SIST CR 13768:2001

SLOVENSKI STANDARD
SIST CR 13768:2001
01-december-2001
Karakterizacija blata - Dobra praksa za skupni sežig blat in komunalnih odpadkov
Characterization of sludges - Good practice for combined incineration of sludges and
household wastes
Charakterisierung von Schlämmen - Anleitung für die gute fachliche Praxis bei
gemeinsamen Verbrennung von Schlämmen und Hanshaltsabfällen
Caractérisation des boues - Bonne pratique pour incinération combinée des boues et
des déchets ménagers
Ta slovenski standard je istoveten z: CR 13768:2001
ICS:
13.030.20 7HNRþLRGSDGNL%ODWR Liquid wastes. Sludge
13.030.40 Naprave in oprema za Installations and equipment
odstranjevanje in obdelavo for waste disposal and
odpadkov treatment
SIST CR 13768:2001 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST CR 13768:2001

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SIST CR 13768:2001
CEN REPORT
CR 13768
RAPPORT CEN
CEN BERICHT
August 2001
ICS
English version
Characterization of sludges - Good practice for combined
incineration of sludges and household wastes
Caractérisation des boues - Bonne pratique pour Charakterisierung von Schlämmen - Anleitung für die gute
incinération combinée des boues et des déchets ménagers fachliche Praxis bei gemeinsamen Verbrennung von
Schlämmen und Hanshaltsabfällen
This CEN Report was approved by CEN on 16 June 2001. It has been drawn up by the Technical Committee CEN/TC 308.
CEN members are the national standards bodies of Austria, Belgium, Czech Republic, Denmark, Finland, France, Germany, Greece,
Iceland, Ireland, Italy, Luxembourg, Netherlands, Norway, Portugal, Spain, Sweden, Switzerland and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36  B-1050 Brussels
© 2001 CEN All rights of exploitation in any form and by any means reserved Ref. No. CR 13768:2001 E
worldwide for CEN national Members.

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SIST CR 13768:2001
CR 13768:2001 (E)
Contents
Foreword.3
Introduction .4
1 Scope .5
2 References.5
3 Terms and definitions.5
4 Requirements .7
4.1 General.7
4.2 Origin and knowledge of the materials intended for combined incineration .7
4.3 Requirements concerning transport, storage and transfer.9
4.4 Suitability of the incineration equipment .12
Annex A Various systems to input sludge into a household waste incineration plant.15
Annex B Different furnace types .17
Bibliography .21
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Foreword
This document has been prepared by CEN /TC 308, "Characterisation of sludges".
This document is currently submitted to the BT for publication as a CEN Report.
The status of this document as CEN Report has been chosen because the most of its content is not completely in
line with practice and regulation in each member state. This document gives recommendations for a good practice
concerning the combined incineration of sludges and household wastes but existing national regulations remain in
force.
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Introduction
All of the recommendations of this document constitute a framework within which the combined incineration
process can be proposed in addition to and/or as a substitution for field spreading, waste site disposal (landfilling),
specific incineration (see CR 13767), or any other process.
Combined incineration should abide by the European Directives 89/369/EEC (Prevention of air pollution from new
municipal waste incineration plants), 94/67/EEC (incineration of hazardous waste) by the future European Directive
studied by the CEN/TC 292, and should comply with the relevant regulations and recommendations in force within
each member state to reduce as far as possible negative effects on the environment such as pollution of the air,
ground, surface and underground water, and on human and animal health. This concern therefore relates to: the
pre-treatment of the sludge in plants, the transfer of the material to the treatment centre, the actual destruction
process, the treatment of gaseous discharge into the atmosphere, the future of the different by-products stemming
from combustion and the treatment of the liquid effluents possibly resulting from the process.
Anyway, priority should be given to reduction of pollutants at the origin and or to recovery of valuable substances
(phosphorus, potassium…) in sludge and derived products if technically and economically feasible.
As part of a process and company quality approach, the relevant issues are therefore :

exploiting the operating data and the statutory inspections carried out ;

rendering the process reliable, optimising and of perpetuating it, as well as guaranteeing a permanent
development ;

maintaining a climate of confidence between the authorities, the sludge producers, the transporters, the
incineration plant and waste disposal site operators and to allow the services to be provided on a contractual
basis.
When necessary, a distinction can be made between existing facilities and new incineration plants.
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1 Scope
This CEN Report gives indication for dealing of the combined incineration treatment of sludge and household
waste.
This European standard is applicable to sludges described in the scope of CEN/TC 308 i.e. specifically derived
from :

storm water handling ;

night soil ;

urban wastewater collecting systems ;

urban wastewater treatment plants ;

treating industrial wastewater similar to urban wastewater (as defined in Directive 91/271/EEC ) ;
but excluding hazardous sludges from industry.
Annex A gives information on various systems to input sludge into a household waste incineration plant.
2 References
EN 1085, Wastewater treatment – Vocabulary.
EN 12832, Characterisation of sludges.
prEN 13965-1, Characterization of waste - Terminology - Part 1 : Materials related terms and definitions.
prEN 13965-2, Characterization of waste - Terminology - Part 2 : Management related terms and definitions.
3 Terms and definitions
For the purposes of this CEN Report, the following terms and definitions given in EN 12832 and EN 1085 and the
following in accordance with prEN 13965-1 and 2 except for the definition of combined incineration apply :
3.1
household waste
waste arising in households
509 of EN 13965-1
3.2
incineration
treatment by combustion
NOTE In contrast to pyrolysis, incineration is carried out with full supply of oxygen
22 of EN 13965-2
3.3
household waste incineration plant
all of the equipment required for the thermal conversion by incineration of household waste with or without energy
recovery
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3.4
combined incineration of sludge and household waste
incineration of sludge and household waste in a same combustion chamber
3.5
pyrolysis
thermal treatment with limited supply of oxygen
29 of EN 13965-2
3.6
thermolysis
one of the methods of application of pyrolysis
3.7
charge preparation
the operation of preparing sludge that can be necessary prior to entering the furnace
3.8
incinerator furnace
specific part of the incineration plant where the combustion reactions that destroy the organic matter take place,
generating gaseous effluent and solid residues
3.9
boiler (heat exchanger)
specific part of the incineration plant where heat exchange takes place in view of recovering energy and of cooling
down the fumes
3.10
waste gas treatment
any physical or chemical process aimed at cleaning the flue gas resulting from the thermal treatment with the
regard to their discharge into the atmosphere
3.11
bottom ash)
combustion residue arising at the bottom of combustion furnaces
[502 of EN 13965-1]
3.12
fly ash
solid material that is entrained in a flue gas stream
213 of EN 13965-1
NOTE See waste Directive 91/156/EEC.
3.13
energy recovery
activity to use combustible waste as a means to generate energy through direct incineration with recovery of heat
[39 EN 13965-2]
NOTE See packaging Directive (94/62/EEC).
3.14
storage center (landfill)
NOTE See Landfill Directive.
3.15
leachate
NOTE See landfill Directive.
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3.16
recycling
activity in a production process to process waste materials for the original purpose or for other purposes, excluding
energy recovery
NOTE See packaging Directive 94/62/EEC
41 of EN 13965-2
4 Requirements
4.1 General
As a general rule, the criteria, which lead the decision-makers to choose combined incineration, are similar to those
which lead them to construct or to extend incineration plants for household waste only.
The local recommendations take into account :

the impossibility to introduce or pursue any other process or to have at one's disposal an alternative to existing
solutions, throughout whole or part of the year, in particular in the case of technical shutdown and particularly if
the incineration plant only has one treatment unit ;

the geographical context, the client population and therefore the potential input material (waste + sludge) as
well as the expected developments ;

the proximity of the sewage treatment plant/incineration plant and the local road network ;

the extent to which the incineration plants are used (dimensioning of furnaces, charge levels, filling) ;

the variations due to seasonal activity and production peaks both in sludge and household waste.
4.2 Origin and knowledge of the materials intended for combined incineration
4.2.1 General aspects
Considering, in the spirit of this guide, combined incineration as one of the channels for sludge treatment, two
approaches are possible :
a) the treatment site accepts over the course of time materials of different origin, type, behaviour and quantity
and it should be readily adaptable in order to always guarantee optimum destruction ;
b) the treatment site (due to its design, for example) cannot offer any flexibility. Two cases then present
themselves :

a quantitative or qualitative limitation will be demanded on the site ;

a reflection, taking into account the technical and economic constraints, should be conducted in order to
examine the influence of any modification in sludge production, so as to achieve a perfect
material/process match.
There should be the opportunity for process evolution to comply with new constraints, particularly arising from
changes in legislation. Finally, it is worthwhile specifying that incineration plants are installations which, for reasons
of technical availability and maintenance, operate between 7000 h and 8000 h per year. It will therefore be
advisable to provide for a selective and appropriate organisation (alternative elimination or storage channel) with
the water treatment site administrator during the furnace shutdown periods, whether of short duration (minor
maintenance operations, incident) or of long duration (programmed stoppage for major yearly overhauling). This
latter comment is particularly important in the case of a plant equipped with one incineration line only.
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Under these conditions, it is then a question of specifying certain physico-chemical properties of the "sludge
material" which can influence the combined incineration process with a view to making provision for the necessary
installations, the behaviour and flexibility of the equipment to be implemented as well as the possible additional
maintenance and wear. The methods for sampling and controlling the follow-ups as well as their validity will
conform to the requirements suggested by all of the players of the process, from the producer up to the final
disposer.
Prior knowledge of the parameters given below will greatly help determine what equipment has to be considered
both for adapting the new combined incineration activity at existing plants not planned for this purpose and for
designing new incineration plants.
The operational departments of the incineration plants reserve the right to refuse a sludge, which can present one
or more "abnormal" parameters, e.g. a particularly high content of one or more trace elements and for which the
unit's equipment :

will not allow to guarantee compliance with current emission thresholds ;

will generate bottom ash and fly ash whose deterioration of the quality will no longer allow a disposal in
conformity to the provisions in force (regulation and/or current technical-economic conditions). We will point out
that too high contents of phosphorous pentoxide (P O ) in the bottom ash and ash cause a drop in their
2 5
melting point.
4.2.2 Parameters relating to transport. storage and transfer
It is a question of :

origin of sludge ;

type of sludge ;

dry substance content ;

viscosity and rheological behaviour on delivery and on recovery ;

stability when piled, heap angle ;

risks of the material and its parameters changing with time, during transport and storage (varying stability,
rheological change, fermentation, smells) ;

pH value.
4.2.3 Parameters relating to combustion conditions and to gaseous and solid discharges
These elements permits to anticipate the consequences on the combustion chamber functioning and on
discharges :

dry matter content ;

organic matter content, organic micropolutants or volatile matter index ;

higher or lower calorific value ;

content of :

carbon ;

hydrogen ;

oxygen ;
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nitrogen ;

sulfur ;

chlorine ;

phosphorous :

as far as the nature of the gaseous discharge into the atmosphere is concerned, particular attention will be
paid to compliance with national regulatory provisions. A periodic monitoring of toxic metals of sludges
should be carried out to ascertain the standards of incineration plants are respected.
4.2.4 The case of sludge with additives
Lime-treated sludge.
In order to slow down fermentation, lime is frequently added to the sludge. The limed sludge may have a positive
impact on transport and storage, however, on the other hand, combustion can be affected by it: the life cycle of the
refractories can be reduced due to alkaline degradation at these temperature levels, and additional clogging occur
in the furnace's boiler unit. Furthermore, the resulting quantities of bottom ash and ash are increased in the
proportions considered.

other important types of additives : FeCl , polymers, organic flocculants, phosphate removal products, etc.
3
To date, the impact of these additives has not been sufficiently quantified to enable recommendations to be made.
For all of these three categories of parameters, a distinction will be made between those parameters which are
worthwhile knowing for satisfactory combined incineration on a routine basis and the additional parameters which,
although having little or no influence, can prove useful for optimising the process.
It will be particularly important to determine the ranges within which change is acceptable and/or unacceptable.
Among all of these parameters, a selection of those, which should be regularly monitored and/or inspected, should
be proposed.
4.3 Requirements concerning transport, storage and transfer
4.3.1 General provisions concerning transport
The "transport" system should be designed so as to guarantee maximum containment and limited nuisance due to
smells. The transport vehicle driver should have in his possession the consignment note stating the origin, quality,
quantity and destination of the sludge being transported.
Transport should not give rise to any accidental spillage of sludge onto the roadways and the various manoeuvring
areas. In the event of the travelling distances being long, modification of the sludge should be taken into
consideration.
The vehicles used should be suited to the different categories of roads. National and/or local regulatory provisions
should be imperatively observed.
Recommendations specific to transport
Transport consists in conveying the sludge from the sewage treatment plant to the incineration plant, if possible in
a single stage. It includes the sludge loading and unloading operations.
In the majority of cases, transport will be carried out using an appropriate vehicle for which loading and unloading
means adapted to the volume and condition of the sludge should exist. Unloading generally takes place by gravity,
occasionally by pumping.
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Transport can be carried out via pipeline where the plant and incineration plants are close enough to one another
for this to be technically and economically feasible. The pumping conditions and the outputs to be applied will then
be particularly examined. In particular, the use of polymers can be used for facilitating transport in the case of very
long pipes.
4.3.2 General provisions concerning storage
4.3.2.1 Storage with household waste
Sludge can be stored with household waste either directly by tipping into the pit, or by using spray, or any other
method in order to spread it right through the pit. The operator will have to accept and master the constraints
involved in the choice of storage method.
4.3.2.2 Recommendations
Two elements are essential in the quality of the sludge to be tipped: dryness and consistency. In the case of liquid
or semi-paste-like sludge, there is a risk of the household waste becoming wet and water accumulating by gravity
at the bottom of the pit. An identical gravity phenomenon can occur with solid sludge of low particle size, difficult to
remove with a grapple.
In all cases, tipping sludge into a pit creates an additional work for the crane operator so that the mixture will be as
homogeneous as possible. This work should be carried out in parallel with the management of household waste in
pits and therefore requires a dual function for the crane driver.
In fact, this is a possible solution where sludge quantity is low compared to the household waste and/or on a
selective basis. According to how dry the sludge can be and the proportions anticipated, a study should be
envisaged, even prior tests.
We would draw attention to the risks related to handling dried sludge: (explosive and burning risk depends on solid
state).
On the other hand, the odour problems are directly linked to the quality of the sludge (e.g. raw sludge)
...