Eco·Systems, Inc.

1. Eco·Systems, Inc.

2. Beneficial Reuse of Industrial Byproducts Definition- turning an industrial byproduct into a valuable commodity Examples Coal Combustion Products (CCPs) Foundry Sand Pulp and Paper Bio-solids, Boiler Ash

3. Benefits of Reuse Environmental Reduces waste disposed of in landfills Conservation of virgin material Economic Reduction of disposal costs Potential revenue stream

4. Barriers Against Beneficial Reuse Lack of Market Awareness Disconnect between byproduct generators and potential end users Convenience of Landfill Disposal Byproduct Consistency/Quantity Lack of Standards/Specifications

5. Barriers Against Beneficial Reuse (cont’d) Transportation/Location Transportation costs Environmental Concerns Stigma associated with industrial byproducts Corporate Mindset

6. Alabama’s Beneficial Reuse Program No organized beneficial reuse program Foundry Sand Reuse Site Specific Used for fill material Waste must exhibit less than 50% of the RCRA toxicity characteristic (tc) of the Toxicity Characteristic Leaching Procedure (TCLP) Case by case basis on other materials

7. Tennessee’s Beneficial Use • Established Foundry Sand Reuse Program • Testing Required, TCLP • Site Specific • Case by Case basis

8. Georgia’s Beneficial Reuse Program No organized beneficial reuse program 60% of stockpiled material must be recycled within 90 days so not to be considered a solid waste Gypsum board recycling Flyash reuse

9. Mississippi’s Beneficial Reuse Program Organized program with dedicated regulations Must be used to replace an existing product Requires chemical and physical characterization Yearly reporting and testing required Not Site Specific

10. Overview Byproduct Characterization Market Existence Location Regulatory Programs Reuse Program Implementation Logistics (Transportation, Storage, etc) Record keeping Additional testing

11. 1001 South 4th Avenue Laurel, MS 39441 601-649-6000 Rebecca M. Morgan Environmental Specialist

12. Beneficial Use of Ash & De-Watered Fiber • In Masonite’s efforts to reduce the amount of waste being placed in landfills we began exploring opportunities to reduce, re-use, or recycle. • One of our waste streams, ash and de-watered fiber, immediately became a topic of interest. • We generate on the average of 500 tons per week of this waste material. So reducing this amount would not only save money but drastically reduce our landfill waste.

13. The Materials • The ash and de-watered fiber are generated independently of each other and have been mixed together in the past for easier shipping to the disposal facility. • The ash is generated from the two (2) wood burning boilers that Masonite uses to produce steam. • The fiber is generated by clarifying our process water before that water is sent back into the system to be re-used.

14. Pictures Boiler Ash De-Watered Fiber

15. Economic Incentive • Until 2006 Masonite had several on-site landfills where this material was disposed. • During the course of that year we began closing these landfills and going all off site to a local facility for disposal. • After going off-site for nearly two years, we started to explore a permanent beneficial use for this waste stream to offset some of the cost of disposal and to reduce the amount of waste being sent to landfills.

16. Pictures

17. Alternative Uses for Materials • Knowing the results we had with our closures we had a great starting point. • After reviewing possible uses of this material we wanted to explore a public give-away program that would benefit the local area and regional farmers. • Our final goal was to offer a material to the public that would provide a cost effective alternative to what they were already purchasing. • In mid 2007 we employed the services of Eco-Systems, Inc of Jackson, MS to assist with this project and to explore what options were available.

18. Sampling and Analysis • After sharing historic information with Eco-Systems and discussing with them what we would like to accomplish the project began the extensive testing phase. • Samples were taken over the course of several weeks. These samples were taken on both boilers to cover all elements of the process. • Historic analytical from the landfill closure project was compared to the new analytical to provide process stability. • Once the analytical was completed Eco-Systems, Inc. prepared three Beneficial Use Applications to the Mississippi Department of Environmental Quality.

19. Applications • Application #1 was for the boiler ash as a liming agent. • Application #2 was for the de-watered fiber as a landscaping soil amendment. • Application #3 was for the combination material (ash and de-watered fiber mixed) as a landscaping soil amendment. • Approval has been granted on Application #1 and #2 with pending approval on Application #3.

20. Other Uses • The last phase to this project is to have dewatered fiber approved for agricultural use. Such as being added to farming soil to improve organics that are lost over years of harvesting, soil depletion, and erosion. • In order to provide local farmers with beneficial information as to best application techniques of this material, Masonite will conduct a demonstration project in conjunction with the MDEQ. • This trial will be monitored by the MDEQ. Our end results will provide local farmers with more information as to how to obtain the best results with this material. • This material has also been approved by the MDEQ to be used as daily landfill cover at a local disposal facility.

21. ASH Liming agent Alternative Cover Combined with De-watered fiber as a soil amendment* De-Watered Fiber Landscaping amendment Alternative Cover Combined with Ash as a soil amendment* Agricultural soil amendment based on results of demonstration project Summary * Pending approval