Difference between revisions of "Planning Guide for Biogas Plants"

From energypedia
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=Introduction =
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= Introduction =
  
 
Failure or unsatisfactory performance of biogas units occur mostly due to planning mistakes. The consequences of such mistakes may be immediately evident or may only become apparent after several years. Thorough and careful planning is, therefore, of utmost importance to eliminate mistakes before they reach irreversible stages.
 
Failure or unsatisfactory performance of biogas units occur mostly due to planning mistakes. The consequences of such mistakes may be immediately evident or may only become apparent after several years. Thorough and careful planning is, therefore, of utmost importance to eliminate mistakes before they reach irreversible stages.
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In the case of a family-size biogas plant intended primarily as a source of energy, implementation should only be recommended, if the plant can be expected to cover the calculated energy demand.
 
In the case of a family-size biogas plant intended primarily as a source of energy, implementation should only be recommended, if the plant can be expected to cover the calculated energy demand.
  
Information about the economic evaluation of a biogas plant can be found in the section on [[Cost and Benetfits of Biogas|Costs and Benefits]].
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Information about the economic evaluation of a biogas plant can be found in the section on [[Biogas_-_Costs_and_Benefits|Costs and Benefits]].
  
 
<br/>
 
<br/>
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<u>Evaluation criteria are:</u>
 
<u>Evaluation criteria are:</u>
**;'''+''' Siting condition are favorable
+
*
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****;'''+''' Siting condition are favorable
 
*;'''o''' Siting condition are unfavorable, but
 
*;'''o''' Siting condition are unfavorable, but
 
*:a) compensable by project activities
 
*:a) compensable by project activities
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| '''Prior energy supply'''
 
| '''Prior energy supply'''
 
Uses, source of energy, consumption:
 
Uses, source of energy, consumption:
**;'''Anticipated biogas demand (kwh/day or l/d)'''<br/>
+
*
 +
****;'''Anticipated biogas demand (kwh/day or l/d)'''<br/>
 
*:for cooking:<br/>
 
*:for cooking:<br/>
 
*:for lighting:<br/>
 
*:for lighting:<br/>
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'''Available biomass (kg/d) and potential gas production (l/d)'''
 
'''Available biomass (kg/d) and potential gas production (l/d)'''
**;from animal husbandry
+
*
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****;from animal husbandry
 
*:pigs:
 
*:pigs:
 
*:poultry:
 
*:poultry:

Revision as of 20:15, 20 January 2014

Introduction

Failure or unsatisfactory performance of biogas units occur mostly due to planning mistakes. The consequences of such mistakes may be immediately evident or may only become apparent after several years. Thorough and careful planning is, therefore, of utmost importance to eliminate mistakes before they reach irreversible stages.

As a biogas unit is an expensive investment, it should not be erected as a temporary set-up. Therefore, determining siting criteria for the stable and the biogas plant are the important initial steps of planning.

A general problem for the planning engineer is the interference of the customer during planning. As much as the wishes and expectations of customers have to be taken into consideration, the most important task of the planner is to lay the foundation for a well functioning biogas unit. As in most cases the customer has no experience with biogas technology, the planner has to explain all the reasons for each planning step. Planners should have the courage to withdraw from the planning process, if the wishes of the customer will lead to a white elephant on the farm.

Moreover, all extension-service advice concerning agricultural biogas plants must begin with an estimation of the quantitative and qualitative energy requirements of the interested party. Then, the biogas-generating potential must be calculated on the basis of the given biomass production and compared to the energy demand. Both the energy demand and the gas-generating potential, however, are variables that cannot be accurately determined in the planning phase. Sizing the plant(digester, gasholder, etc.) is the next step in the planning process.

In the case of a family-size biogas plant intended primarily as a source of energy, implementation should only be recommended, if the plant can be expected to cover the calculated energy demand.

Information about the economic evaluation of a biogas plant can be found in the section on Costs and Benefits.


Overview

This guide to planning is intended to serve agricultural extension officers as a comprehensive tool for arriving at decisions concerning the suitability of locations for family-sized biogas plants. The detailed planning outline has a data column for entering the gathered information and a rating column for noting the results of evaluation.

Evaluation criteria are:

        • + Siting condition are favorable
    o Siting condition are unfavorable, but
    a) compensable by project activities
    b) not serious enough to cause ultimate failure
    - Siting condition are not satisfactory

Despite its detailed nature, this planning guide is only a framework within which the extension officer should proceed to conduct a careful investigation and give due consideration, however subjectively, to the individual conditions in order to arrive at a locally practical solution. By no means is this planning guide intended to relieve the agricultural extension officer of the responsibility to thoroughly familiarize himself with the on-the-spot situation and to judge the overall value of a given location on the basis of the knowledge thus gained.

Initial Situation

Data Rating
Addresses/project characterization

Plant acronym:
Address of operator/customer:
Place/region/country:
Indigenous proj. org./executing org.:
Extension officer/advisor:

General user data

Household structure and number of persons:
User's economic situation:
Crops: types, areas, manner of cultivation:
Non-agricultural activity:
Household/farm income:
Cultural and social characteristics of user:

Problems leading to the "biogas approach"

Energy-supply bottlenecks:
Workload for prior source of energy:
Poor soil structure/yields:
Erosion/deforestation:
Poor hygiene and other factors:

Objectives of the measure "biogas plant"

User interests:
Project interests:
Other interests:




Natural / Agricultural Conditions

Data Rating
Natural conditions

Mean annual temperature:
Seasonal fluctuations:
Diurnal variation:

Rating:


- o +
Subsoil

Type of soil:
Groundwater table, potable water catchment area:

Rating:


- o +
Water conditions

Climatic zone:
Annual precipitation:
Dry season (months):
Distance to source of water:

Rating:


- o +
Livestock inventory (useful for biogas production)

Animals: kind and quantity:
Type of stable:
Use of dung:
Persons responsible for animals:

Rating:


- o +
Vegetable waste (useful for biogas production)

Types and quantities:
Prior use:

Rating:


- o +
Fertilization

Customary types and quantities of fertilizer/areas fertilized:
Organic fertilizer familiar/in use:

Rating:


- o +
Potential sites for biogas plant

Combined stable/biogas plant possible:
Distance between biogas plant and livestock stable:
Distance between biogas plant and place of gas consumption:

Rating:


- o +
Overall rating 1
- o +


Balancing the Energy Demand with the Biogas Production

Data Rating
Prior energy supply

Uses, source of energy, consumption:

        • Anticipated biogas demand (kwh/day or l/d)
    for cooking:
    for lighting:
    for cooling:
    for engines:
    Total gas demand
    a) percentage that must be provided by the biogas plant:
    b) desired demand coverage:

Available biomass (kg/d) and potential gas production (l/d)

        • from animal husbandry
    pigs:
    poultry:
    cattle:
    Night soil
    Vegetable waste (quantities and potential gas yield)
    1.
    2.
    Totals
    biomass and potential gas production
    a) easy to procure:
    b) less easy to procure:

Balancing

Gas production clearly greater than gas demand
-> positive rating (+)

Gas demand larger than gas production
-> negative rating (-); but review of results in order regarding:

a) possible reduction of gas demand by the following measures
->

b) possible increase in biogas production by the following measures
->

If the measures take hold:
-> qualified positive rating for the plant location (o)

If the measures do not take hold:
-> site rating remains negative (-)



Overall rating 2
- o +


Plant Design and Construction

Data Rating
Selection of plant design

Locally customary type of plant:
Arguments in favor of floating-drum plant:
Arguments in favor of fixe-dome plant:
Arguments in favor of other plant(s):

Type of plant chosen:

Selection of site

Availability of building materials

Bricks/blocks/stone:
Cement:
Metal:
Sand:
Piping/fittings:
Miscellaneous:

Availability of gas appliances

Cookers:
Lamps:
...
...



Overall rating 3
- o +


Plant Operation / Maintenance / Repair

Data Rating
Assessment of plant operation

Incidental work:
Work expenditure in h:
Persons responsible:

Rating with regard to anticipated implementation:


- o +
Plant maintenance

Maintenance-intensive components:
Maintenance work by user:
Maintenance work by external assistance:

Rating with regard too anticipated implementation:


- o +
Plant repair

Components liable to need repair:
Repairs that can be made by the user:
Repairs requiring external assistance:
Requisite materials and spare parts:

Rating with regard to expected repair services:


- o +
Overall rating 4
- o +


Economic Analysis

Data Rating
Time-expenditure accounting

Time saved with biogas plant
Time lost due to biogas plant

Rating:


- o +
Microeconomic analysis

Initial investment:
Cost of operation/maintenance/repair:
Return on investment: energy, fertilizer, otherwise:
Payback time (static):
Productiveness (static):

Rating:


- o +
Quality factors, useful socioeconomic effects and costs

Useful effects: hygiene, autonomous energy, better lighting, better working conditions, prestige:
Drawbacks: need to handle night soil, negative social impact:

Rating:


- o +
Overall rating 5
- o +


Social Acceptance and Potential for Dissemination

Data Rating
Anticipated acceptance

Participation in planning and construction
Integration into agricultural setting:
Integration into household:
Sociocultural acceptance:

Rating:


- o +
Establishing a dissemination strategy

Conditions for and chances of the professional-craftsman approach:
Conditions for and chances of the self-help oriented approach:


- o +




- o +
General conditions for dissemination

Project-executing organization and its staffing:
orgnaizational structure:
interest and prior experience in biogas technology:

Regional infrastructure for
transportation:
communication:
material procurement:

Craftsman involvement, i.e.
which acitivities:
minimum qualifications:
tools and machines:

Training for engineers, craftsman and users:

Proprietary capital, subsidy/credit requirement on the part of
user:
craftsmen:

Rating:


- o +
Overall rating 6
- o +


Summarization

Siting conditions

No. Rating
Natural/agricultural conditions 1. - o +
Balancing the energy demand and the biogas production 2. - o +
Plant design and construction 3. - o +
Plant operation/maintenance/repair 4. - o +
Economic analysis 5. - o +
Social acceptance and potential for dissemination 6. - o +

Overall rating of siting conditions

- o +


Further Information


References