Our normal activities creates 2-5 tons of various waste products daily which vary from condemned carcasses, and also medical incinerator main combustion price

other wastes all which need to be blazed at above 800Centigrade gauged flue exhaust gas.To be used by small

healthcare facilities and facilities to safely take care of infectious as well as pathological wastes.

Tons Ability in the range of as much as 200 kg
– – Burning Rate approx. 50kg/Hour – –

Burners to be really reliable, gas efficient with high/ reduced ability melt rates
and to be made to meet the Norms of Air Pollution Control/ DEFRA, etc. Technology:

Temperature Controlled Heater. Heavy-duty housing, to be a quality, rugged, trustworthy, affordable Clinical Waste

Incinerator with relevant control, very easy to run and also self-supporting. Type of Gas: Diesel/ Oil or Petroleum.
Systems to be pre-assembled, pre-piped, pre-wired & & evaluated before Transport/ Export.

Within the structure of an environmental and medical equipment & & technology appointment and joint buying, this

Procurement Bureau welcomes applicants for pre-qualification in the purpose of mainly picking qualified firms to bid

for the above tender.
The supply will make up the unique devices for reliable waste administration as stated over for a new personal

atmosphere contract administration company with prepared operations 2013 in Indonesia as well as Thailand, as well as 2014 in West & & East

Malaysia to accomplish those expert services in order to abide by the federal governments safety and security disposal needs

for medical as well as hospital, professional waste in the region and also to fulfill the greater technical standard in this certain

field.small incinerators with filter (with the very least minimum pollution) for burning/combusting 5kg/hr, 10kg/hr, 15 kg/hr,

20kg/hr, 25kg/hr to 50kg/hr and also 300kg/hr of STRONG NATURAL DRY AND DAMP NON-HAZARDUOUS of any kind (including healthcare facility

wastes) daily or per hr. Should it be with no smoke, no fumes, no odour (odor), no dust, no emission of solid

particles and with the very least minimal contamination (within national as well as worldwide criteria). Need to be eco

healthy and balanced as well as acceptable with worldwide criteria. Need to not be with water scrubbers. Ash materials after burning

should be 3-4%.

INCINERATEUR DE DECHETS HOSPITALIER hospital incinerator layout

SPECIFICATIONS TECHNIQUES.
Capacité damaging de 55 Kg/h jour de déchets hospitaliers avec un p?. c. i jusqu’ à 3.200 Kcal/Kg
1) Kind de déchet

hospitalier
2) Pouvoir calorifique inférieur 3.200 kcal/kg
3) Humidité 20%.
4) Teneur en cendres et/ou inertes 8%.
5) Capacité destructive nominale 55 kg/h.
6) Quantity chambre de burning 1,65 m3.
7) Quantity chambre postcombustion 2.1 m3.
8) Temps transportation des fumées en post burning/ sec. << 2. 9) Température minimale en postcombustion 1.100 ° C. 10) Teneur d’oxygène libre en postcombustion 6%. 11) Acknowledgment refuse confectionné en sachets HDPE. 12) Dispositif de chargement?: hydraulique?; capacité de charge 0.5 m3

13) Flammable prévu Gasoil.
14) Br?leur en chambre de combustion nbr?: 1.
15) Br?leur en chambre de postcombustion nbr?: 2

CONSTITTUTION DE L’APPAREIL.
1. CHARGEMENT.
Système de chargement hydraulique afin de pouvoir battery charger le 4 en toute sécurité même durant child fonctionnement et

aussi assurer la puissance devastating globale de 450 kg/j?
Le système comprend?:.
1-1Trémie de chargement de forme parallélépipédique de 0,5 m3 de volume, réalisée en t?le d’acier, bridés sur la paroi

frontale de la chambre de burning et munie d’un couvercle à charnières actionné par vérin hydraulique?.
Dimensions?:.
oLongueur 1200 mm.
oHauteur 700 mm.
oLargeur 600.
1-2Un poussoir hydraulique assurera le chargement de la chambre de combustion.
1-3 Une porte de chargement de la chambre de combustion constituée d’une guillotine à vérin hydraulique revêtue

de réfractaire.
1-4Un main hydraulique put piloter tous les vérins de commande, comprenant?: réservoir, pompe, électrovannes et

tuyauteries

2. CHAMBRE DE COMBUSTION PRIMAIRE

2-1- Le bati est une structure métallique cylindrique revêtue intérieurement d’une couche d’isolant et d’une

couche de réfractaire.
2-2-Volume intérieur?: 1,65 m3.
2-3-Aménagement.
? portillon de décharge des cendres?: frontal?; monté sur double charnière et revêtu de réfractaire avec hublot

d’inspection.
? La connexion à la chambre de chargement est revêtue de réfractaire.
? La connexion de la chambre de combustion et de la chambre de article combustion est revêtue de réfractaire.
? Setup des bruleurs.
? Setup du système de circulation de l’air comburant.
? Installment des sondes de mesure de la température.
? Le bac de récolte des cendres est en acier au carbone sur roulettes, équipé de racloir métallique permettant

l’évacuation manuelle des cendres.
3. BRULEUR DE LA CHAMBRE DE COMBUSQTION.
Un bruleur de kind à une flamme à l’air soufflé, alimenté the same level gasoil, équipé des dispositifs de sécurité Puissance

thermique installée 165 KW.
4. AIR COMBURANT.
Le système de distribution et dosage de l’air primaire en chambre de burning comprend?:.
? Ventilateur centrifuge.
? Canalisations de distribution air.
? Systéme de circulation d’air à 2 canaux.
? Soupape de régulation de l’air motorisé selon les phases de cycle de fonctionnement et de la température

5. CHAMBRE DE POST BURNING.
5-1- Chambre de article burning est installée au dessus du foyer de combustion, elle est constituée d’un

cylindre métallique revêtu intérieurement d’une couche d’ isolant et d’une couche de matériaux réfractaires.
5-2- Volume intérieur?: 2,1 m3.
Est dimensionnée put pouvoir garantir un temperatures de fumée de 2 secondes à 1100 ° C avec un pourcentage d’oxygène libre

d’au moins 6 %.
5-3 -Accessoires.
? Trappe de visite boulonnée frontal put permettre l’inspection périodique.
? La intermediary à la chambre de burning est tapissée de réfractaire.
? Setup les br?leurs.
? Installation des sondes de mesure température.
6. MANUFACTURING DE L’AIR COMBURANT DE LA CHAMBRE DE POST COMBUSTION.
? Ventilateur centrifuge.
? Tuyauteries de distribution d’air.
? Série de vannes de circulation d’air.
? Soupape de régulation de l’air soufflé asservi par la sonde du débit d’ oxygène

7. BRULEUR DE LA CHAMBRE DE MESSAGE COMBUSTION.
Sont prévus 2 br?leurs du type à l’air soufflé au gasoil équipés des dispositifs de sécurité.
A la mise en route du four les deux br?leurs sont allumés pour assurer la température minimale d’au moins 1100 ° C?;

ils restent en marche successivement pour maintenir la température constante.
Puissance thermique installée (290 + 350) KW.

8. CHEMINEE D’EVACUATION.
Constitué the same level un avenue métallique vertical de 8 m de long installée au-dessus de la chambre de COMPUTER, diamètre 630 mm

en t?le d’acier au carbone avec garnissage intérieur en réfractaire

9. ARMOIRE ELECTRIQUE DE COMMANDE ET GUIDELINE.
Composée de?:.
? Circuit 380 V- 50 HZ-3 stages.
? Voyant sous stress.
? Commande d’arrêt général.
? Voyant état des bruleurs.
? Affichage des températures des deux chambres.
? Minuterie des temps des cycles.
? Une variation des vitesses des ventilateurs.
? Le tableau et les cablages sont prévus aux règles CEI avec security IP 55.
? Microprocesseur put le contr?le et la régulation des températures, ainsi que les cycles d’opération.
? Cablages réalisés selon les règles CEI.

10. INSTRUMENTATION DE CONTROLE ET DE MESURAGE CONTINU.
Les dispositifs suivants sont prévus?:.
1) Thermocouples pour la mesure de la température en chambre de combustion? et postcombustion, à la sortie de

l’échangeur dans la area d’entrée du filtre.
2) Système de mesure de la concentration d’oxygène dans les fumées humides a la sortie de la chambre de postcombustion

constitué de?:.
? Sonde de mesure de l’oxygène à l’oxyde de zirconium.
? Pompe à la membrane.
? débitmètre

1. Ability of damage in weight: 60 Kg/h.
2. It should be able to run not much less than 10 hours/day
3. This burner must have the ability to demolish all flammable wastes created by healthcare facilities, exclusive clinics, laboratories, institutes, and so on.
4. Style Requirements: Kinds A, B, C, D, as well as E of medical waste
5. ” PYROLYTIC” burning, by managing the gasification of waste.
6. The burner must stay clear of the release of black smoke and also great dust, throughout the loadings.
7. It should have the ability to reduce the volume of wastes by 98%.
8. It ought to be able to hold discharge in the second shed with gas house of not less than 2 seconds.
9. The incineration should be completely without visible smoke in addition to offending odours.
10. The reduced calorific power (L.C.P) of this waste will be 3,500 kcal/kg
? The Temperature levels of burning: Minimum will be 850oC and also max 1400oC
? Article burning: >> 1100oC.
11. The Interior size of the Smokeshaft:? 400 and its elevation: 8 m.
12. The Quantity of the combustion chamber: 1.200 L.
13. The Dimension of the door for loading in cm: 70 × 70.
14. Heater operation must be Automatic On/Off.
15. Fuel: diesel.
16. The provider must supply needed info for the best of the installation.
This burner with “PYROLYTIC” burning should have:.
17. A burning chamber of waste:.
* Completely limited door for the hands-on loading of waste. The loading must be Handbook, Set Lots.
* A burner of illumination which the use is limited to the ignition of waste.
* Frontage of packing with door seals increased on joints, wheel of screw plug, adaptable joint, and also packing shielding out of refractory.

* clinical burners, The insulation of the burning chamber need to be made up of refractory bricks, having a.
high content of aluminium and also protects bricks in order to ensure a minimum temperature on.
the outside sheet metal.
* Structure of the refractory;

? Refractory concrete:.
?. Thickness : ≥ 100 mm.
?. Nature: 42% of Al203.
? Protect in fibrous panels:.
?. Density: ≥ 75 mm.
? Nature: Calcium silicate.
* Heater of lighting of waste, with gas, standard mono-bloc casting leading diving fire, lights and also safety of electronic ignition, long-term ventilation, electromagnetic sluice entrance of regulation and also isolating valve.
* Plate of combustion in Carborundum, avoiding the dealing with of glass and slags.

18. A chamber of post combustion of gases.
* A heater of combustion of gases,.
* A gadget of injection of air permitting a total recombustion of gases,.
* A device of air inlet of air conditioning of waste gases,.
* A sheath of emptying of the gases burnt.
* Carcass in solid sheet steel with support of link.
* Composition of the refractory;.
? Refractory concrete:.
? Thickness : ≥ 150 mm.
? Nature: 65% of Al203.
? Protect in fibrous panel:.
? Thickness: ≥ 85 mm.
? Nature: Calcium

* Burner with gas, mono-bloc casting assisting kind with straight fire, lights and safety and security of digital ignition, permanent ventilation, electro-magnetic sluice gate of policy and separating shutoff.
* An additional injection of air to make certain excellent oxygen content.
19. A control box guaranteeing the total cycle of burning.

20. Fan:
* Electro-ventilator distributing the secondary air, the regulation of the air circulation being accomplished by shutoffs and adhering to the control of the automatic cycle.
21. Controls as well as policies:
Control box watertight to dust, consisting of:

* A button circuit breaker for each engine (ventilators and also heaters).
* A timer with adjustable temporization for the law of each heater.
* A regulatory authority with digital watching for the temperature level of combustion.
* A regulatory authority with digital watching for the temperature of postcombustion.
* Electric box.

21. The de- ashing has to be performed in the bottom of the combustion chamber or the deashing need to be Automatic or manual set de ashing.
22. Refine Filtering system: Scruber to be mentionned as optional
23. Emission Standards Conformity: BS 3316 or équivalent criterion
23. Capability to treat Plastic: Not much less than 40% by weight
24. CE Production Conformity: BS EN 746-2-1997
22. The provider has to give sets of extra parts of first seriousness as well as consumable of the incinerator.
23. The set up burner should bear a one year assurance.
24. The distributor shall perforn an onsite installment of the burner.
25. The technical training of drivers will have to be offered and also given by a professional from
the manufacturing facility; it will contain medicinal and also preventative upkeep, and using machine, etc

NB.: Civil works and any kind of other related services for the setup and also training of operators need to be consisted of in the burner’s cost.
Specification for the shelter of the incinerator: House of the incinerator comprehensive in offer (your house have to have facilities for hand cleaning and also firefighting).
This product and also tools must include in the shed of the burner: foundation in rubble stone, seclusion roofing versus humudity; elevation with brick of 20 cm (bloc cement), proceeding lintel (linteau) in enhanced concrete; steel frame (charpente en steel); roof covering in sheet B.C.A. 28 BG (Toiture en t?le), steel rain gutter, sanitary installation (laundry basin, soakway pit of 20 m of deepness); ash pit of 30 m3, electric setup; concrete piece for dealing with the burner; chanel for evacuation of rain water or waste water, cord mesh for oygenation up the lintel; smooth rougtcasting of walls (interior as well as outside); plinth with cement; 2 metal doors; email paints inside and also latex paints outside your home on walls and on doors; roofing limit (planche de rive); steps for this spec will certainly depend upon the dimension of the incinerator which will identify the size of the shed of the incinerator., etc

Total combustion converts waste into inert bottom ash with minimal development of smoke, fly ash and also harmful

gases. Numerous aspects affect this procedure including the heating value, moisture as well as chemical composition of the

waste itself, operating conditions in the shed chamber (i.e. temperature level, holding time and also turbulence) and also

driver ability.

The technique used is necessary in identifying what can securely be burned. Particular wastes can only be incinerated

making use of equipment that has actually been particularly developed and also equipped with enough air contamination controls which

attain particular air discharge standards. Waste having chlorinated substances (i.e. chlorinated

solvents and plastics, PVC piping, timber treated with pentachlorophenol or PCB-amended paint, marine driftwood)

must be separated from various other waste as their burning will certainly result in the de novo development as well as exhaust of various

dioxin and furan compounds. Waste including mercury (i.e. batteries, thermostats as well as fluorescent light bulbs) as well as

various other hefty metals (i.e. lead acid batteries, timber treated with lead paint) should not be burned as the mercury

as well as heavy steels will not be ruined. Other waste that needs to not be shed unless using specially developed

incinerators consist of made use of lubricating oil, hydrocarbon contaminated soil, biomedical waste, sewer sludge or any kind of

other waste specifically prohibited by the Division of Environment.

Table 2 supplies a listing of typical wastes that can be shed and those that call for special factor to consider and

therapy. Note that open burning and incineration are recognized as separate columns in the table which

various restrictions apply relying on which approach is used. In general, much more restrictions relate to the

different techniques of open burning because of the incomplete combustion achieved. Fewer restrictions put on

incineration as a result of the operator’s capability to control the burning procedure.

Non-combustible products such as steel and also glass do not burn as well as will certainly rob warmth away from waste that can be

ruined by burning. Flammable waste needs to always be separated from non-combustible waste prior to being filled

into the melt chamber.

1. Petrol: diesel

2. Consumption: 8-10liter/hour

3. Capacity: to cremate (carrion and spoils) 350-400kg/hour

4. Temperature: 900-1350?C

5. Operation temperature: -30~40?C

6. Incinerator weight: 1800-2000 kg

7. Volume: 0.70-0.80m/cube

8. Exterior dimension: 1.4-1.6*1.0-1.15m (L*W)

A burner stands for a complete service to the trouble of disposal of all medical facility waste kinds. The liquid fuel

is diesel. The burner ought to fulfill the setting standards. Expected Technical specifications

The burner will be completely self consisted of. incinerators that are stainless

steel with destruction rate of 15kg per hr. bactch lots of 10-15kg of

waste as well as average temperature level of 8500 degress c.

The incinerator plant shall incorporate a control board for its procedure. On the control panel we will have a visual

screen of the chamber temperature levels. This aesthetic display needs to manage and keep an eye on the burner as well as his performance.

Capacity of destruction in weight will be 60 Kg/h.

It must be able to operate not much less than 10 hours/day

This incinerator need to have the ability to wreck all combustible wastes produced by healthcare facilities, private centers, research laboratories,

institutes, and so on.

Style Specification: Types A, B, C, D, as well as E of clinical waste

Supply, setup & & testing DUCTED SPLIT UNITS at waste store with enough ability to maintain the internal

temperature at 14 levels Celsius in summer seasons as well as winters months

“PYROLYTIC” burning, by controlling the gasification of waste

The incinerator producer should stay clear of the launch of black smoke as well as great dust, during the loadings.

It will be able to reduce the quantity of wastes by 98%.

It shall have the ability to hold discharge in the second shed with gas residence of not much less than 2 seconds.

The incineration should be completely without noticeable smoke as well as offensive odours.

1.0 The main ignition burner shall supplying ignition of the waste to 850 ° C as well as must turn off to conserve fuel.

The key burning chamber shall be constructed from hefty steel plate and also the system is internally lined with a

complete layer of hote face refractory and high performance insulation.

The Interior diameter of the Smokeshaft a minimum of:? 400 and also its elevation: 8 m

1) Policy

– – Waste disposal administration will be taken unique note to prevent health center infection.

– – Infections wastes shall be taken care of, stored purely and also burned by a burner situated at hospital site.

2) Waste Disposal Plan

1. a)Classification

– – Medical wastes in healthcare facility are categorized as follows;

1. b) Infections Waste Disposal

– – Partition: Infections garbage disposal will be set apart suitably and also crammed in particular containers as well as delivered to particular storage space. The partition, packaging and distribution will be run appropriately at each room such as outpatient, operation cinema, blood collection area and also dialysis space.

– – Safety measure: Infections waste will not be location in other containers on the way of partition, packing as well as delivery.

– – Storage space: Infections waste will be kept at the storage space in health center website briefly until infections waste is incinerated.

– – Incinerator:

It is developed to sanitize clinical waste, decrease its quantity, and make its parts unrecognizable all in one completely enclosed and automated system.

It combines straight heated steam, high stress and also shredding to deal with contagious materials.

The infected waste is filled right into the top stainless-steel chamber where a sturdy shredder reduces the waste into tiny items. Utilizing gravity, the processed material comes under the therapy chamber where every item is heavy steam warmed to 134 and also pressurized to 3 to bar for 20 mins. The operating conditions are continuously kept track of as well as validated to achieve complete sterilization.

The 60 mins typical duration procedure cycle is totally automated. A computerized system monitors the procedure and also instantly prints a record with the crucial disinfecting criteria at the end of the cycle for exact record keeping.

The ability is between 500 to 600 kg/cy. h or even more.

Therapy cycle:

1- Filling; the polluted waste is automatically -filled into the chamber of the system

2-Shredding; the durable shredder reduced the product right into small pieces and also includes a special turning around system to avoid jamming

3-Heat; saturated pressurized heavy steam increases the temperature to 134 C and the pressure to 3 bar

4-Sterilization; the sterilization enters straight call with the shredding material (134 c, 3 bar) for 20 mins

5-Cooling; temperature level is decreased to 80 C by spraying awesome water onto Double coat of the treatment vessel, concurrently, the unit returns to ambient pressure

6-Draining; the heavy steam is condensed to water and released with the cooling water to the sanitary sewer system

7-vacuum; the staying residual steam is vented out through an air pump

8-Unloading; a digital signal educates the operator that all safe operating conditions have been fulfilled

The problem unlocks the device and also permits gravity dumping of the cured waste right into a container

Mentor Specification

General Characteristics