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2. Summit Brands' existing sustainability efforts, including ISO 14001 certification, reducing packaging, and developing green chemistry products.
3. The new expectations from Walmart around supplier sustainability performance and goals for suppliers to measure environmental impacts and set reduction targets.
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The document provides an overview of Summit Brands' supplier sustainability initiative and training. It discusses:
1. The benefits of sustainability for suppliers in terms of risk mitigation, efficiency, and competitive advantage.
2. Summit Brands' existing sustainability efforts including ISO 14001 certification, reducing packaging, and developing green chemistry products.
3. The new expectations from Walmart around supplier sustainability reporting and goals to reduce environmental impacts across the supply chain.
Tetra Pak is focused on environmental sustainability through its 2020 strategy. The strategy has three pillars: renew, reduce, recycle. It aims to renew materials with sustainable supplies, reduce environmental impacts across the value chain, and increase carton recycling rates. Tetra Pak uses renewable paperboard from well-managed forests and is innovating to use renewable polymers and less material in packaging. It has also increased the number of carton recyclers and the accessibility of carton recycling for consumers.
The document summarizes the establishment and activities of the Go Green Policy Committee within the Bahrain Ministry of Finance. It was established in 2010 to implement green policies and programs within the ministry. The committee is headed by the Acting Financial Information Director and includes representatives from various ministry directorates. Its vision is to be a leader in achieving a green office working environment, and its mission is to emphasize and implement the understanding of green policy within the ministry. The committee has achieved several targets related to reducing paper consumption, waste recycling, electricity reduction, and developing green policies and procedures. It has implemented various initiatives such as replacing traditional fax with e-fax, using electronic systems, and education campaigns.
The document discusses carbon footprinting and life cycle assessment (LCA) for the printing industry. It introduces the speaker, Hirokazu Shimizu, and his research on developing a carbon calculator called PGG-CLOUD to calculate the carbon footprint of printing processes. International standards for carbon footprinting are being developed through ISO, with many countries actively involved. The document compares the system boundaries and stages included in carbon footprinting according to general, ISO, French, German and Japanese methods. It provides a sample carbon footprint calculation in kg CO2e for printing 5000 copies of a book in different countries.
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New approaches for quantification scheme of carbon footprint of paper book an...Shimizu Printing Inc.
New approaches for quantifying the carbon footprint of paper books and e-books are presented. For paper books, additional factors considered include the carbon savings from paper and plate recycling, as well as the footprint of bookstore operations and shopping transportation. For e-books, assumptions are made about daily usage times for devices like the iPad and iPhone to estimate reading footprint. Various usage scenarios are modeled to compare the footprint of paper books and e-books.
The document discusses simplifying PCR calculations for printed products. It proposes a new PCR that calculates carbon emissions from only 10 items, compared to current PCRs that consider many more items. Case studies show the new PCR estimates carbon emissions as 1.7-18.5% lower than current PCRs. Current PCRs also have variability, with carbon estimates ranging from -21.5% to +7.1% depending on emission factors, and +23.4% to -19.0% depending on calculation method used. Therefore, both new and current PCRs provide a range rather than absolute carbon calculations.
Carbon Impacts of paper manufacture literature review by RMITChristopher Sewell
Carbon impacts of paper manufacture literature review study undertaken by RMIT Centre of Design on behalf of The Gaia Partnership for use in the emission calculator, The CO2counter.
“The methodology and carbon factors used to measure the resulting CO2 calculation in the commercial printing section of the CO2counter are based on best practice independent and published academic research. The carbon factors used for the paper component of the calculation is also based on a Gaia commissioned review conducted by Centre for Design RMIT University Melbourne Australia in July 2009".
1) The document compares the carbon footprint of a paper book and an e-book.
2) It finds that the paper book has a carbon footprint of 579g of CO2 equivalents per copy, while the e-book has a lower footprint of 277g of CO2 equivalents per copy.
3) A sensitivity analysis shows that even with different user behaviors of the e-book reading device, the e-book still has a lower carbon footprint than the paper book.
Practical Methods to Manufacture Sustainable Plastics Products I. Partial Foa...Ata Zad, Ph.D.
Sustainability is a crucial word to follow for plastics industry.
A very general, yet precise, explanation of Sustainability would be producing a product with using the least amount of resources.
Partial foaming is one of the ways to achieve this objective in plastics industry.
Read the article to see the benefits for yourself.
Patricia Calkins, VP Environment, Health & Safety, Xerox Corporation. Presentation at the Xerox Thought Leadership Summit: A Business Case for Sustainability. August 10, 2010. Willard Hotel, Washington DC.
CarE-Service Techno-polymer recycling by Radici GroupOlgaRodrguezLargo
Presentation of the recycling process developed in CarE-Service Project during the First Exploitation Webinar of the project held on 9th December 2020 by Radici Group
The document provides an overview of Canon's corporate sustainability initiatives and environmentally friendly product features. It discusses Canon's corporate structure, environmental management system, goals to reduce resource usage and carbon emissions, green procurement policies, and programs to promote environmental education. It also highlights several product features that help customers conserve paper, toner, and energy usage including duplex printing, N-up printing, and rapid fusing technologies.
Tanjim printing and packaging limited (TPPL) commissioned an environmental impact assessment to evaluate its operations. The assessment identified some potential negative impacts, such as noise pollution and improper waste disposal, but also noted several beneficial impacts like job creation and recycling programs. The report recommends mitigation measures to address the negative impacts through compliance with health and safety standards, proper use of protective equipment, and emergency response planning. It concludes that if TPPL implements the suggested environmental management plan, the company can operate in an environmentally friendly manner.
Supplier sustainability training spring 2013 - finalMosaic_EFA
The document provides an overview of Summit Brands' supplier sustainability initiative and training. It discusses:
1. The benefits of sustainability for suppliers, including risk mitigation, efficiency gains, and competitive advantages.
2. Summit Brands' existing sustainability efforts, including ISO 14001 certification, reducing packaging, and developing green chemistry products.
3. The new expectations from Walmart around supplier sustainability performance and goals for suppliers to measure environmental impacts and set reduction targets.
Supplier sustainability training spring 2013 - final2Mosaic_EFA
The document provides an overview of Summit Brands' supplier sustainability initiative and training. It discusses:
1. The benefits of sustainability for suppliers in terms of risk mitigation, efficiency, and competitive advantage.
2. Summit Brands' existing sustainability efforts including ISO 14001 certification, reducing packaging, and developing green chemistry products.
3. The new expectations from Walmart around supplier sustainability reporting and goals to reduce environmental impacts across the supply chain.
Tetra Pak is focused on environmental sustainability through its 2020 strategy. The strategy has three pillars: renew, reduce, recycle. It aims to renew materials with sustainable supplies, reduce environmental impacts across the value chain, and increase carton recycling rates. Tetra Pak uses renewable paperboard from well-managed forests and is innovating to use renewable polymers and less material in packaging. It has also increased the number of carton recyclers and the accessibility of carton recycling for consumers.
The document summarizes the establishment and activities of the Go Green Policy Committee within the Bahrain Ministry of Finance. It was established in 2010 to implement green policies and programs within the ministry. The committee is headed by the Acting Financial Information Director and includes representatives from various ministry directorates. Its vision is to be a leader in achieving a green office working environment, and its mission is to emphasize and implement the understanding of green policy within the ministry. The committee has achieved several targets related to reducing paper consumption, waste recycling, electricity reduction, and developing green policies and procedures. It has implemented various initiatives such as replacing traditional fax with e-fax, using electronic systems, and education campaigns.
The document discusses carbon footprinting and life cycle assessment (LCA) for the printing industry. It introduces the speaker, Hirokazu Shimizu, and his research on developing a carbon calculator called PGG-CLOUD to calculate the carbon footprint of printing processes. International standards for carbon footprinting are being developed through ISO, with many countries actively involved. The document compares the system boundaries and stages included in carbon footprinting according to general, ISO, French, German and Japanese methods. It provides a sample carbon footprint calculation in kg CO2e for printing 5000 copies of a book in different countries.
This document provides an overview of cleaner production concepts and methodology. It defines cleaner production as applying preventative environmental strategies to reduce waste and emissions throughout the product life cycle. The document outlines the key elements of a cleaner production project, including data collection, identifying sources of waste, generating reduction options, and implementing and monitoring changes. It distinguishes cleaner production from end-of-pipe solutions by focusing on preventing pollution at the source rather than treating waste after it is generated. The overall goal of cleaner production is to increase resource efficiency and reduce costs by minimizing waste and emissions from industrial processes.
IRJET- Treatment of Industrial Wastewater by using Sugarcane BagasseIRJET Journal
The document discusses using sugarcane bagasse as a low-cost adsorbent for treating industrial wastewater. It finds that activated sugarcane bagasse, produced by carbonizing and dehydrating raw sugarcane bagasse, is more effective at removing pollutants like BOD, COD and turbidity from wastewater than raw bagasse. The maximum removals achieved were 77.82% for BOD using activated bagasse and 70.3% for turbidity. The study demonstrates sugarcane bagasse can be used as an affordable adsorbent for industrial wastewater treatment.
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1. Nagata Laboratory, Waseda University Graduate School of Environment and Energy Engineering
“Eco-conscious design” for printed products
Multilateral approaches for printing to go greener
Dr. SHIMIZU, Hirokazu
President, SHIMIZU PRINTING INC.
Visiting Senior Researcher, Waseda University Environmental Research Institute
Expert, ISO130 (Graphic technology) WG11(Environmental impact of graphic technology)
1
2. Waseda University Environmental Research Institute
Self-introduction “처음 뵙겠어요”
1. Date of birth
• May 19th, 1967
2. Qualification
• Specialist on UV printing technology of graphic arts
• Specialist on Life-cycle approach (LCA, LCC, MFCA..and etc.)
3. Pioneering achievements
• Development of “UV Waterless High-Definition” printing method
• Schematization of “Printing service LCA and LCCO2”
4. Award
• “UV Waterless High-definition” printing, Encouraging Prize by
Japanese Society of Printing Science and Technology in 2011
• “Establishment of quantitative assessment for printing service”,
Best Paper Award by Japanese Society of Printing Science and
Technology in 2010
• “Establishment of Printing service LCA to propose environment-
conscious solution”, Chairman’s Award (2nd best)
by 6th LCA Japan Forum in 2010
Shimizu Printing Inc. 2
3. Waseda University Environmental Research Institute
Self-introduction “반갑습니다”
5. Extra activities (present)
• Visiting Senior Researcher, Waseda University Environmental
Research Institute (早稲田大学環境総合研究センター)
• Expert (Thailand), ISO130 (Graphic technology) WG11
(Environmental impact assessment of graphic technology)
• Policy Adviser for SMEs at Japan Chamber of Commerce
• Committee, Energy and Nuclear Committee at Japan Chamber
of Commerce
• Committee, Environment Committee at Tokyo Chamber of
Commerce
• Supervisor, Joint research project for CFP of printed products
with Chulalongkorn University in Thailand
6. Extra activities (past)
• Committee, Renewable energy buy-out committee at Ministry of
Economy, Trade and Industry
• Committee, Product Category Rule for Carbon Footprint of
Products Committee at Japan Federation of Printing Industry
Shimizu Printing Inc. 3
4. Waseda University Environmental Research Institute
Self-introduction “잘 부탁드립니다”
7. Academic paper
1) Hirokazu Shimizu, Katsuya Nagata, and Aran Hansuebsai. 2012. Comparisons of
Paper-‐‑‒book and E-‐‑‒book by the scale of carbon footprint. Proceedings of The Asian
Symposium on Printing Technology: 39-‐‑‒44
2) Hirokazu Shimizu, Katsuya Nagata, and Aran Hansuebsai. 2011. Integrated Life
cycle Assessment (LCA) for Printing Service in an emerging country. Proceedings
of EcoDesign 2011 International Symposium: 283-‐‑‒288
3) Hirokazu Shimizu, and Katsuya Nagata. 2010. Integrated Life cycle Assessment
(LCA) Approach for Printing Service by Using Environmental Load Point (ELP)
Method. Journal of Printing Science and Technology 47 (3): 39-‐‑‒47
4) Hirokazu Shimizu, and Katsuya Nagata. 2010. Comparison of Life-‐‑‒cycle CO2
emissions for Paper-‐‑‒Based Books and Electronic Books. Journal of Printing Science
and Technology 47 (2): 19-‐‑‒29
5) Hirokazu Shimizu. 2009. Establishment of quantitative assessment for Printing
Service. Journal of Printing Science and Technology 46 (6): 26-‐‑‒35
Shimizu Printing Inc. 4
5. Waseda University Environmental Research Institute
Agenda
1. Improving printed products to be “Eco-conscious” by quantitative
method, not by qualitative method
• Definition of Eco-conscious products
• Case study of plastic document file for Eco Product 2012
• New idea to promote printed products
2. Reforming current calculation standard (Product Category Rule)
to be wide-spread for SMEs
• Promotion of new calculation standard for printing
• Accuracy of existing calculation standard for printing
• Magnitude of calculation accuracy for new/existing standards
3. Utilizing “Printing Goes Green CLOUD (PGG-CLOUD)” to quantify
environmental impact by the scale of CO2
• Primary data and secondary data collection
• Actual operation
• Next step to evaluate by different impact categories
Shimizu Printing Inc. 5
6. Waseda University Environmental Research Institute
1. Eco-conscious printed products
Definition of Eco-conscious printed products:
The printed products which have “shining-
star quality” in terms of environment related
issues backed by quantitative assessment
(not by touchy-feely opinion, but by
numerical numbers)
Shimizu Printing Inc. 6
7. Waseda University Environmental Research Institute
1. Eco-conscious printed products (cont’d)
Case study: Polypropylene-made document file
Use application: Ad. tool for Eco Products 2012
Copies: 2000
Material: Polypropylene
Press: Bk+C+M+Y+W+Bk+C+M+Y+OP varnish
Post-press: Die-cut, glue
Normal practice: PP 0.20mm is used
Best practice: PP 0.15mm is used
How much can “Best practice” be improved
by by the scale of CO2 emission?
Shimizu Printing Inc. 7
9. Waseda University Environmental Research Institute
1. Eco-conscious printed products (cont’d)
Case study: Polypropylene-made document file
kg-CO2e
500
Recycle from f
-14.6% Recycle from h
Waste from h&f
Delivery
375 Water
Postpress
Press
CtP
250
Design/Editing
Other materials
Additives
125
Printing plate
Ink
PP 0.20mm Substrate
0
Shimizu Printing Inc.
PP 0.15mm 9
10. Waseda University Environmental Research Institute
1. Eco-conscious printed products (cont’d)
New idea to promote Eco-conscious printed products
-20%
D A AA AAA
Economical factor (¥)
-15%
D B A AA
-10%
D C B A
-5%
D D D D
-5% -10% -15% -20%
Environmental factor (CO2)
Shimizu Printing Inc. 10
11. Waseda University Environmental Research Institute
2. Reforming current PCR
Select only 10-item for simplification
(1)Substrate NOT calculated
5% cut-off rule/Guess-work for primary data
(2)Transportation for substrate
(3)Ink & varnish Water (dampening solution)
Additive (dampening solution)
(4)Transportation for Ink & varnish
(5)Plate (waterless printing)
(6)Transportation for Plate
Prepress(editing, designing, CtP)
(7)Printing process (waterless printing)
(8)Post-press process
Material (glue, stitch...)
(9)Distribution
Wrapping material for delivery
(10)Waste & Recycle
Shimizu Printing Inc. 11
12. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
Points of modifying current PCR
I. Calculation method is standardized to “cumulative”
II. Modeling for thickness of ink/varnish
III. Electricity usage = Rated output × fixed loading factor
IV. Loading percentage of truck is fixed at 50%
V. Calculate incineration by coated layer of paper only
VI. Printed products only by waterless printing method
VII.Avoid “scenario setting” of key items
Shimizu Printing Inc. 12
13. 1.Substrate (paper/plastic)
2. Trans. for Substrate (trucks/rail/surface/air)
Shimizu Printing Inc.
Raw material acquisition
3.Ink & varnish (conv./UV ink, OP varnish, Coating varnish)
4.Trans. for Ink & varnish (trucks/rail/surface/air)
5.Plate (for waterless printing)
13
Points of modifying current PCR
6.Trans. for Plate (trucks/rail/surface/air)
7.Printing process (electricity for machines, lighting, air-cond.)
Production
8.Postpress process (electricity for machines, lighting, air-cond.)
9.Delivery (excluding packing materials)
2. Reforming current PCR (cont’d)
Distribution
10.Waste from household, Recycle from factory and household
Waste/
Waseda University Environmental Research Institute
Recycle
15. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
Accuracy of new PCR for Printing by case studies (Paper package for DVD)
100%
Others
Waste & Recycle
Delivery
75% Postpress process
Printing process
Trans. for Plate
50% Plate
Trans. for Ink&varnish
Ink&varnish
25% Trans. for Subs.
Substrate
100000
30000
10000
5000 0%
Shimizu Printing Inc. 500 15
16. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
Accuracy of new PCR for Printing by case studies (Flyer from 300-500,000)
other items 10 items %
100
90
80
70
60
50
40
30
300
20
500
1000
10
1000
2000
2000
3300
5000
5000
0
5000
10000
10000
10000
10000
15000
20000
30000
Shimizu Printing Inc. 16 500000
17. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
Accuracy of new PCR for Printing by case studies (Booklet from 410-500,000)
other items 10 items %
100
90
80
70
60
50
40
30
20
410
500
1000
10
1300
2000
2000
2400
2700
4000
4500
5000
0
5000
9500
10000
10000
18000
18000
30000
Shimizu Printing Inc.
50000
17 100000
18. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
Conclusion of new PCR accuracy
Carbon calc. by 10-selected item
Package
1.7% ~ 18.5% of “Others” by Shimizu Printing
Flyer
2.8% ~ 22.6% of “Others” by 18 cases (JWPA)
Booklet
0.8% ~ 32.2% of “Others” by 60 cases (JWPA)
New PCR has “missing piece” of carbon calc. result
Current PCR can provide absolute carbon calc. result?
Shimizu Printing Inc. 18
19. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
Current PCR: The difference by emission factor of paper
(1) Magazine, 210mm*297mm, 4P+44P, 4000copies
(2) Coated card for cover, 210gsm, UV4C+PP lamination
(3) Light coated paper for text, 127.9gsm, UV4C/UV4C
(4) EF of text is calculated by weighting 6 factories (48.2%)
(5) Max. EF=1.419kg-CO2e/kg, Min.=0.704kg-CO2e/kg
(6) Weighted EF=1.197kg-CO2e/kg
(7) Sensitivity analysis by different EF of Light coated paper
(8) What I use for text is Avg./Max./Min.?
Reference:JLCA-LCA database 2012yr.1st edition
Shimizu Printing Inc. 19
20. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
The difference by EF of paper (Magazine, 4000 copies)
kg-CO2e
+7.1% 2250 Recycle
Waste
2000 Delivery
-21.5%
Water
1750
1384.94 1541.192 Postpress
1500 Press
CtP
1250
Design/Editing
1000
913.137
Additives
750
Plate
Avg. E.F. 500 Ink
Max. E.F. 250 Paper
0
Shimizu Printing Inc. Min. E.F. 20
21. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
The difference by calc. method
(1) Paper package for DVD, 130mm*130mm*9mm,
100,000copies
(2) Coated cardboard, 360gsm, UV4C+UVOP varnish
(3) EF is calculated by weighting 4 factories (86.8%)
(4) Calculated based on Cumulative method for
1,000-100,000
(5) Calculated based on Allocation method for
1,000-100,000 (allocation basis is based on paper input)
(6) Current PCR allows printers to utilize both methods
(7) Who can consider the difference between two methods?
Shimizu Printing Inc. 21
23. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
The difference by calc. method (Paper package for DVD)
300
250
200
Cumulative Allocation
150
100
50
0
1000 2500 5000 7500 10000 20000 30000 40000 50000 60000 70000 80000 90000 100000
Shimizu Printing Inc. 23
24. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
Conclusion of current PCR accuracy
Carbon calc. by different EFs
+7.1% ~ -21.5% compared to avg. data
Carbon calc. by different calc. methods
+23.4% ~ -19.0% compared to cumulative method
Current PCR has certain range of carbon calc. result
No absolute number from carbon calculation
Shimizu Printing Inc. 24
25. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
Magnitude of fluctuation by new/current PCR
Min. Max. %
Current PCR 130
123.4
97.2 107.1
99.2
97.5
77.4
78.5
67.8 81
65
32.5
10-item(flyer)
10-item(Booklet)
Paper EF 0
Allo./Cum.
Shimizu Printing Inc. 25
26. Waseda University Environmental Research Institute
2. Reforming current PCR (cont’d)
CFP trial (16-page booklet, 2000 copies) by 7-printer from JWPA
Item Shimizu A B C D E F
Material 2.90E-01 2.90E-01 2.90E-01 2.80E-01 2.80E-01 2.90E-01 2.80E-01
Production 6.80E-02 7.30E-02 8.50E-02 3.10E-02 2.40E-02 4.10E-02 3.10E-02
Delivery 3.30E-02 3.30E-02 3.30E-02 3.30E-02 3.40E-02 3.40E-02 3.30E-02
Use 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00
Disposal/Recycle 1.30E-02 1.00E-02 1.00E-02 1.20E-02 1.30E-02 1.30E-02 1.20E-02
TTL (kg-CO2e/copy) 4.00E-01 4.06E-01 4.18E-01 3.60E-01 3.50E-01 3.80E-01 3.60E-01
% comparison in group - 98.5% 101.5% 100.0% 97.2% 104.9% 100.0%
Avg. in group
4.00E-01 4.12E-01
E 3.60E-01
E
(kg-CO2e/copy)
*New PCR for “Printed products for waterless printing” was certified in Sep. 2012
*Cost of CFP logo on PR tool for Eco Product 2012 should be minimized
*Calculation results should be in +-5% range to utilize averaged figure
*Carbon calculation by 7-printer, then categorized into 3 groups based on the results
*Applying for CFP by group is effective to reduce application fee for SMEs
Shimizu Printing Inc. 26
27. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD
PGG-CLOUD is developed for...
Assisting printers to work on carbon
calculation to get jobs
For carbon footprinting / carbon offsetting
Following “print-buyers at the leading edge” to
defend jobs
For transformation of people’s subconscious
Shimizu Printing Inc. 27
28. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Detailed 7-key feature are...
Calculating based on “clouding”
Calculating based on English/Japanese/Thai...etc.
Calculating by cumulative/allocation method
Calculating “full range of life cycle”
Calculating material input/output precisely
Calculating by massive database
Calculating results are summary/detailed (2-type)
Shimizu Printing Inc. 28
29. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Any kind of devices if it can access to internet
Computers Tablets Smart phones
Shimizu Printing Inc. 29
30. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Select a job
Shimizu Printing Inc. 30
31. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Case study “Introduction to Hangul”
Size: A5 (210mm*148.5mm)
Page: 4P+112P
Copy: 10,000 copies
Jacket: Coated paper, 157.0gsm,
2500+500sheets, 4-color+PP lamination
Cover: Fine paper, 157.0gsm,
1250+250sheets, 1-color
Text: Fine paper, 104.7gsm,
35000+1000sheets, 2-color on both sides
Binding: Perfect binding
Shimizu Printing Inc. 31
32. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Substrate
Shimizu Printing Inc. 32
33. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Emission Factors of papers
2.250
2.05 2.000
1.93
1.77 1.83 Fine paper
1.750
Coated paper
1.500 Non-bleached paper
Bleached paper
1.250
1.13 1.2 Carton box paper
1.19
1.000 Coated cardboard
0.750 Chipboard
0.500
0.250
Emission Factors (kg-CO2e/kg) 0
Reference: CFP communication program basic database ver.1.01
Shimizu Printing Inc. 33
34. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: “Piece of inventory data” comparison of R0% and R70%
(in order to make 1kg of “Fine Paper”)
Category Item Unit Fine P. (R0%) Fine P. (R70%) R70%/R0%
Energy electricity Wh 1.34E+02 1.69E+02 126.7%
Energy coal g 8.84E+01 2.47E+02 279.4%
Energy Black liquor BDg 1.31E+03 4.90E+02 37.5%
Energy Paper sludge BDg 1.81E+01 3.69E+01 37.5%
CO2
Emission (air) BDg 6.33E+02 9.81E+02 155.1%
(production)
CO2
Emission (air) BDg 3.39E+02 9.80E+01 28.9%
(forestation)
CO2
Emission (air) BDg 0.00E+00 1.78E+01 -
(recycling)
Reference: JLCA-LCA database 2012yr. 1st edition
Shimizu Printing Inc. 34
35. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Material flow
Shimizu Printing Inc. 35
36. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Product area and non-product area
939mm
420mm
Paper area:
210mm
148.5mm 0.597204㎡
636mm
Product area:
594mm
0.498960㎡
Product area %:
83.5%
Shimizu Printing Inc. 36
37. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Ink usage
Shimizu Printing Inc. 37
38. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Calculation process of ink usage amount
Ink thickness
Maximum paper size of press Sheet run
Ink coverage %
0.001mm×1040mm×740mm×12%×36000sheet
×2-side÷1000 ÷1000=6.649kg
Convert to “kg”
Convert to “gram”
Print on both sides
Shimizu Printing Inc. 38
39. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Ink transportation
Shimizu Printing Inc. 39
40. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Check distance from start to goal by web
Shimizu Printing Inc. 40
41. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Water (dampening solution)
Shimizu Printing Inc. 41
42. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Scale factor of dampening solution
Shimizu Printing Inc. 42
43. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Additives for dampening solution
Shimizu Printing Inc. 43
44. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Breakout of dampening solution
14.89176kg×2.5 times=37.22940kg
→37.22940÷1.05=35.456571kg
→IPA=35.456571×3.5%=1.240980kg
→Additives=35.456571%×1.5=0.531848kg
Shimizu Printing Inc. 44
45. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Printing plate
Shimizu Printing Inc. 45
46. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Conversion of EF from “㎡” base to “kg” base
12.300 kg-CO2e/㎡ (0.400mm thickness)
→1.030m×0.785m=0.80855㎡=80.855%
→0.240mm÷0.400mm=60.000%
→80.855%×60.000%=48.513%
→ 12.300 kg-CO2e/㎡×48.513%=5.967kg-CO2e/plate
→ 5.967kg-CO2e/plate×2-plate=11.934kg-CO2e/kg
Reference: CFP communication program basic database ver.1.01
Shimizu Printing Inc. 46
47. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Design & Editing
Shimizu Printing Inc. 47
48. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Actual monitoring of Mac quadra for 3-week
Electricity usage (kWh)
0.215
0.210
0.205
0.200
0.195
0.190
0.185
0.180
0.175 1-1 1-2 1-3 1-4 1-5 1-6 1-7 1-8 1-9 1-10 2-1 2-2 2-3 2-4 2-5 2-6 2-7 2-8 2-9 2-10 3-1 3-2 3-3 3-4 3-5 3-6 3-7 3-8 3-9 3-10
*Line graph shown above is the monitoring data (once every 1-hour) for 3-week
Shimizu Printing Inc. 48
49. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Computer to Plate (CtP)
Shimizu Printing Inc. 49
50. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Actual monitoring of Prinergy server for 5-week
Electricity usage (kWh)
0.215
0.210
0.205
0.200
0.195
0.190
0.185
0.180
0.175 1-1 1-2 1-3 1-4 1-5 1-6 1-7 1-8 1-9 1-10 2-1 2-2 2-3 2-4 2-5 2-6 2-7 2-8 2-9 2-10 3-1 3-2 3-3 3-4 3-5 3-6 3-7 3-8 3-9 3-10
*Line graph shown above is the monitoring data (once every 1-hour) for 5-week
Shimizu Printing Inc. 50
51. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Press
Shimizu Printing Inc. 51
52. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Break out of electricity usage by a press
R704 with perfecting unit
18%
Press
Pumps
Peripheraals
53%
29%
Shimizu Printing Inc. 52
53. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Postpress
Shimizu Printing Inc. 53
55. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Delivery
Shimizu Printing Inc. 55
56. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Weight calculation of wrapping paper
817.0mm
80mm 180mm 148.5mm 180mm 148.5mm 80mm
210mm
210mm
0.817m×0.210m=0.17157㎡
→100gsm×0.17157㎡=17.2g/wrapping paper
→17.2g/wrapping paper×(10000÷20)=8.6kg
Shimizu Printing Inc. 56
57. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Waste from household & factory
Shimizu Printing Inc. 57
58. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Recalculation of material flow
Shimizu Printing Inc. 58
59. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: Recycle from factory
Shimizu Printing Inc. 59
60. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
RM: Recalculation of material flow
Shimizu Printing Inc. 60
61. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Calculation: CO2e summary
Shimizu Printing Inc. 61
62. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
For marketing tool (CFP label, Japan)
Reference: http://www.cfp-japan.jp
Shimizu Printing Inc. 62
63. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
For marketing tool (CFP label, Korea)
How did they calculate CO2
for printing a package?
Reference: http://www.edp.or.kr/index_eng.asp
Shimizu Printing Inc. 63
64. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
For sensitivity analysis (Best practice=Lightweight of paper)
kg-CO2e
6500
Recycle
Waste
-17.7% 5850
Delivery
5200 Water
Postpress
4550
Press
3900 CtP
3250 Design/Editing
Additives
2600
Plate
1950
Ink
Normal Practice 1300
Paper
650
Best practice 0
Shimizu Printing Inc. 64
65. Waseda University Environmental Research Institute
3.Utilization of PGG-CLOUD (cont’d)
Sensitivity analysis (Environmental Load Point=ELP)
ELP
27,500,000
Landfill
10t-truck
24,750,000 4t-truck
-19.7% 2t-truck
22,000,000 Recycled Al
Recycled pulp
19,250,000
Electricity
16,500,000
Water
Ink (Plolyurethane)
13,750,000 Al
Paper
11,000,000
Environment impact categories of ELP:
8,250,000 1-Energy drain, 2-GWP, 3-Ozone depletion,
4-Acid rain, 5-Natural resource consumption,
5,500,000
Normal practice 6-Air pollution, 7-Water pollution,
2,750,000 8-Disposal problem, 9-Ecosystem effect
Best practice 0
Reference: Nagata Lab., Waseda University Graduate School of Environment and Energy Engineering
Shimizu Printing Inc. 65
66. Waseda University Environmental Research Institute
Summary
Utilization of quantitative assessment for
“Eco-conscious Products”
a. Find “Hotspot(s)” to improve manufacturing process
and/or select eco-friendly material
b. Communicate with print-buyers (consumers) by
showing comprehensive internal comparison
c. Conduct many pilot projects to know efficiency of CFP
(environment impact assessment)
Utilized for sales growth and cost-cut,
not for academic experts to be satisfied
Simplification of calculation is extremely important to save time
and money, “Detailed calculation cannot guarantee accuracy!”
Shimizu Printing Inc. 66
67. Waseda University Environmental Research Institute
“고마웠습니다”
Thank you for your attention.
You can have a look at this presentation file:
http://www.slideshare.net/ShimizuHiro/edit_my_uploads
Corporate web site:
http://www.shzpp.co.jp
Shimizu Printing Inc. 67