will thrive in coming years are those that measure, report, and improve sustainability metrics systematically. Customers increasingly require quantified data, not vague claims.

Key Takeaways:

1. Start measuring now - Even imperfect measurement beats no measurement
2. Focus on material metrics - Carbon, water, waste, circularity
3. Benchmark against peers - Know where you stand
4. Set public targets - Accountability drives action
5. Report transparently - Builds trust and competitive advantage

For Procurement Teams: Require quantified metrics from suppliers. Vague sustainability claims without data should disqualify suppliers from consideration.

[CTA: "Want to see our detailed sustainability metrics? Download our annual sustainability report or contact us for product-specific carbon footprint data. Transparency is our commitment."]

Related Articles

• [Main Article: Sustainable Paper Packaging - Full Lifecycle Guide]
• The Hidden Carbon Footprint: Manufacturing, Transport, and the UK Advantage
• Beyond Recycling: Designing for Circular Economy Compliance

Resources:

• GRI Standards: [URL]
• SBTi Guidance: [URL]
• CEPI Sustainability Report: [URL]
• Carbon Trust Tools: [URL]