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" En Ho �~ rt rt�• `� o as b n N o a N is n N En ro N o a+ rtm `� (t �x D o G rt zo ° �O rto m wN 1 rt n m g 3)m 3D m°N m NQ a AV ,Z rt N a P1 Nrt, LL m N rt i7• M C ° ( " rt Ln m {i ° /w a,rtN m ~ OI mm rt'd tj n O ,,� n 0 O mm �' w orptN P• d wj pi 0 N' { O (n p rt y rt m� bN p, C F, M m n (D N 0 G7 N M w rt rt m ~' m f N N O tmtmma .r rt, 0 AUTHORIZATION REQUEST FOAM 8 U .. r.? -,Amendment----New � IU Recl � ra South Carolina Department of Health and Environmental Control I Incinerate P ----- Land arm � Ehergy 21V,12 Bureau of Solid and Hazardous Waste (803) 734-5200 Other, / :�`� i� /i ���Authorization Number: Generator Inforrnatior:: To be entered •by TSD Facility Generator ID Namel E•z DuPwr vF /V5-My11,s 16. ,1i1e. Address I#.( Rr # 07 5-0vr11__I City 1 /344p6,u,Z_eomesti��z) awy 41'r j State U Zip Code 1�2 S 3r2_ Official Contac VI/. O1-corr JTltlel "IMR. 0009b. ITelephone 1( 9/9) 9Q3-- 463! I l FxT 15. SC Count Treatment. Storage; or Disposal Facility Information: y (for In-state cenerator aly) Facility EPA ID itis C D 0._7 _0 _3___7_.5-2.8_x_1, Name I GSX SERVICES OF S.C. INC. o Lim # mis, line will wys represent this specific waste stream:) G e. I a r 0 u %fir --e — S A , P w a. l e Ir r L_ T_ . �. F. D. .8. ! . POND S L 'v D G F n Description of Hazardous.waste Procm Pzod,dn9 ucste: l��r.�cr.rh F'a�yvrN�t (�J�yn.a� IJ,vn t4.vvG/Fc7 cJ.�rN i�C/Lc z PLuS DGco/A Ji iG SFW�IG£. IJ I J T�L� IL7itii�N� G✓LPX4 IC(`1;-Y EPAl ILU waste Codes ROT Hazard Class Enter Quarter for One --Time Disposal: I_i / I l gtrlyr;. I (`.Multiple ants Enter. Frequency Here: I Pllysicp State Waste @ 70°F 1 zVol1 liquid 3.L.._.I WA For DIUMC Dalp =J oeceived CHER 19 ev. (8/86}` t 1....J (,..,J l I 1bus: times/yr. Handling Method:( D_ 8 11 Volume: (lbslyr. only) 1 3 Q a° o 0 01 Flash Point (cc) 1. LTJ N/A 2. U <60°F 3.1_1 60--140°F 4. L__1 > 140°F Page 1 AUTHORIZATION REQUEST FORM I D 0 �1 'j ' e 1 II J Recl�i;n ' s.-amendment---NeW I j Incinerate South Carolina Department of Health and Environmental Control Landfarm �EhSz� gy Ae�ovyr eureau of Solid and Hazardous Waste (803) 734-5200 .__..__ Other, /f�/ �"2A11-4-2 uthorization plumbers lP W.l - J p �_ � To be entered / _17-�„�r� by TSD Faci I i ty Generator lnforrnation: Generator ID I: D o -1 -.7-1 Name _ DU Peijr yr A115: -Re) �s Ce. ,Tire. �i�yFrr'yiu /r/o�zKr Address 07-5'o vr11 I City 113wiA)Ly�QF,'hGt.�d �dAq 4,vt I State lNc J Zip Code 1:2- S 392- Official Contacf N/. Oz corr J Title ( �NviR 0006b. 1Telephone Y 915) 90�" 4481 f I_. 1 ---T--Fxr ass SC County Treatment, Storage; or Disposal Facility Information: Unin-sua centretor Dilr) Facility EPA ID #Is C D 0 7 0 -s _S 1. Name I csx SERVICES OF S.C. INC. o # mis line will ,a_�.D.ys represent this specific waste stream:) G e. I a '^ 5 r'"' �-{� �-k 4 (,.,� Lime ( WS(( H e v c re S fc f't . Gr-2v�d �r S A 1 p m e t S ct.0 0e - he,�� ! � Description of Hazardous .waste EPA/DHEC waste Codes DOT Hazard Class Enter Quarter for One --Time Disposal: LJ / I 1 Qtrlyr. Handling Mettiod:l D 8 11 If Multiple Shipments Enter. Frequency. Here: I °_°._l times/yr. Volume: (Ibs/yr. only) 1 3 0_) o o a of Process Prowcin9 waste: WAs �tt,r2 Rea7rz--4-rM-FAT- ;(3vace.nTO A!avimgL: f3ajet t- Avb F'cvo�daaRtil���� ll nr uC/FG%c%l.!/� 7,fC! Lt Pj VS DG r41 A"ST/C S/FW�G% Physical State of Waste @ 70°F Flash Point (cc) solid , 2. U liquid 3.1.,,_1 WA 1. 1.1 N/A 2.1-1 <60°F 3.1-1 60--140°F 4. U >140°F GGr.r�rNods f4rsi NG PA r�vr Fic Trig 7'Fsi For 011EC Use DnlY:• Ebus: Data Received-------r--� �--� NEC 1969 Rev. (8/86}` Page 1 MW rD 't3 w r -r 3 rb r -t z w G rD CSD O rz rD O N A.1 � fL 26) 0 3 c. G 0 rD rD rt Cj 9 b b n m t' rt C H o A rt cn H L C7 hi ro t� w A m m O a P. C 0 m H O -r O' rt m' C m m 0• H .. 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EFFLUENT LIMITATION AND MONITORING REQUIREMENTS During the period beginning on the effective date of the permit and lasting until expirati the permittee is authorized to discharge from outfall(s) serial number(s) 002 (Cooling Wat and Nafion Wastewater) Such discharges shall be limited and monitored by the permittee as specified below: ffluent Characteristics 'low 'emperature ,OD, SDay, 200C ME 'luoride **** THERE SHALL BE NO CH Discharge Limitations kg/day (lbs/day) Other Units (Specify) Daily Avg. Daily Max. Daily Avg. Daily Max. ROM,IU.K:: ;Z'I'N'C', OR COPPER ADDED TO THE COOLING WATER Monitoring_ Requirements Measurement Sample *Sample Frequency Type Location Continuous Recording I or E Daily Grab E Quarterly Composite E Quarterly Composite E Weekly Composite E *Sample locations: E — Effluent, I — Influent **The tempe ature ©f the effluent shall be such as not to cause an increase in the -temperature of the rece0ving eam of more than 2.80C and in no case cause the ambient water temperature to exceed 320 C. in **ail mens ery day a discharge occurs except for Saturdays, Sundays and legal holidays. C-3 '**;The 4amige equ fluoride must be taken downstream of the 001 discharge, unless or until, all neutralized jNafFbn AreDLz;�streams are discharged entirely into the cooling water outfall 002. rn ;o TheeernAt shall obtain authorization from the Division of Environmental Management prior to �tilzany biocide in the cooling water (See Part III of this Permit). The yH shall not be less than 6.0 standard units nor greater than 9.0 standard units and shall be monitored''daily at the effluent by grab samples There shall be no discharge of floating solids or visible foam in other than trace amounts. w A. EFFLUENT LIMITATION AND MONITORING REQUIREMENT During the period beginning the permittee is authorized to dischargetive fromdate outfall(s) se rial Such discharges shall be limited and monitored b permit and lasting until expiration, permittee as the below k 'dash L7ater y the Effluent Characteristics -- Lischarge Limitations Monitoring Requirements kg/day (lbs/day) Ot4er Units Daily Avg, Daily Max. Dail (Specify) Measurement Y Avg. g• Daily Max. Frequency ample *Sample Flow Type Location Total Suspended Solids Weekly Instantaneous 30,0 m E Settleable Solids g/1 45,0 mg/1 2/Month Grab E 0.1 ml/1 2 ml/1 Turbidity 0.Weekly Grab ** ** E �, _•�,M`:.,,:� Weekly Grab U , D 4t! p. 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O m Z rr ro O' rn �r DCrn-) �S � ro 0 rr �m-t ~ Sv � :T � m I-• rs k r H O O" - 'Li Q. r• r• - rD N ap L7Y! N o E H 0 4 I n� rt H rtCD n C r � W rr : O0 pi c: t~o (D CD srCrr OD M W (D- F- (D 0 to N A w7T DUPONT FAYETTEVILLE WORKS Waste Treatment Facilities The existing waste water treatment facility employs sludge treatment to handle the organic load from the production units; Nafion@, Dymetrol@ and Butacite@. j. a- actvated sites' The overall treatment system is shown on the attached drawing. During the removal of the biodegradable organic load, excess sludge is generated. This excess sludge was previously fed to on-site lagoons for disposal. This lagooning was discontinued in January, 1989, and temporary facilities have been used since then to compact the -sludge and send it to an approved off-site landfill for disposal. In order to establish permanent sludge handling facilities, we are proposing new facilities that will thicken, dewater and partially dry the sludge prior to shipment to an approved off-site landfill. These permanent sludge handling facilities will be centrally located in an existing enclosed ventilated building, and will utilize commerically available equipment connected in series to achieve the operations outlined below. All generated waste water from the sludge facilities will be returned to the inlet of the waste water treatment facilities for reprocessing. o Thickening Excess waste sludge is taken from the waste treatment clarifiers recycle stream and fed to a Dissolved Air Floatation Thickener (DAF), where the solids are concentrated to a nominal 3 % from 0.5 %. The DAF effluent is pumped to the Digester, where it is held until it is pumped to sludge dewatering. The Digester is an existing concrete lined basin that was previously used as the biological treatment aeration basin prior to 1989. o Dewatering The thickened sludge is mixed with a commercial coagulant aid, and is then pumped to a Pre -Thickener, followed by a Screw Press where the solids are concentrated to a nominal 8 %. The dewatering system filtrate is returned to the waste treatment equalization tank. A standard belt conveyor is used to transport the dewatered sludge to an intermediate 2200 gallon sludge holdup vessel, and then conveyed to the the drying system. o Drying D ������ Sludge drying is accomplished by using tip 28 1989 heated dryer to boil off about 70% of the water in the waste .sludge. A blower is used to pull water vapor from the dryer to the direct water spray type scrubber. The scrubber collecte&WMW FILE COPY A i-+ G b• rt U1 r� m� G rr r• t- rt- P. tP. rr to zr m rr G+ �m cnG U1 �' �:rm �ro aro a M m rr p Oa w rh G rr �• tom F� �sv0 m p O � O O W rr O ro Sv a. ro F+• rt O O m U] C m O m G O r• rr m � N 01 M n G G Sv M M F- O W- F+• A► 0 E G ::r rr H A N O• N r• o No 0 rr m O M M rr F-+ G• G m m G Fa rr O �• Q. to M H. rt FJ m �-' rr G A H rt O G" G :3m m rr p. �► a �• n rr �c O m rt N rr G m S1. W E CD sv En rr O m N O rmrt- (D Sv Al �-' rr 0 N m ON G rr dA m U! 4 O G N N pr rt w f•. . U! O G A O rt C O m x �C m CL V FILTER DRUM__ROTATION TYPE SCREW PRESS, a new development by H I W, ■ More Advanced Treatment Capacity ■ Lower Moisture Content Ratio ■ Fully Automatic Continuous Operation ■ Economic Operation Costs F9 DEWATERING SCREW PRESS FOREWORD Hyl �Y r'CFe' .::isNei • Hoilim Iron Works Co., Ltd., with over 12 years' experience in manufactur- Ing pollution control related equipment in Korea, has also concentrated its efforts on sludge dewatering problems encountered throughout the world. With Its expertise and experience in this field. HIW successfully developed, and Introduced for the first time in 1984, a Filter Drum Rotation Type Screw Press. This dewatering press machine has been widely used at sewage treat- ment plants, pulp and paper industries, leather and food processing facilities and other Industrial plants throughout Korea. The Rotation Type Screw Press, patented in Korea and designated as a new development machine (Government Notice), has established an excellent per- formance record in the domestic market. The Press has also been patented in the U.S.A. and Taiwan, and patents have ..' been applied for in Japan and Canada. HIW has supplied more than 340 units to various industrial plants in Korea (1981-1986), and promising negotiations are currently underway in Japan, Taiwan and the U.S.A. P: -P,. x'�l,e ,y Ctw'ftI 1 i%1� rfi `<L?j tk tia �tiri�v.,.l>t m 0 I a: :E J. r- r- r- r- r- r- r- r - lir �I Mimi mi ml Isis 0 (C) -j TO) M � co m 0 C9, O 0 0 : -0 c) 0-0 C:), 0 C) 0 0 0 C) (o o) cn w C) 0 0 I C) I P) �n I un 6) 0) > cn Pj m N CO -,j J, rQ > m (0 C- CO -4 0') ('1A w G) 0 a M 'M -4 M M N0' *M 4 M, > C/) > 00 m 0 0 r- -D ! 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CA) 0 C:) sj :-4 6) O bo U, K !!I M z U) 0 N) N N) N) 6 Z 6 bo b, cn cn (-n 00 cn 8 Cn A 1 00 Cn W N) cn I ro cn I Q I m I A I I 0 I co I -C& 1 m C) 0 0 -4 -P- r\) cc) a) c.) ro z 3: Z— Co W m .. 19 ..... . . . . . . . . lir �I Mimi mi ml Isis SAVE AND COMPLY WITH DURCO'S NEW ENVIRO-DRI'" ■ Waste Minimization ■ Decreased Liability ■ Payback Less Than 24 Months ■ Disposal Cost Savings As High As 75% The Durco ENVIRO-DRI'" steam sludge dryer has been engineered with one purpose in mind: To slash your metal hydroxide disposal costs while addressing current environ- mental guidelines. Its very design saves you money. This low cost unit uses steam heat to reduce sludge volumes 50 to 75%. That makes ENVIRO-DRI'" the most energy efficient, cost effective dryer available. It also means simple and easy installation with minimal mainte- nance for further savings. The use of inexpensive steam as its primary heat source not only maximizes efficiency, it reduces drying time. Typical drying cycles average 4 hours or less allowing 2 cycles per work shift. The heavy duty auger assures complete and continuous exposure of sludge to the heat transfer surfaces of the jacketed hopper for maximum dryness. Volume and weight reductions of sludge to 75% directly translate into significant hauling and landfill disposal cost savings. Just as important, waste minimization decreases liability while helping you address EPA and RCRA guidelines. Within 12 to 24 months ENVIRO-DRI'" will have paid for itself. (Please see the back page of this brochure to calculate the projected savings and payback period when using ENVIRO-DRI'".) ENVIRO-DRI" is available in capacities from 2 cubic feet to 36 cubic feet. Its rugged all welded construction features automatic shutoff with manual override, highly efficient motor and oversized gear reducer, controls, piping and connections. Since it uses steam, there is no open flame or electric heat- ing elements so fire and explosion hazards are virtually eliminated. Field demonstrations, testing ser- vices and the "5/10" financing plan are all available to help you choose the ENVIRO-DRI" that is best for your sludge dewatering needs. SLUDGE DRYER ■ Optional Pneumatic Fill h Hatch For Ease Of=+�A Operation n-: ■ Loading Hatch Safety Interlock N 'j7 :. ■ TEFC Highly Efficient Motor , ■ Optional Motor Starter And 71ransfomrer For Single Electrical Connections And Simplified Installation Vapor Exhaust Fan Top Loading Allows Use Of ` Forklift Tlvcks, Drums And Location of Press Overhead ■ Adjustable And Replaceable Wiper Blades t Shaft Mounted Oversized Slow Speed Gear Reducer`'; For Long Service Life And { Low Maintenance Electrical Panel Including On Off Switches And Automatic Timer For Drying Cycle Steam Relief Valve For Safe Operation All Necessary Steam Hardware Including TFaps, Strainers And Automatic Solenoid Valves Optional Pneumatic Discharl Chute 0 Optional Automatic Drum Or Hopper Unloaders Available,i Features Benefits Steam Heat Source Reduced Operating Costs Maximum Efficiency Complete Operating Safety Control Cake Dryness And Avoid Dusting Heavy -Duty Construction Minimal Maintenance Requirements ASME Code Stamp Standard ILow Operating Tempe tures Eliminates Potential For Incineration Expander Can Meet Future Needs While Z -r S► Reducing Costs Now educe sposal is Increased Operating Profits justa Dryingle Operate Off Plant Steam r l6At Go [It -to -25 PSI 5=113 SLUDGE DRYER ■ Optional Pneumatic Fill h Hatch For Ease Of=+�A Operation n-: ■ Loading Hatch Safety Interlock N 'j7 :. ■ TEFC Highly Efficient Motor , ■ Optional Motor Starter And 71ransfomrer For Single Electrical Connections And Simplified Installation Vapor Exhaust Fan Top Loading Allows Use Of ` Forklift Tlvcks, Drums And Location of Press Overhead ■ Adjustable And Replaceable Wiper Blades t Shaft Mounted Oversized Slow Speed Gear Reducer`'; For Long Service Life And { Low Maintenance Electrical Panel Including On Off Switches And Automatic Timer For Drying Cycle Steam Relief Valve For Safe Operation All Necessary Steam Hardware Including TFaps, Strainers And Automatic Solenoid Valves Optional Pneumatic Discharl Chute 0 Optional Automatic Drum Or Hopper Unloaders Available,i HYMANUFAMING 18003542951 In Ohio 216/238.2000 Now The hapinjet Operates t„tib' J• ; 1. Scrubber Outlet - to fan, / Rt if suction system. To exhaust stack, if blow-in. 2. Fixed Blade Mist Eliminator -assures � _ , • � �F�\i droplet -free air to process or atmosphere. II 3. Access Door - permits inspection of plates. rr. Peepholes and quick opening doors are available as options. 4. Liquid Supply and Weir (dam( - adjustable weir provides uniform liquid flow to plates. Recircu. lated slurries may be used if concentration does not exceed 10% by weight. Average flow 1.2 GPM/ 1000 CFM. i 5. Impingement Baffle's Plates - create interaction of gas stream and liquid. Additional plates (trays, j stages( provide increased efficiency. q. Access Door - for inspeftn and mainp}ance. Z C�) W u L it r y It.. i7 t 0 ti CJ DRYER SCRUBBER Plate Discharge and Seal impingement Bailie Plate Drain -directsslurryAssuThorough snhhinp bottom of scrubber for Yl �+ removal. Non•clogging m er seal prevents short circuiting of gas. 8. Spray Section - for cooling and entrapment of larger particles. Spray washes under side of plate and walls to prevent material buildup. Sprays are non- clogging. Recirculated liquid may be used if particle sizes contained are below 3/32 inches. twrm4i %d ifHB Impinjet is actually two scrubbers in one. The spray section cools and humidifies entering gas while simultaneously removing larger particulate matter. In addition, the under - plate spray action keeps the plate and walls clean and prevents build-up. Actual scrubbing is accomplished by the jet action of gas in the liquid, produced by the uniquely designed impingement baffle plate. This turbulent effect assures thorough wetting of particles. Impinge- ment baffle plates are generally made of high efficienc , found in our impingement plate design: 1. the formation of a great number of minute droplets of liquid at plate orifices, and 2. the high velocity, relative to the minute droplets, at which dust particles enter the orifices. Few scrubbers have both high relative velocities and form minute droplets which in combination give the highest efficiency possible at any given pressure drop.( Greater particle collection efficiency is attainable by increasing relative velocity (higher pressure drop). The net effect is an improvement in the relative velocity of dust arid liquid droplets, intensifying the variousstainless 9. Liquid Spray Inlet - uses entrapment of dust particles by ' approximately 0.5 to 1 Of and dui laden gas ItmIg Ibrougb pedoratedolaleand stnlungmned GPM/1,000 CFM at 20 �+ y4�.� yp�� _, PSIG. Liquid con- principle is highly effective in sumption is greater if "”'einem wdxet. Minute hguiddroWelsRam lornr cneorap cooling of gas is required. I it, (Combining liquid relative velocity and small utilized by liquid supply ( (No. 41 and spray inlet (No. 9) provides total Coll act. liquid flow.( .a 10. Gas Inlet - if suction job, from process; if pressure, from blow-in fan. twrm4i %d ifHB Impinjet is actually two scrubbers in one. The spray section cools and humidifies entering gas while simultaneously removing larger particulate matter. In addition, the under - plate spray action keeps the plate and walls clean and prevents build-up. Actual scrubbing is accomplished by the jet action of gas in the liquid, produced by the uniquely designed impingement baffle plate. This turbulent effect assures thorough wetting of particles. Impinge- ment baffle plates are generally made of high efficienc , found in our impingement plate design: 1. the formation of a great number of minute droplets of liquid at plate orifices, and 2. the high velocity, relative to the minute droplets, at which dust particles enter the orifices. Few scrubbers have both high relative velocities and form minute droplets which in combination give the highest efficiency possible at any given pressure drop.( Greater particle collection efficiency is attainable by increasing relative velocity (higher pressure drop). The net effect is an improvement in the relative velocity of dust arid liquid droplets, intensifying the variousstainless VemunEffect resupsinlurbulentinteraction hgmd entrapment of dust particles by steels, but can also Of and dui laden gas ItmIg Ibrougb pedoratedolaleand stnlungmned the liquid medium. This same be fabricated from ^nlgngemenlbattle god tEachnote has an dv�duaI principle is highly effective in plastics and other "”'einem wdxet. Minute hguiddroWelsRam lornr cneorap gas cooling wherein high materials. suepMOed manermgas omcarry,rp AroGeismxvnlnwnerpo,��np,oss relative velocity and small Two /acforts "mate file battles for ulnmale dts. 5.11 mmugh drain Clunm droplet size assures intimate gas passes into mist ehn roar IM return to nmess or almomnem Coll act. DZ V_ 4 n M� W CID 4 :-� DISSOLVED AIRjFLOATATION I FLOATmTREAT,'c SEPARATOR THICKENER (DAF) PRESSURE REGULATOR. Correct pressure in maintained by ,:C7 either automatic or manual controls to assure efficient op- erations under all flow conditions. SCUM ur TROUGH with accurately formed beach asses a rel- atively dry scum and clean discharge. POSITIVE SCUM REMOVAL Rex Scum Removers are avail- able In a wide variety of types and sizes. Proper materials aro available for unusual corrosive conditions, explosive atmos- pheres, eta , 0 AIR LINE. Proper amount of air I. fed directly foto the pressure tank for optimum saturation. Air feed is regu- lated by the pressure tank liquid level controller and a solenoid valve in the air line. VERTICAL SCUM IIAFiLE prevents floatable solids from pass-ing out of tank ... directs clarified effluent to outfall weir. AD[USTARLE DL111AL1 WEIR assures uniform discharge and controls water level In tank for optimum skimming con- ditions. EF[LUFNT LINE. w[r w[Ll Integral with Float -Treat tank, provides a con- tinuoua supply of treated effluent for recycle system even nthough raw flow may be interrupted. RECTCLE [S PRSURE PUMP withdraws portion of effluent and 9a� pumps it to pressure tank. Because only a amall portion of effluent Is recycled, pump size and pumping costs are held to //the minimum. Alis PRESSURE RETENTION TANK Is designed and tested to con- `A�44.•��' form to rigid code requirements. Positive liquid level con- trol assures maximum saturation of pressurized flow. Tank may /1be supplied with or without packing as conditions warrant Ef l.'If SETTLED SLUDGE REMOVAL is obtained by any of several Otatypes of conveyors ... from screw conveyors in smaller tanks up to projects. heavy-duty conveyor sludge collectors for the larger ® BOTTOM SLUDGE WITHDRAWAL LIN. ® 6LENDING AND mSTRIRUTION STSTFM. Raw flow and recycle stream enter the Float -Treat Tank through the inlet mani- 12jd,..As the blended stream enters, it impinges on concave re- n baMes for thorough diffusion throughout width and depth of tank. Inlet piping and reaction Jets ars carefully sized and located for correct velocities, proper bubble formation and thorough blending, RECYCLE LINE. Pressurized recycle liquid Is Introduced inFo raw flow line Immediately downstream from pressure re- duction valve. /}®� SCUM WITHDRAWAL LINE. gt i:y RAW WASTE LINE. s HOLDUP VESSEL Practical design assures dependable action Tank liner is available to retard buildup o the sides when spreading sticky material. Liner is also helpful in freezing conditions when unloading very dry or fluffy material Tank and side extensions are made from corrosion resistant steel. Side extensions on for easy replacement in case of damag Cleanout door allows complete cleanout of tank. Expeller is located on the ric unit for easy and natural visi Offset paddles engage the n motion for efficient use of pc pattern is controlled by a slit a hydraui' cylinder. um C:7 rn v �3 A'J It+•� O� Auger may be lifted hydraulically to break up Aggressive aug, ,roves material forward to the bridged material or to ensure the auger isn't expeller. This niinpr ran hp rni—ri h„rf—.6-1k, Side extensions come in two sizes, one forms a sufficient e extensions 3oth exten- .nt if damaged. indicator is easily seen by the . . tags reduction on auger drive eliminates ed for a gearbox. drive is shearbolt protected. Optional expeller deflector assures more even Chain drive for the expeller on the Model distribution when spreading sticky material. Optional 304 is protected by shearbolts. Belt drive for expeller pan is available to prevent unspread the expeller on the Model 308 efficiently material from dropping directly on the ground handles the peak torque requirements when spreading loads of varying consistency. Is allow easy turning ractors. Channels carry it.