WSPPN Maintains These Topic Hubs
Adhesives / Air pollution / Alternative technologies / Associations, institutions, etc. / Best management practices / Books / Business / California / Case studies / Chemical processes / Chemicals / Cleaner production / Cleaning / Compliance / Computer graphics / Design / Engraving / Environmental aspects / Flexographic printing / Fountain solutions / Graphic arts / Graphic methods / Gravure printing / Handbooks, manuals, etc. / Hazardous waste / Hazardous waste management / Industrial applications / Infrared curing / Ink / Isopropyl alcohol / Labeling / Labels / Laws and legislation / Life cycle assessment / Lithographic printing / Marketing / Material safety data sheets / Materials / Occupational safety and health / Offset printing / Organic solvents / Packaging / Paper / Paper products / Paper recycling / Paper waste / Pennsylvania / Photographic chemicals / Photographic film / Photographic processing / Photography / Plate printing / Pollutants / Pollution / Pollution prevention / Print shops / Printing / Printing plates / Process modification / Publishers and publishing / Radiation curing / Rags / Recycled products / Recycling (Waste, etc.) / Silver / Small business / Solvent cleaning / Solvent waste / Solvents / Source reduction (Waste management) / Soy ink / Soy oil / Substitute materials / Technical assistance / Technological innovations / Technology assessment / Ultraviolet curing / United States. Occupational Safety and Health Administration / Volatile organic compounds / Waste / Waste management / Waste reduction / Wastewater / Water / Water based products / Web printing
Alphabetical Listing of Reference Documents by Title
NOTE: [PDF] links require Acrobat Reader from Adobe.
Benchmark Life-Cycle Inventory and Impact Assessment of Sheet-fed Printing System Using Soy Based Ink
Abstract: Written by Duane A. Tolle, David P. Evers, and Bruce W. Vigon, this report discusses a study which was performed to document the life-cycle environmental impact characteristics associated with the use of soy-based inks by evaluating a typical ("generic") soy-based ink currently used in significant quantities for sheetfed printing. This typical soy-based ink printing system serves as a benchmark for future comparison with alternative ink formulations and other combinations of printing system materials. The life-cycle impact assessment (LCIA) included identification of specific processes in the streamlined life-cycle (core operations associated with material acquisition, manufacture, use, and disposal) of soy-based ink for sheetfed offset lithographic printing that make the greatest contribution to the overall environmental profile for the baseline soy ink printing system selected. The intent was to identify processes that could be modified to make reductions in environmental impact, thereby enhancing soy-based ink printing as an environmentally preferable choice. It should be noted that an LCIA is a hazard indicator system largely based on resource use and emission loading, and should not be construed to represent actual environmental impacts.
Cleaner Technologies Substitutes Assessment [PDF]
Abstract: Blanket wash chemistry alternative evaluation
Source: U.S. Environmental Protection Agency Design for the Environment Project
CTSA Summary Booklet: Solutions for Lithographic Printers: An Evaluation of Substitute Blanket Washes [PDF]
Source: EPA DfE
DfE Cleaner Technologies Substitutes Assessment: Methodology and Resource Guide
Abstract: Presents the methods and resources needed to conduct Cleaner Technologies Substitutes Assessment (CTSA), a method for evaluating the comparative risk, performance, cost, and P2 benefits of alternatives to chemicals currently in use.
Source: U.S. Environmental Protection Agency, Design for the Environment Program
The Topic Hub™ is a product of the Pollution Prevention Resource Exchange (P2Rx)
The Printing-Lithography Topic Hub™ was developed by:
Hub Last Updated: 7/28/2009