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Treatment of Slaughterhouse Wastewater

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Title: Treatment of Slaughterhouse Wastewater


1
Treatment of Slaughterhouse Wastewater
  • Mike Lawrence
  • NDSU
  • Fall 2006

2
Overview
  • Challenges
  • Wastewater Parameters
  • Treatment Options
  • Process Modifications
  • Typical On-site Treatment Options
  • Design Problem

3
Challenges of Slaughterhouse Wastewater
  • Wastewater contains large amounts of blood, fat,
    and hair
  • Wastewater is above municipal standards which
    leaves two options on site treatment or pay to
    be treated elsewhere
  • On site treatment with low capital and
    maintenance costs is desirable

4
Wastewater Parameters
  • BOD approx. 1,000 to 4,000 mg/L
  • COD approx. 2,000 to 10,000 mg/L
  • SS approx. 200 to 1,500 mg/L
  • High Oil and Grease content
  • Possible high chloride content from salting skins

5
Treatment Options
  • Discharge to sewer to be treated by municipal
    treatment plant
  • Land application of wastewater for irrigation
  • Reduce amount of wastewater and/or concentrations
    with the wastewater by changing the processes
  • On site Treatment
  • Flow Equalization, Screening, Dissolved Air
    Flotation, Primary Sedimentation
  • Aerobic Treatment
  • Anaerobic Treatment

6
In-Plant Modifications to Reduce Pollution
  • Main goal should be to prevent product from
    entering the waste stream and using the least
    amount of water possible
  • Reduce the amount of water used, saves money in
    two ways
  • Use high pressure and just enough
  • Proper detergents
  • Lower volume of water helps equipment
  • Reuse as much water as possible

7
Line Separation
  • Separating the various waste streams as much as
    possible
  • Sanitary lines should be discharged directly to
    the city sewer
  • Grease waste streams and non grease waste streams
    can help reduce treatment costs
  • Separate Blood line

8
Blood Recovery
  • Blood has ultimate BOD of 405,000 mg/L
  • One head of cattle contains 49 lbs. of blood
    which equals 10 lbs. BOD, compared to 0.2 lbs.
    discharged per person per day
  • All blood should be recovered in a separate line
    draining to a tank
  • Blood is then dried, commonly a continuous drier
    is used
  • Profitable end product

9
Stockpen Area
  • Stockpen waste and other manure should be hauled
    away as a solid
  • Cleaned periodically with as little water as
    possible
  • Ideally this water would go to a separate tank
  • From the tank it would be emptied into a truck
    and land applied

10
On-Site Treatment
  • Costs of treating on site or letting the
    municipality treat the waste should calculated
  • Maintenance and operation should be also put into
    cost analysis
  • Flow equalization is usually a very good first
    step in on-site treatment

11
Hydrasieve
  • BOD Removal 5-20
  • TSS Removal 5-30

12
Hydrasieve
Width (ft) Height (ft) Capacity (gpm) Estimated Price
2 5 75 5,200
3.5 5 150 6,400
4.5 7 300 8,000
5.5 7 400 10,000
6.5 7 500 12,000
7 7.3 1000 20,000
14 7.3 2000 40,000
21 7.3 3000 60,000
28 7.3 4000 80,000
35 7.3 5000 100,000
13
SS and Grease Removal
  • Grease removal could be very profitable
  • Skimming operations
  • 20 to 30 BOD removal
  • 40 to 50 SS removal
  • 50 to 60 grease removal
  • Dissolved Air Flotation, DAF
  • 30 to 35 BOD removal
  • 60 SS removal
  • 80 grease removal

14
Skimming Operation (Primary Sedimentation)
  • Detention time 1.5 to 2.5 hr
  • Overflow Rate 800 to 1200 gal/ft2d

15
Dissolved Air Flotation (DAF)
  • Hydraulic Loading Rate
  • 1.5 to 5.0 gpm/ sq. ft.
  • Solids Removal Rate
  • 1.0 to 2.0 lbs/hr/sq. ft.

16
Anaerobic Lagoons
  • Ideally the lagoon would be covered, odor gas
    production contained, heat retention
  • Not well suited for colder climates
  • Detention time 20 to 50 days
  • BOD5 loading 200 to 500 lb/ac.-d

17
Anaerobic Contact Reactor (ACR)
  • Hydraulic Retention time 0.5-5 days
  • Organic Loading rate of 1.0-8.0 kg COD/m3-d

Flocculator or
18
Anaerobic Sequencing Batch Reactor (ASBR)
  • HRT 6 to 24 hours
  • SRT 50 to 200 days
  • 98 removal with 1.2kgCOD/m3-d
  • 92 removal with 2.4kgCOD/m3-d
  • Possibly rates to 5 kgCOD/m3-d
  • Effluent SS range between 50 100mg/L depending
    on HRT

19
Upflow Anaerobic Sludge Blanket (UASB)
  • Proteins and fats may cause problems in formation
    of granules.
  • Loading rates of 4-12 kg sCOD/m3-d
  • Retention times of 7-14 hours

20
Design Problem
  • Flowrate120,000 gpd, 83 gpm, Max 300 gpm
  • TSS1500 mg/L
  • COD5000 mg/L
  • sCOD3000 mg/L
  • BOD52,000 mg/L
  • Reduce levels to municipal levels and discharge
    into sewer

21
Screening
  • Hydrasieve
  • Use prior to flow equalization to save on pumps
    and buildup in the tanks
  • Design for max flow of 300 gpm
  • 4.5 by 7 foot model will handle flow
  • Approximate cost of 8,000

22
Primary
  • Loading Rate of 600 gal/ft2-d
  • Final Design
  • 8 ft. wide, 25 ft. long, 10 ft. deep
  • 8 ft. of weir w/ loading rate of 15,000 gpd/ft
  • HRT 3 hours

10 ft
8 ft
25 ft
23
Anaerobic Lagoon
  • Covered for heat retention
  • Side depth 8 feet
  • Final Design 540 lb BOD5/ac-d
  • HRT80 days

Plan View
400 ft
400 ft
24
Anaerobic Contact Reactor
  • Final Design HRT5 days
  • Loading Rate 1.0 kg COD/m3-d
  • Clarifier design based on 24m/d settling velocity

56 ft
16ft
10 ft
Anaerobic Contact Reactor, Completely Mixed
Clarifier
30 ft
Flocculator, Deglassifier
25
Aerated Sequencing Batch Reactor
  • Two reactors of same size
  • Feed 8 hr, react 37.5 hr, settle 2 hr, drain .5
    hr
  • Feed 8 hr, react 13.5 hr, settle 2 hr, drain .5
    hr

24 ft
46 ft
Supernatant Drain 11.5 ft above bottom
Sludge waste at bottom
26
Upflow Aerated Sludge Blanket Reactor
  • Loading Rate of 10 kg sCOD/m3-d
  • Two tanks, operated in parallel
  • Diameter 4.5 m, Height 7 m,
    2.5 m for gas storage

4.5 m
7 m
27
Final Design
  • Include Hydrasieve effectiveness and low
    capital, O M costs
  • Upflow Anaerobic Sludge Blanket Reactor
  • Tank is smaller than most of the others due to
    high organic loading rate
  • Provides constant source of methane gas
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