Bakeries are facing increasingly stringent restrictions on their wastewater discharges. To help reduce the concentration of contarninants in their wastewater and to avoid sewer surcharges, some plant managers have installed systems to pretreat the wastewater before it is discharged to municipal sewers or other disposal outlets. Many other managers are considering pretreatment to reduce surcharges or have been asked by their publicly owned treatment works (POTW) to consider waste reduction. One way to pretreat wastewater is with a dissolved air flotation system (DAE;), which can remove insoluble materials such as fats, oils, and grease (Figure 1).

Figure 1. A dissolved air flotation (DAF) system.

At present, there is only limited experience with using DAF systems for bakeries. This publication describes the DAF system and its operation and shows you how to decide if a DAF is the appropriate choice for your bakery.

Note that soluble contaminants such as sugar are not usually removed by the system, although they are occasionally trapped in the float along with other particles.

Similarly, bakery wastewater often contains a large amount of settleable solids—materials such as dough pieces, bits of fruit, nuts, raisins, and product. These materials will settle because they are heavier than water. Thus, a DAF tends to negate the settling of these materials. Most heavier materials will settle if given enough time, but some will be trapped with the float. Therefore, the nature of these materials must be considered in DAF designs for bakeries.

• • Could the solids you want to remove be eliminated by process change inside the plant?
• • Is screening being used to remove coarse solids (before DAF appliction)
• • What is the ratio of soluble (dissolved) materials to insoluble material (suspended matter)?
• • Would the insolubie materials be removed by a DAF?How long will th wastewater need to be in the DAF for the separation to take place?
• • Would the removal percentage be enhanced by a DAF? Wil it b necessary to use flocculent chemicals?
• • What wastewater standards must be met? How much more stringen will they become and what other standards will be added in the future?
• • How much does the flow vary
• • Is a DAF the best altemative among the many treatment technologies that are availabie?
• • What means of disposal is available for the skimmings?
• • What are the costs of purchase and operation of a DAF, including the disposal of the skimmings?

• • the tank (rectangular or circular)
• • the float recovery and collection system
• • the pressurization pump and tank.

• • Full-flow pressurization systems
• • Recycle-flow pressurization systems.

Figure 2. Operation of a DAF system.

• • Raw wastewater (A) mixes wiht the recycle water after the pressure release valve (P) and enters the DAF tank. The water is released into a coagulation tube (B) in the center of the tank. The water exits the top of the tube and the air bubbles carry the solids to the surface. Top skimmers (C) move the skimmings to the discharge trough (E) where they are collected. Treated water exits from the lower sections of the DAF through the riser tubes or shirt (H). Heavy solids that do not float settle to the bottom where a bottom skimmer (F) moves them to the discharge point (G) for removal.
• In the recycle loop, the clarified water is injected with air and pumped into a pressurization tank (O) where the air goes into solution. A pressure control valve (P) is used to maintain the desired pressure on the system. On the downstream side of the pressure control valve the pressure is released and the air comes out of the solution forrning microscopic bubbles.

Several bakeries are currently using DAFs as pretreatment systems. These systems often have removal efficiencies similar to those in Figure 3. Note that these DAF removal efficiencies were obtained from a multiproduct bakery. Bread bakeries have substantially less biochemical oxygen demand (BOD^) and fats, oils, and grease (FOG) contents. Therefore, opportunities for a DAF in bread plants would be more limited.

Figure 3. DAF removal for multiproduct bakery.

Concentrations of chemical flocculents used normally range from 100 to 500 mg/l. (One mg/l in 1 million gallons per day is 8.34 pounds of material.) The pH of the wastewater must be adjusted to fall between 4.5 and 5.5 for the ferric compounds or between 5.5 and 6.5 for the aluminum compounds using an acid such as H2SO4 or a base such as NaOH. In many applications, after the DAF, a pH control system utilizing a base such as NaOH may need to be added to assure that the discharge pH is within the limits specified by the POTW.

Organic and inorganic polymers (anionic or cationic) are often used to enhance the DAF process. The most commonly used inorganic polymers are the polyacrylamides.

Organic compounds such as carrageenan, chitosan, and lignosulfonic acid, or their derivatives can also be used. When the float is to be fed to animals intended for human consumption, only materials that have been approved by the United States Food and Drug Administration (FDA) Office of Veterinary Medicine should be used.

• • Applying it to land (A permit i required.) For more information on DAF float disposal on land, contact your county Cooperative Extension Center for application rates and your state environmental agency for permit requirements.
• • Depositing it in a landfill (This practice is banned in some states.) Regulations usually require that the material be bladeable (not sloppy).
• • Rendering it. (The moisture content and chemical used can be concerns.) Renderers usually request that the solids be in the 20-30 percent range.
• • Feeding it to animals. The chemicals should be approved by the FDA, and the float often contains too much liquid for most feeding applications.)

• • A belt filter press that uses poylmer
• • A thermally enhanced sytem
• • A centriuge
• • A vacuum precoat filter using diatomaceous earth
• • A filter press
• • Decanting

• • Reduce grease (FOGs)
• • Reduce suspended solids (TSS) and settleable solids (but only if equipped with a bottom sweep).
• • May help bakeries meet POTW permit restrictions
• • Do not require excessive maintenance or management
• • May reduce surcharges, especially for larger bakeries CONS
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• • Do not remove soluble materials such as sugars
• • Do not remove the BODs associated with soluble materials
• • Only concentrate the pollutants; the float must still be disposed of properly.
• • Are costly to buy and are expensive to operate. (If high chemical use is required, operational costs will be high.)
• • They rarely cost less than surcharges, especially for smaller bakeries.