Sludge and Biosolid Management

1 Introduction
3 Topics | 2 Quizzes
1.1 What is the difference between sludge and biosolids?
Quiz
1.2 Why is an appropriate management system essential?
Quiz
1.3 Decision Framework for Sludge Management
2 Pre-treatment and Treatment Options for Sludge
4 Topics | 4 Quizzes
2.1 Sludge Thickening
Quiz
2.2 Stabilisation
Quiz
2.3 Conditioning
Quiz
2.4 Dewatering
Quiz
3 Aerobic Digestion
11 Topics | 3 Quizzes
3.1 What is aerobic digestion and how does it work?
3.2 What types of aerobic digestion methods exist?
Quiz
3.3 What are the essential processing parameters?
Quiz
3.4 Aerobic digestion and pathogen reduction
3.5 How to design the aerobic digester
3.5.1 Designing an Aerobic Digester Tank: An Exercise
3.6 What are the output characteristics after aerobic digestion?
3.7 Costs
3.8 Benefits and Limitations
Quiz
3.9 Applicability in Emergency Settings
3.10 Example from Cox’s Bazar, Bangladesh
4 (Co-) Composting
11 Topics | 4 Quizzes
4.1 What is (co-) composting and how does it work?
Quiz
4.2 What types of composting methods exist?
Quiz
4.3 What are the processing requirements?
Quiz
4.4 Compost and Pathogen Reduction
4.5 How to determine the composting processing parameters
4.6 How to determine the area requirement for the compost
4.7 What are the characteristics of FS-based compost?
Quiz
4.8 Costs
4.9 Benefits and Limitations
4.10 Applicability in Emergency Settings
4.11 Example from Kushtia, Bangladesh
5 Vermicomposting
11 Topics | 2 Quizzes
5.1 What is vermicomposting, and vermifiltration and how does it work?
Quiz
5.2 What worm species can be considered for vermicomposting?
5.3 What are the process requirements?
Quiz
5.4 Vermicompost and pathogen reduction
5.5 How to design the vermicomposting process
5.6 How to determine the area requirements for the vermicomposting process
5.7 What are the characteristics of FS-based vermicompost and how does it compare to compost?
5.8 Benefits and Limitations
5.9 Costs
5.10 Applicability in Emergency Settings
5.11 Examples from India and Bangladesh
6 Black Soldier Fly Larvae Treatment
8 Topics | 2 Quizzes
6.1 What is black soldier fly larvae treatment, and how does it work?
Quiz
6.2 What are the process requirements?
Quiz
6.3 How to design the BSFL process
6.4 What are the residue characteristics of FS treated by BSFL?
6.5 Benefits and Limitations
6.6 Cost
6.7 Applicability in Emergency Settings
6.8 Example from Nairobi, Kenya
7 Reuse of Sludge
5 Topics | 2 Quizzes
7.1 What does the reuse of biosolids imply and why should we aim for it?
Quiz
7.2 What are the preconditions and requirements for the safe reuse of sludge for agricultural purposes?
Quiz
7.3 What are possible access restrictions for areas in which biosolids are applied?
7.4 What indicates foul odour release and vector insect appearance at biosolids land application sites?
7.5 What is the application rate for biosolids?
8 Burial or Disposal of Sludge
10 Topics | 3 Quizzes
8.1 What does the burial of sludge imply?
8.2 How suitable is sludge burial in emergency settings?
8.3 What are the conditions and requirements to safely bury sludge?
Quiz
8.4 Methods for Sludge Burial: Disposal Pit and Deep-Row Entrenchment
8.4.1 Disposal Pit
8.4.2 Deep Row Entrenchment
Quiz
8.5 What are the monitoring and operations requirements?
Quiz
8.6 What happens to a burial site once it is filled?
8.7 What are the environmental risks and mitigation measures?
8.8 What are the advantages and disadvantages of sludge burial?
9 Burning of Sludge
13 Topics | 2 Quizzes
9.1 What does the burning of sludge imply?
9.2 How suitable is sludge burning for emergency settings?
9.3 What are the preconditions and requirements for burning of sludge?
9.4 What different burning methods exist?
9.5 What is important to know about incineration?
9.6 What is important to know about pyrolysis?
9.7 What is important to know about gasification?
Quiz
9.8 What are design and implementation considerations?
9.9 Incinerator
9.10 Pyrolysis Unit
9.11 Gasifier
9.12 What are the characteristics and application potential of the products from sludge burning?
Quiz
9.13 What are the potential advantages and constraints of sludge burning?
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5.5 How to design the vermicomposting process

Sludge and Biosolid Management 5 Vermicomposting 5.5 How to design the vermicomposting process

Vermicomposting reactors can be constructed using local materials such as bricks or concrete. To achieve the optimal performance, the following design criteria are suggested:

ParameterUnitRangeOptimal
Temperature°C10 – 3520 – 25
Moisture Content%50 – 9060 – 80
Feed rate kg Feed / kg worms / d0.8 – 2.01.0
Worm Loadingkg worms / m20.8 – 2.02.0
Food layer depthcm 10 – 15
Environmental conditions for the worms (Source: C. Furlong)

Some general set-up considerations are as follows:

  • Wormbeds: Since the worms are surface dwellers, and since it is crucial to maintain aerobic conditions and moderate temperatures in the substrate, the vermicomposting beds must be shallow.
  • Shelter: Structural facilities must protect against extremes of cold, heat, drought and moisture, all of which can cause loss of activity, migration or death of the worms.
  • Sludge conveyance: Depending on the nature of the sludge feed, sludge can be moved and distributed by manual, mechanical or hydraulic means.
  • Bed harvesting: The collection of worms and castings can be accomplished by manual or mechanical means or by use of mobile equipment.
  • Separation of products: Cylindrical rotating screens are commonly used for mechanical separation of worms and castings.

In the previous lesson on composting, the methodology of determining the ideal mixture concerning moisture content was introduced. The same steps apply to the case of vermicomposting.

How many worms are necessary?

The required quantity of worms can be estimated by applying the following formula:

Where,

ParameterDescriptionUnit
QWQuantity of wormskg
VINVolume of sludgem3/d
ρDensity of sludgekg/m3
CTSConcentration TS%
FRFeeding rate kg feed/kg worms/d

Exercise

Assuming we want to process 5 m³ of dewatered faecal sludge (TS 30%) daily with a density of 1,050 kg/m³, the optimal feeding rate of 1 kg feed/kg worms/d. Please calculate the quantity of worms required.

Solution:

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