Product Information PIRR 850 Slimicide CAS Reg. No. 111-30-8 (Canada nly) General PIRR 850 Slimicide is a high performing microbicides based on glutaraldehyde. It is effective against the bacteria and fungi present in papermaking systems and useful in preventing the formation of slime in all areas of the papermaking process. For paper applications, this product is sold in Canada as PIRR 850 Slimicide. For all other regions and applications, please refer to UCARCIDE 50 Antimicrobial. Structure Physical Properties The following are typical properties of PIRR 850 Slimicide; they are not to be considered product specifications. Appearance............................................ Transparent colorless Active, % (w/w)............................................ 50 p @ 25 C:...................................................... 3.1 to 4.5 Solubility in Water, 20 C:............................................. Miscible Boiling Point................................................. 100.5 C/213 F Freezing Point:................................................... -21 C/6 F Specific Gravity, @ 20/20 C:............................................ 1.127 Vapor Pressure @ 20 C:............. 0.2 mm g based on glutaraldehyde (0.27 hpa) Special Features and Benefits Product Performance Very effective in alkaline papermaking processes Broad spectrum biocides: kill bacteria, yeast and mold Functional over a broad p and temperature range Extremely fast-acting Non-surface active and non-foaming Effective against aerobic and anaerobic microorganisms, including sulfate-reducing bacteria Do not contain or release formaldehyde Compatible with commonly used wet-end additives Not affected by the presence of hard water dorless Internal laboratory testing by Dow resulted in lower corrosion to metals than the control of water applied in the testing on metals such as low carbon steel, galvanized steel and Galvaneal steel Easy to handle relative to other slimicides Can be diluted or deactivated easily to non-biocidal levels Non-halogenated materials Contain no heavy metals or salts Effect of Papermaking Additives A wide range of additives are used in the papermaking process to impart specific properties to the finished product. A majority of these chemicals, including slimicides, are added to the wet stock and are referred to as wet-end additives. While it is important that the slimicide Page 1 of 7 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow Form No. 253-01465-12/01/08 PS
not interfere with function of the additives, it is equally important that the additives have no deleterious effect on the efficacy of the slimicide. A series of laboratory experiments were conducted to determine if commonly used wet-end additives would adversely affect the performance of PIRR 850 Slimicide. Table 1 shows the effect of alum, calcium carbonate, kaolin clay, rosin, starch, sulfite and titanium dioxide on the biocidal efficacy of 25 ppm active slimicide. All additives were tested at a concentration of 0.5 percent, with the exception of calcium carbonate (0.1 percent), and sulfite (0.005 percent). The experiments were conducted at p 7, using a pure strain of Pseudomonas aeruginosa. The results compare the efficacy of the active slimicide in the presence of the additives with a sample that contained slimicide alone. After one hour, all samples showed a greater than 99% reduction in microorganism levels. After three hours, the reduction was essentially complete, demonstrating the effectiveness of PIRR 850 Slimicide in the presence of these chemicals. Table 1 Effect of Chemical Additives on the Efficacy of PIRR 850 Slimicide Efficacy Chemical Additive Microorganism Level, CFU/mL 2 Sample 1 1 hr. 3 hr. Control 6.7 x 10 6 7.2 x 10 6 PIRR 850 Slimicide alone 5.0 x 10 1 ND PIRR 850 Slimicide + Alum ND ND PIRR 850 Slimicide + Calcium Carbonate 1.4 x 104 3.6 x 10 2 PIRR 850 Slimicide + Kaolin 3.1 x 10 3 ND PIRR 850 Slimicide + Rosin ND ND PIRR 850 Slimicide + Starch 1.1 x 10 2 ND PIRR 850 Slimicide + Sulfite ND ND PIRR 850 Slimicide + Titanium Dioxide ND ND (1) All samples contained 25 ppm active ingredient, except for Control which contained no slimicide (2) ND = None Detectable Many types of microorganisms, such as bacteria, mold and yeast, can be found in a paper mill. When uncontrolled, the growth of microorganisms can lead to serious process and quality problems, including offensive odors, corrosion of equipment, and spots and breaks in the paper. The following experiments demonstrate the effectiveness of PIRR 850 Slimicide against the many types of microorganisms found in papermaking systems. The activity of PIRR 850 Slimicide was determined in samples of whitewater obtained from two different paper mills that had been experiencing microbiological problems. The alkaline samples consisted mainly of Pseudomonas, Bacillus, and Klebsiella species, while Klebsiella and Rhodotorula predominated in the acidic sample. The contaminated water samples were diluted (1:4) with deionized water and treated with various concentrations of the slimicide. The results of these experiments are shown in Table 2. As the results show, PIRR 850 Slimicide greatly reduced the level of microorganisms in both acidic (p 5.3) and alkaline (p 8.1) systems. Table 2 Effect of PIRR 850 Slimicide on Microorganisms in Whitewater Microorganism Level, CFU/mL 1, After: Active p Ingredient (ppm) 1 hr. 3 hr. 7 hr. 24 hr. 8.1 0 (control) 2.0 x 10 5 5.0 x 10 5 3.0 x 10 5 3.0 x 10 5 50 1.5 x 10 4 5.9 x 10 3 2.5 x 10 2 ND 100 ND ND ND ND 5.3 0 (control) 3.0 x 10 5 3.0 x 10 5 2.0 x 10 5 2.0 x 10 5 50 1.8 x 10 4 4.0 x 10 3 5.0 x 10 2 1.3 x 10 1 100 1.0 x 10 2 7.0 x 10 1 ND ND (1) ND = None Detectable Page 2 of 7 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow Form No. 253-01465-12/01/08 PS
The American Society for Testing Materials (ASTM) has developed a test method to determine the efficacy of slimicides. This method involves the use of an aqueous buffered solution contaminated with pulp and rosin and inoculated with a test organism (Enterobacter aerogenes or Pseudomonas aeruginosa). The contact time of the slimicide is three hours from the time the pulp culture is inoculated. The results shown in Table 3 demonstrate the excellent performance of PIRR 850 Slimicide in this standard test protocol. Although 80 percent reductions in microorganism populations are considered effective by the ASTM, PIRR 850 Slimicide brought about a greater than 90 percent reduction at 25 ppm and essentially complete kill at 50 ppm. Table 3 ASTM Paper Slimicide Test PIRR 850 Slimicide (ppm, a.i.) P. aeruginosa, CFU/mL 1 % Reduction 0 (control) 3.7 x 10 6 25 7.5 x 10 4 97.9 50 3.5 x 10 1 99.9 100 ND 100.0 PIRR 850 Slimicide (ppm, a.i.) E. aerogenes, CFU/mL 1 % Reduction 0 (control) 2.0 x 10 8 25 2.8 x 10 6 98.6 50 ND 100.0 100 ND 100.0 (1) ND = None Detectable Efficacy vs. Sulfate-Reducing Bacteria Sulfate-reducing bacteria (SRB's) are anaerobic microorganisms often found under slime deposits where the oxygen tension is low. These organisms are responsible for corrosion of equipment and odor problems. A series of experiments were performed to determine the effectiveness of PIRR 850 Slimicide against Desulfovibrio desulfuricans, a well know species of sulfate-reducing bacteria. The experiments were designed to test the effectiveness of the slimicides in a system which contained high levels of sulfate-reducing bacteria. Figure 1 summarizes the results of the experiment. PIRR 850 Slimicide concentrations are in parts per million (ppm) active ingredient. The bacteria were exposed to the slimicide for periods of 3, 7 and 24 hours, at which point the solutions were enumerated by serial dilution. The graph illustrates the outstanding ability of PIRR 850 Slimicide to reduce the level of sulfate-reducing bacteria present in the solutions at any time point. Page 3 of 7 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow Form No. 253-01465-12/01/08 PS
Figure 1 PIRR 850 Slimicide Efficacy vs. Sulfate-Reducing Bacteria CFU/mL 10 7 10 6 10 5 10 4 10 3 Control 20 ppm active 40 ppm active 80 ppm active 10 2 10 1 10 0 0 6 12 18 24 30 Time, hr Effectiveness on Materials of Construction PIRR 850 Slimicide is compatible with the following materials of construction: Stainless steel, nickel, and polyethylene. PIRR 850 Slimicide is compatible with the following gasketing materials: Silicone, Kalrez, Teflon and Grafoil. Applications Paper Mills and Paper Mill Process Water Systems PIRR 850 Slimicide should be added to a papermaking system at a point of uniform mixing, such as the head box, beaters, broke chest, save-all, or white water. Initial Treatment: When the system is noticeably contaminated, add 0.5 to 3.0 lbs. of PIRR 850 Slimicide per ton of dry pulp or paper (dry basis) as a slug dose. Repeat until control is achieved. eavily fouled systems should be boiled out prior to initial treatment. Subsequent Dose: When microbial control is evident, add 0.3 to 2.0 lbs. of PIRR 850 Slimicide per ton of pulp or paper (dry basis) as a slug dose as necessary to maintain control. Pigments and Filler Slurries for Paper and Paperboard Add sufficient quantities of PIRR 850 Slimicide to produce a concentration of 100 to 600 ppm based on slurry solids. Water-Based Coatings NTE: For use in non-food contact coatings only Add sufficient quantities of PIRR 850 Slimicide to produce a concentration of 100 to 600 ppm based on slurry solids. and the Environment Many studies have been performed on glutaraldehyde to determine its potential to biodegrade in the environment. The details of two of the many biodegradation studies that have been performed on glutaraldehyde are detailed on the following page. Page 4 of 7 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow Form No. 253-01465-12/01/08 PS
The ECD 301 series of biodegradation protocols are designed to determine the biodegradation potential of substances under stringent conditions. In one such biodegradation test, glutaraldehyde met and exceeded the ECD ready biodegradability classification criteria and thus was found to be readily biodegradable. % Biodegradation of (GA) in ECD 301A Test 100 80 % Biodegradation 60 40 70% Threshold Sodium Benzoate Control GA Biodegradation 20 0 0 2 4 6 8 10 Day Complete details on the biodegradation tests mentioned above, as well as many other environmental fate and ecotoxicology tests that have been performed on glutaraldehyde, are summarized in a Dow Chemical publication entitled Ecotoxicology of (Form No. 253-01418). is readily biodegradable compound that has little environmental impact when handled properly. Due to its rapid decomposition both, aerobically and anaerobically it has a favorable ecotoxicology profile. Aerobic Aquatic Metabolism T 1/2 in river water - 10.6 hr. Carbon dioxide was the major metabolite, with glutaric acid as intermediate Glutaric Acid C 2 Carbon Dioxide Anaerobic Aquatic Metabolism T 1/2 in river water - 7.7 hr. 1,5-Pentanediol was the major metabolite 5-ydroxypentanal 1,5-Pentanediol Page 5 of 7 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow Form No. 253-01465-12/01/08 PS
Toxicology Toxicity of Test ral Acute Toxicity Dermal Acute Toxicity Inhalation Eye Irritation Fish Toxicity Avian Safe andling, Storage, and Disposal Summary Product Stewardship The following is a partial listing of toxicological data on glutaraldehyde, the active ingredient in PIRR 850 Slimicide. For product safety information, refer to the Product Material Safety Data Sheet. For a complete discussion of the toxicology of glutaraldehyde, please ask your Dow Chemical sales representative for a copy of the booklet entitled Toxicology of (Form No. 253-01419). Animal Rat male Rabbit Rat male and female Rabbit Rainbow Trout Bluegill Sunfish Sheepshead Minnow Bobwhite Quail See SDS for full safety information. Results LD 50 1.30 ml 50% a.i./kg body wt. LD 50 = 2.54 ml 50% a.i. /kg 24 hour occluded. Necrosis at application site Dynamic generation of vapor, 4 hour = 16.3 ppm, room temperature. Mortality: 0/5 The no-effect concentration for eye irritation with glutaraldehyde based solutions is 0.1%. The threshold for conjunctival irritation if 0.2 to 0.5%, and for corneal injury 0.5 to 1.0%. Eye injury is moderate at 2% and severe at 5% and above. Alkalinization may slightly enhance the degree of eye injury. 96r LC 50 12 mg/l 96r LC 50 11 mg/l 96r LC 50 32 mg/l LC 50 >5000 mg/l When applying PIRR 850 Slimicide, it is important to wear the appropriate protective equipment. This equipment includes proper gloves, chemical goggles, coveralls and when necessary, full-face respiratory equipment. An eyewash fountain should be located in the immediate work area. Do not spray or aerosolize the undiluted form of the product. Full personal protection equipment (including skin covering and full-face SCBA respirator) is required for dilutions or mixtures of the product used in a spray application. Please refer to the product label for specific precautions and use directions. Further information and precautions regarding the handling, storage, and disposal of PIRR 850 Slimicide can be obtained by consulting the latest Dow Safety Data Sheet and the Safe andling and Storage Guide (Form No. 253-01431), available from your Dow representative. See the back page for addresses and phone numbers. At recommended dose levels, PIRR 850 Slimicide is useful in controlling many bacterial and slime problems typically encountered in the papermaking process. (Please refer to the product label for specific use directions.) They are compatible with most common papermaking additives and display excellent biodegradation in the environment. Dow Biocides encourages its customers to review their applications of Dow Biocides products from the standpoint of human health and environmental quality. To help ensure that Dow Biocides products are not used in ways for which they are not intended or tested, Dow Biocides personnel are willing to assist customers in dealing with ecological and product safety considerations. Contact your representative if you need any assistance or information. When considering the use of any Dow product in a particular application, review the latest Safety Data Sheet and country-specific product label to ensure the intended use is within the scope of approved uses and can be accomplished safely. Before handling any of the products mentioned in the text, obtain available product safety information and take necessary steps to ensure safety of use. This product available in Canada only. Page 6 of 7 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow Form No. 253-01465-12/01/08 PS
For further information visit our website: www.dowbiocides.com or call: United States +1-800-447-4369 (phone) and Canada: +1-989-832-1560 (phone) +1-989-832-1465 (fax) Europe: +800-3-694-6367 (phone) +32-3-450-2240 (phone) +32-3-450-2815 (fax) Pacific: +800-7776-7776 (phone) +800-7779-7779 (fax) +603-7958-3392 (phone) +603-7958-5598 (fax) Latin America: +55-11-5188-9555 (phone) +55-11-5188-9937 (fax) India: +91-22-2760-2504 (phone) +91-22-2760-6899 (fax) ther Global +1-989-832-1560 (phone) Areas: +1-989-832-1465 (fax) except Indonesia and Vietnam NTICE: No freedom from any patent owned by Seller or others is to be inferred. Because use conditions and applicable laws may differ from one location to another and may change with time, Customer is responsible for determining whether products and the information in this document are appropriate for Customer s use and for ensuring that Customer s workplace and disposal practices are in compliance with applicable laws and other governmental enactments. Seller assumes no obligation or liability for the information in this document. N WARRANTIES ARE GIVEN; ALL IMPLIED WARRANTIES F MERCANTABILITY R FITNESS FR A PARTICULAR PURPSE ARE EXPRESSLY EXCLUDED. Please note that not all products are registered in all regions for all applications. Please contact your local Dow representative for detailed technical information applicable to your individual situation. USE BICIDES SAFELY. ALWAYS READ TE LABEL AND PRDUCT INFRMATIN BEFRE USE. Page 7 of 7 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow Form No. 253-01465-12/01/08 PS