Water-Borne Wood Preservation and End-of-Life Removal History and Projection

Use of water-borne wood preservatives began in approximately the 1950s. Residential and commercial uses rapidly developed for products such as decking, fences, and other outdoor structures. Nearly all such products were treated by preservatives using arsenic as a major ingredient. The most common preservative was chromated copper arsenate (CCA). A smaller volume used ammoniacal copper zinc arsenate (ACZA). Preservative label changes made in 2003 limited uses of these arsenical treatments to industrial or agricultural type uses, such as poles, piles, ties, bridges, and fencing. Use volumes of preservative-treated wood continued to grow after the label change, but the types of preservatives used changed greatly. The amounts of water-borne treated wood reaching end-of-life and being disposed also continued to grow, reflecting the increasing inventory of volume in service. However, the volume of arsenical-treated wood being disposed peaked in approximately 2008 and is now only approximately one-quarter of that volume. Most of the arsenical-treated wood now being disposed consists of large, easily identified and separated pieces, such as round poles, piles, and fence posts and timbers, which can be easily managed separated from other wood construction and demolition (C & D) waste. Thus, managing C & D waste to limit arsenic contamination of potential products, such as mulch, will be much more practical than some have feared.


S. T. Smith
largely addressed concerns about exposure to the treated product, concerns remain regarding potential environmental impacts associated with disposal of arsenical wood products treated prior to 2004 and for arsenical-approved products since then. In particular, the U. S. Environmental Protection Agency (EPA) requested information about disposal as part of its 2008 process to reauthorize uses of the preservatives. CCA and ACZA use was re-authorized by the EPA in 2008.
In 2005, the Wood Preservative Science Council (WPSC) sponsored a study [2] on the impact of the voluntary label change that eliminated most residential and commercial uses of CCA-treated wood. That study provided the amounts of CCA preservative used in the U.S. before and the year after the label change and estimated the amounts of wood treated by CCA for the same times. The volume of wood treated with CCA dropped from nearly 600 million cubic feet in 2000 down to an estimated 109 million cubic feet in 2004. The volume after 2003 was approximately 18% of the volume before that year. That study also estimated disposal rates of CCA treated wood in the U.S. Disposal volumes were estimated using estimated average service lives and standard deviations for the treated products with historic reports of wood treatment volumes. After 2004, annual volume of CCA treatment was assumed to be 100 million cubic feet. This study was provided to the EPA, but was not published.
In 2016, the Arsenical Treated Wood Task Force (ATWTF) sponsored a study [3] on the amount of CCA preservative used, and the products for which it was used as a follow up to the 2005 study. This study used both data on total CCA preservative sold in the U. S. and a survey of CCA wood preserving companies. The total CCA preservative used by U.S. treating companies in 2014 was reported to the author by the client as just under 50,000,000 pounds. That amount (50 million pounds) was accepted as the amount used in 2015. CCA use from this time forward was expected to be relatively stable, since the residential market was no longer part of the CCA-treated wood market. A survey of treaters was used to determine the typical product fractions of the total market treated with CCA. Use of CCA preservatives was estimated for the reported products based on required preservative retentions, typical treatable fractions for the wood products, and typical assumed overtreatment to assure retentions are met. Volumes were projected base on the assumed total CCA preservative use of 50 million pounds. This resulted in a projected total CCA-treated wood volume of 78.7 million cubic feet. Again, this study was provided to the EPA, but was not published.
Reflecting on-going concern about arsenic and other metals in the waste disposal stream, Jones et al. [4] recently evaluated potential contamination of construction and demolition (C & D) waste utilized for mulch. The authors used published data, industry standards, and assumptions to estimate the amounts of water-borne preservative treated wood entering the waste stream annually. They concluded, in part, that levels of arsenic in C & D waste due to treated wood would "greatly limit the recycling potential for C & D wood." However, since DOI: 10.4236/eng.2020.122011 119 Engineering S. T. Smith their work was based on published data, it did not include references such as the two listed above. As a result, the amount of arsenic in treated wood waste was over-estimated and the products in the waste were incorrectly characterized as mostly lumber rather than larger dimension timber and round wood.
Published articles, such as the one described above, that mischaracterize treated wood waste and generally contribute to misinformation about treated wood, highlights the need to make more accurate information about treated wood publicly available. Recognizing this need, the Treated Wood Council (TWC) has commissioned this survey and report.
The evaluation and survey covered by this report seek to provide accurate information about historic, current, and near future projected treatment, use, and disposition of wood products treated with water-borne wood preservatives. This goal includes documenting the transition from arsenic based preservatives, primarily chromated copper arsenate (CCA), to water-borne preservatives not containing arsenic.

Methods
Information from previously published documents and some public, but unpublished documents, regarding wood preservatives combined with new survey data about the amounts of water-borne wood preservatives used in the U.S. in recent years has been used, along with wood preservation standards and professional judgement, to estimate volumes of water-borne preservative products annual production and end-of-life removal from service from 1950 to 2050. Annual production is subdivided into production of various products and preservatives used for each product. Products produced are assumed to be put into service in the year of production. Typical service life for each product (average service life and standard deviation) is estimated for each product (The author used several life cycle assessments, industry data, and professional judgement to make these estimates). At end-of-life, products are assumed to be disposed.
Estimates of production of water-borne preserved wood products over past decades were developed using several reports by the wood preserving industry.
[1] [5] [6]. These reports were previously used by this author to complete a report on CCA treatment [2] and to prepare a chapter regarding the economics of treated wood [7].
Wood preservation standards, such as minimum retentions and preservative solutions composition, have been obtained from the AWPA Book of Standards [8].

Production
Statistical reports of wood preservation annual amounts generally categorized preservation into three categories; creosote, oil-borne, and water-borne preser- In this report, annual production of water-borne preservative treated wood products is the sum of arsenical, non-arsenical copper, and non-metal preservatives and is made based on the survey of 2016 and 2018 preservative sales that is associated with this report. The survey results were refined using AWPA retentions and author professional judgement including product mix estimates. Following 2018, annual production is assumed to increase at 1% per year for each category of preservatives. The resulting annual production of water-borne preservatives from 1950 to 2050 is shown in Table 1.
As noted, a survey of water-borne preservative suppliers was conducted to support this report. A copy of the survey form may be obtained from the author.
Suppliers reported sales directly to this author. They remain confidential. A summary of the survey results is included as Table 2. Note that professional judgement was applied to make assumptions regarding the product and preservative mix associated with each preservative category reported in order to calculate estimated product volume and associated arsenic and copper contained in those products.
The AWPA standards require minimum retentions of preservatives for various products based on the service conditions in which they will be used. Use Categories define these exposure conditions and the associated degrees of decay and, therefore, are likely to remain wet for extended periods and also be in contact with soil bacteria and insects. UC 5 covers marine (salt water) exposures, which have the highest decay and insect attack potential. These Use Categories, conditions, applications, product commodities, and required minimum retentions for each preservative are summarized in Table 3. Since products used in UC1, 2, and 3A generally do not require preservative treatment, they are not applicable to this study. Table 4 uses the same format as Table 3 to list the author's estimates of the fraction of each product currently treated by each preservative. The fractions for each preservative equal 100%. For example, 52% of CCA is used to treat poles, but none is used to treat deck lumber (UC3B). Since only a small portion of non-metal preservative use was reported in the survey, it was necessary to estimate use by alternate means. A paper presented to the AWPA 2016 Annual Meeting [9] provided estimates of fractions of all treatment by various water-borne preservatives. Treatment market share estimates for 2014-2016 developed in this study are shown in Table 5. Since the amounts of non-metal preservatives were mostly not reported, preservative use was assumed so that the volumes of treated wood would approximately match the proportions estimated in this paper. Values from Table 2 and Table 4 are used to calculate estimated fractions for each commodity-preservative item as a percent of all treated wood based on the current product mix in Table 6.
Also included as one column of Table 4 is treatable fraction. Wood preservatives do not penetrate and remain constant through the whole wood product.
Typically, the interior of a product will contain less or even no preservative. nominal piece of lumber will have more treatable wood than a 6-inch by 8-inch timber. In addition to retention, AWPA states minimum assay zones in which retention is measured and penetration zones, which are deeper than the assay zones where preservative must penetrate but which need not reach the full retention. This information is used to calculate typical treatable fractions in Table  7. Those fractions are then used in Table 4.
In the lower rows of Table 4, retentions, treatable fraction, and overtreatment (assumed to be 10% as discussed below) are used to calculate average retentions applicable to the product mix of each preservative and the amounts of arsenic and copper contained in the mix of products. Note that in the wood preservation process, treaters generally inject a bit more preservative (over treatment) than the minimum to account for wood variability so that when pieces are assayed (tested), each is more likely to meet or exceed the minimum. In the 2016 study [3], overtreatment of 10% was found to fit reported data well and is used in this report. Since some retentions are specified for metal oxide fraction rather than pure metal fraction, conversions from oxide to pure metal fraction are made for the applicable preservatives in Table 8.  Estimates were made of the product mix through 2003 and after 2003, when applications allowed by the new preservative label eliminated most residential and commercial outdoor lumber uses. The product mix data was used to estimate production of the products by year. A summary of the products treated by each preservative type and by all water-borne preservatives is provided in Table 9.
Note that for the purpose of estimating disposal amounts, the product mix shown in the All Water-Borne column in Table 9 is assumed applicable for arsenic-based preservatives for all years prior to 2004, before the label changes became effective. From 2004 forward, the separate mixes are assumed applicable for all years.
The changes in both total treatment volume and product mix through 2003 to 2004 and forward, due to the label changes, were dramatic. Total CCA treatment volume was reduced from nearly 600 million cubic feet per year to about 100 million cubic feet. Lumber, which was mostly used for decks and related outdoor residential and commercial construction, was reduced from about 384 million cubic feet to about 9 million cubic feet. The volume of wood treated with CCA for utility poles was assumed to remain constant, since that use was not affected by the label changes, at approximately 23 million cubic feet. The relative fraction of wood treated with CCA for that product increased from about 4% to about 25%.

Service Lives
Since the product mix of arsenical-treated wood has changed dramatically since the 2003 label changes, the average service life has also changed. Although industrial products were also being produced, most of the arsenical treated wood prior to 2004 was for relatively short-lived products such as deck lumber. Currently, most arsenical treatment is for larger, longer lived, industrial products such as utility poles, piling, and marine construction. This approach of applying assumed average service lives, standard deviations, and lognormal distributions has been applied to all products treated with water-borne preservatives. These statistical values are summarized in Table 10.
Note that longer service lives are estimated for more extreme service conditions because these products typically are thicker and have higher retentions of preservative. This table also includes a column stating the percent of material assumed to be construction waste that would be disposed immediately as part of the construction work.
Fractions of each product reaching end-of-life were calculated using the statistical values shown in Table 8. Results for each category of preservative are shown graphically in Figure 1. Service life associated with each preservative is the result of the product mix for which the preservative is used. This represents the current product mix. Note that prior to 2004, the only water-borne treatments were arsenical treatments. In Figure 1, arsenical treatments have longer service lives because they are used only for the heavy-duty industrial type products. Smaller size, less critical or expensive products, such as decking and fencing, are currently treated primarily with the non-arsenical copper and non-metal preservatives that generally have shorter service lives. Prior to 2004, the typical range of service lives for arsenical treated products would match the line for all treated wood, rather than the arsenical line, since all products were then treated with arsenicals. Cumulative fractions of preserved wood products reaching end-of-life are shown numerically by decade in Table 11.

Disposal
Annual disposal of water-borne preservative treated wood is calculated using an-

Uncertainty
Due to limited company involvement, the survey results are incomplete, especially for the non-metal type preservatives. Results of the preservative suppliers' survey indicate only approximately 2% of total treated wood by non-metal preservatives. In contrast, Solo-Gabriele reported [9] that of all treated wood, approximately 11% was by EL2 and 2% by PTI. The survey results seem low and the Solo-Gabriele estimates seem high. For this report, the author estimated the fractions of preservatives reported so that total U.S. preservatives use could be estimated. For the non-metal preservatives, 2% are estimated to be included in the survey results. Where higher reporting is estimated, reported non-arsenical copper preservatives are estimated to be 80% of totals and arsenical preservatives reported amounts are estimated to be 95% of totals. With these adjustments, non-metal preservative treated wood represents approximately 4% in 2016 and 6% in 2018 of all treated wood compared to approximately 13% estimated by Solo-Gabriele. The results in this report, as shown in Table 2, seem reasonable.
Annual treatment volumes, as shown in Table 1 The product mix of non-arsenical copper preservatives from 2004 through 2015 has evolved from dissolved copper preservatives, such as ACQ, to micronized copper, as in MCA. This evolution is not included. Rather, the current mix is assumed constant. This assumption likely introduces some small inaccuracy related to the amounts of copper in waste.
Future treatment volumes are simply assumed to increase at 1% annually, beginning with the volumes estimated for 2018 for each preservative type. Future changes are likely, but unknowable.
Similarly, technology evolution related to recycling wastes to energy and other options are likely to present new options for waste management other than landfill disposal. Impacts of such technologies remain unknowable.
As a result of the above and other sources of uncertainty, annual treatment volumes and disposal volumes should be considered rough estimates, generally with an accuracy of about plus or minus 25%.

Conclusions
Water-borne preservative treated wood has been and is likely to continue to be widely used. However, due to the label changes made in 2003 for arsenical wood S. T. Smith preservatives, the mix of products now treated with water-borne preservatives has changed dramatically. Prior to 2004, nearly all water-borne preservative was arsenic-based. From 2004 forward, less than 20% (by volume of treated wood) is treated with arsenic-based preservative. 2018 production of water-borne preserved wood products is estimated, based on the survey of preservative suppliers, to be 70 million cubic feet of arsenical treatments, 532 million cubic feet of non-arsenic copper treatments, and 42 million cubic feet of non-metal treatments for a total of 644 million cubic feet.
As water-borne preserved wood products reach the end of their service lives, they are assumed to be disposed. As more preserved wood enters use, more also enters the disposal sector. However, as is clear from Figure 2 nearly all arsenical preserved wood being disposed will be large, heavy duty poles, piles, and timbers that can easily be kept separate or be separated from other wastes.