Tag: wasteincinerators

medical incinerator 20kg

We are looking for small incinerators with filter (with least minimum pollution) for burning/combusting 5kg/hr,

10kg/hr, 15 kg/hr, 20kg/hr, 25kg/hr to 50kg/hr and 300kg/hr of SOLID ORGANIC DRY AND WET NON-HAZARDUOUS of any kind

(including hospital wastes) per day or per hour. Should it be with no smoke, no fumes, no odour (smell), no dust, no

emission of solid particles and with least minimum pollution (within national and international standards). Must be

environmentally healthy and acceptable with international standards. Should not be with water scrubbers. Ash contents

after burning should be 3-4%.

Please incorporate this alarm as it is a requirement.

3. In addition to the above the following instruments may also be required.

A carbon monoxide and/or oxygen meter/recorder

A smoke density meter/recorder

A gas flow meter/recorder

A solid particulate meter/recorder

Any other instrument or measurement that may be considered necessary–none

8     Location / Siting 1.    Must be sited in accordance with the relevant local municipal authority

planning scheme, the topography of the area and be compatible with premises in the neighborhood,

2. Must be housed in a suitably ventilated room.

9     Emission Limits  1.    Combustion efficiency:

Combustion efficiency (CE) shall be at least 99.00%

The Combustion efficiency is computed as follows;

C.E=                % CO2           x 100

% CO2 + CO

2. We are interested to work on Medical Incinerators in our country and looking for a company offering good

quality with reasonable prices, Initially we are interested for incinerator with a burning rate of 30 – 50 Kg/hour.The

temperature of the primary chamber shall be 800 ± 50o C

3. The secondary chamber gas residence time shall be at least 1 (one) second at 1050 ± 50o C, with 3% Oxygen in

the stack gas.

4     Opacity of the smoke must not exceed 20% Viewed from 50 meters with naked eyes

5. All the emission to the air other than steam or water vapour must be odourless and free from mist, fume and

droplets.

About Hiclover Medical Enviromental

HICLOVER, Nanjing Clover Medical Technology Co.,Ltd, supply system solutions for medical environmental protection, animal and pet cremation engineering, other municipal solid waste incineration project.
We supply single combustion chamber, double combustion chambers, three combustion chambers and multi-combustion chambers waste incinerators for laboratory, clinic, hospital, medical center, hygiene clinical waste destruction with medical disposable, biological waste, medical plastic waste, hazardous waste, red bag waste, needle disposal, gauze and bandages, sealed sharp containers, pathological waste, trace-chemotherapeutic wastes, etc.

Our range of incinerators cater for small to large scale animal cremation related businesses, such as poultry farms, cattle farms, sheep farms, pig farms, stables, kennels, testing laboratory, catteries, pet crematoriums.

The incinerator burn waste in primary combustion chamber and burn the smoke from primary combustion chamber again to make sure environmentally friendly with no black smoke, smelless, reduce pathogenic bacteria infection.
System solutions for medical waste environmental, including waste incineration, smoke emission treatment, high-temperature sterilization, ultraviolet sterilization lamp, waste shredder, needle destroyer, medical waste package, sharp containers, etc.

The pet cremation equipment humanized design with movable platform, small space covers for modern pet cremation business owner all over the world.
The containerized mobile incinerator mounted in ISO container before leave factory, pre-installation, no incineration house build construction, movable by truck and ultraviolet lamp sterilization inside.
HICLOVER is growing brand for environmental protection field, and market share with most of Africa, Middle East, Southeast Asia countries and part of North America, Europe territory. We a re trusted partner for governmental organizations, non-profit organizations, international contractors, logistics organizations, military, pet cremation business owners, etc. We have export experience more than 40 countries, including war zone like Iraq, Afghanistan, Somalia, South Sudan.

We are china incinerator manufacturer, contractor and exporter. Manufacturer make reasonable price for incinerator customer, supply medical incinerator, hospital incinerator, animal incinerators, hog incinerators, pet cremation equipment, small incinerator, pet incinerator, animal incinerator, portable incinerator, small animal incinerator, infectious waste pyrolysis machine, laboratory incinerator. HICLOVER help customer reduce purchase budget, custom made function, quality products and friendly service.

incinerator suppliers

1.Solidifier (Fluid waste disposal product)

Liquid Waste Solidifier for Water Based

Special Features of Solidifier

2lb bottle

Effectively solidifies potentially serious infectious waste quickly

Quickly8 penetrates to solidify blood and body fluid to convert Gels in seconds

No shaking required

Retrains solidity to prevent spills and leaks for safe and easy bagging and easy transport to disposal.

Concentrated formula: one ounce solidifies 1000cc of liquid

Dissolvable pouches gel 500 cc an 1000 cc, eliminating plastic bottle waste

Chlorine-free for non-toxic incineration

Fuel Oil or Gas

Capacity (Cubic Mtr) 0.47

Ave Capacity 45 kg per hour

Fuel Consumption (ltrs / hr) 11

EXTERNAL DIMENSIONS

Length (mm) 2000

Width (mm) 1220

Height Incl. Flue (mm) 6100

Door Opening (mm) 610 x 710

INTERNAL DIMENSIONS

Length (mm) 1200

Width (mm) 620

Height (mm) 660

Operation

OPERATION

Min. Operating Temperature 950

Max. Operating Temperature 1320

Residency Time in Second Chamber .5 sec

Weight (Kgs) 1950

pet crematory equipment

Physical /Chemical Characteristics:

Boiling Point (_F) :  N/A                     Appearance & Odor: Off white, odorless

Vapor Pressure(mm Hg): N/A        Volatiles (% by weight): N/A

Vapor Density (Air =1) :N/A         Evaporation Rate )n-butylacetate=1): N/A

HMIS Classification :

Health:1; Flammability: 1

Reactivity Data:

Stability: Stable

Conditions to Avoid: None Know

Incompatibility (materials to avoid: Strong oxidizers

Hazardous Decomposition: Thermal Decomposition: CO, CO2 and NOx  hydrocarbons

Hazardous polymerization: will not occur

Handling and storage precautions:

Store in cool, dry place Avoid breathing powder. Avoid eye and skin contact.  Store in tightly closed container. 80% of

shelf life should present at the time supply.

A1) Technical Specification: Incinerators

All types of diesel fired incinerators suitable for HCW may be offered as long as they can safely treat medical

waste. The equipment should be compliant with all requirements for installation in Kenya. All components for

installation must be included.

Technical evaluation will consider the entire system including the treatment plant. It will be the responsibility of

the Bidder to supply a full system, including all necessary secondary systems and/or additional equipment.

The calorific value of the generated waste from the healthcare facilities differs from 5,000 kJ/kg (e.g. pathological

waste) up to 40,000 kJ/kg (filled sharp boxes) with an expected average heating value of waste of 14,000 kJ/kg.

An approved plant must have four distinct sections that demonstrate three principles of Turbulence, Residence Time and

Temperature inbuilt in the plant design .The regulated sections may include but not limited to:

Overall plant layout

Feed chamber/ charging

Primary Combustion Chamber

Secondary Combustion Chamber

Particulate Scrubbers

Acid Gas Scrubbers

The stack/ chimney

incinerators 150 kg per hour

combustion chamber and one

flue gas afterburning chamber. The incinerator must be able to meet the following parameters:

1.Treatment capacity of: a) 50 kg waste per hour.

2.Temperature: Main combustion chamber up to 850°C, and in the second chamber > = 1,100 °C

3.Retention Time: 2 seconds in the second chamber

The furnace (including secondary combustion chambers etc.) dimensions must be large enough to provide for an effective

combination of gas residence time and temperature such that combustion reactions may approach completion and result in

low and stable CO and VOC emissions.

In order to avoid the generation toxic gases, the incinerator must combine the gasification or pyrolysis stage with a

subsequent combustion stage with flue-gas treatment that provides for operational emission levels to air within the

associated emission ranges specified in the standards

for incinerators which are described in the ENVIRONMENTAL MANAGEMENT AND CO-ORDINATION (WASTE MANAGEMENT) REGULATIONS

2006 of the Republic of Kenya.

Where grates are used, it is preferred that the design incorporates sufficient cooling of the grate such that it

permits the variation of the primary air supply for the main purpose of combustion control, rather than for the cooling

of the grate itself. Documents to be provided by the Bidder in response to this RFP.

 Complete information on how the equipment matches the Technical Specification. Include an additional statement with

a calculation and description of all cost related to the normal running of the plant over a 12 month period.

Full description of the system(s) being proposed.

Lay out drawing with all main equipments, flue gas ductwork and main piping.

Piping and Instrumentation Diagram.

Operation manual in the English language.

Material lists.

Implementation plan and training concept.

Installation and maintenance plan.

Detailed list related to wear and spare part package for 2500 h operation (items which will be included in the

contract). The list should be detailed enough to allow PATH to carry out a cost estimation.

Other information such as process description, brochures, etc. should be only added if the information will be useful

for the technical evaluation of the treatment process.

incinerators 300 kg per hour

Manual autoclave with vertical loading; gravity displacement type with possibility for Vacuum.

Capacity:      Up to 12 kg/h

Chamber size:      >150 liters

Material:       Stainless steel

Temperature:       134 °C

Further information:

Minimum autoclave chamber size shall be 150 liters and shall have a usable volume (loading basket) of 100 liters.

Shall work according to gravity air displacement principle.

The vacuum system shall be of a thermal shock type.

The pressure vessels should be pressure tight, the rising of the pressure (at a start pressure of below 80 mbar)

shall be lower than 1 mbar/min.

With in-build electrical heating elements for steam generation (heating elements > 4000 Kw).

Chamber and door shall be made from high quality stainless steel (e.g. AISI 3161).

Chamber in vertical position, it shall allow an easy loading/unloading of the loading basket.

2 Baskets of >100 l for the loading and unloading of waste shall be included. The baskets shall be designed for the

usage of non-heat resistant waste bags, a system for the collection and controlled release of free liquids and

condensate from the waste shall be incorporated.

The temperature measured at the reference measurement point of the treatment chamber shall not be lower than 105°C

(TDes 0+4). The treatment time shall be ≥30 minutes at 105°C, ≥20 minutes with a temperature used of ≥121°C (TDes

0+4) and ≥10 minutes with a treatment temperature of ≥ 134.

The steering of the treatment process should be semi-automatically as well as manual.

The Treatment Equipment shall be equipped with at least the following instruments:

o   treatment chamber temperature indicating instrument

otreatment chamber pressure indicating instrument

For the treatment of the outgoing air, a HEPA filter in combination with a condensation system should be used.

The filter shall be built in a way that a disinfection of the filter shall be possible in a built-in condition.

The filters must be heat resistant, steam resistant, hydrophobic and pressure resistant for the pressure difference.

Cooling down phase after treatment should be existent; the temperature of the waste should be not higher than 80°C

after finishing the cooling down process.

The pressure vessel should be equipped with a heat insulation, the maximum outer surface temperature should be < 50°

20kgs per hour incinerator

The manufacturer must provide a declaration that the pressure vessel is manufactured in accordance with relevant

guidelines for pressure equipment.

Following accompanying documents should be supplied with the treatment system and shall be available at the Site:

1.Operation instructions (including process description).

2.Loading and maintenance procedures.

3.Short-form of operation and loading procedures.

4.P&I diagram, circuit plan, technical data sheet, pressure vessel certificate.

A3) Technical Specification: Medical Waste Shredder

Capacity: Should be 150 liters.

Should be capable to shred up to 100 liters of the treated waste.

The technology should be capable to treat hospital waste including sharps like needles, lancets, scalpels and soft

materials like bandages.

Must render the waste to be unrecognizable.

Following accompanying documents must be supplied with the treatment system and shall be available at the Site:

1.Operation instructions (including process description.

2.Loading and maintenance procedures.

3.Short-form of operation and loading procedures.

1. Deliverables:

The Bidder will be responsible to deliver and install all the parts to be supplied with the equipments at the waste

handling area at destination hospital(s) in the Republic of Kenya. The Bidder shall deliver a time schedule prior to

and during the complete construction and assembling period.

ACCOMPANYING DOCUMENTS

The following accompanying documents must be supplied with EACH of the delivered incinerators:

1.Two (2) full operation instruction manuals (including process description; loading and maintenance procedures) in the

English language.

2.Three (3) short-form documents of operation and loading procedures (English Language).

3.Circuit and pneumatic plan, technical data sheet, pressure vessel certificate (English Language).

4.One set of safety regulations (English language).

5.Set of necessary safety signs.

All documents must also be provided on CD (one CD per treatment system) in digital form in the English language.

china medical waste incinerator

Incinerate: medical waste and general waste

Capacity to burn waste: 400 — 500 kg/hr

Fuel: Diesel

Fuel Consumption: 10 litres/hr maximum

Incineration temperature: 950 – 1300 °c

Casing: thick (min 5 mm) Stainless steel casing and fully

insulated to withstand sea humidity

Voltage: 220/240 V or 380/415V

Frequency: 50 Hz

Feeding: automatic

Ash 1 leftovers removal: Automatic

Fuel gas filtration system: Yes

Warranty: 12 months

Staff training: Operator & Maintenance staff

Operation and service manuals: 3 sets each

• With Chassis to be Mounted in truck/lorry

• May have a primary and secondary combustion chamber

• Must have a dilution chamber

• Capacity: 100 Kgs per hour

• Power Source: Diesel or Natural Gas or Liquified Natural Gas

• General wastes produced on a daily basis include paper, plastic, organic materials, boxes, plastic

containers, leaves, etc;

1.The double chamber incinerator shall preferably be designed. Air supply in the primary and secondary chamber shall be

regulated between 30%-80% and 170%-120% of stoichiometric amount respectively. Flow meter/suitable flow measurement

device shall be provided on the primary and secondary air ducting. The combustion air shall be supplied through a

separate forced draft fan accounting for the air supplied through burners. Provision shall be made in the primary

chamber to measure the water column pressure.

2. Capacity : up to 4000kg burn not less than 500 kg /hr
3. The refractory lining of the chamber shall be strong enough to sustain minimum temperature of 1000dc in the primary

chamber and 1200 dc in the secondary chamber. The refractory& insulation bricks shall have minimum 115mm thickness each

& conform to IS:8-1983 & IS:2042-1972 respectively.

4. The incinerator shell shall be made of SS/MS plate of adequate thickness (minimum 5mm) and painted externally with

heat resistant aluminium paint suitable to withstand temp.of 250 dc with proper surface preparation. Refractory lining

of the hot duct shall be done with refractory castable (minimum 45mm thick)& insulation castable(minimum 80mm thick).

Ceramic wool shall be used at hot duct flanges & expansion joints.

5.There shall be a separate burner each for the primary & secondary chamber. The heat input capacity of each burner

shall be sufficient to raise the temp.in the primary & secondary chambers as 800+/- 50dc and 1050+/-50dc respectively

within maximum of 60 minutes prior to waste charging. The burners shall have automatic switching off/on control to

avoid the fluctuations of temperatures beyond the required temp.range.

6.Incinerator shall have graphic or computer recording device which shall automatically and continuously monitor and

record dates, time of day, batch sequential number,Co,Co2,O2 in gaseous emission shall also be  measured daily.

6mm plate steel sheel construction

11cm 1400 o C Refractory L iner

Temperature controlled Burners

Secondary combustion Burners

Interlock Switch on Load Doors

Separate Ash Door

One Second secondary Residence @ 1000 o C

400 ° C Silicone Based Paint Finish.

Alloy Temperature Sensor

Factory wired and tested

Capacity-20 kg / hr

Primary Chamber-1607 L

Hearth Area-1:36 sq. m

Secondary Chamber-694 L

Primary Burner (oil)-420,000 btu

Secondary Burner (oil)-900,000 btu

secondary Combustion-1/6 hp

Exhaust Stack-46cm x 6m

Electrical Service-220/50

Weight System-5.700 kg

Dimension “D”-152cm

Load Port Height- 60x 60 cm

Ash Port Height -36 x 36 cm

7. Structural design of the chimney/stack shall be as per IS:6533-1989.The chimney/stack shall be lined from inside

with minimum of 3mm thick natural hard rubber suitable for the duty conditions and shall also conform to IS:4682 part

I-1968 to avoid corrosion to oxygen and acids in the flue gas.

INCINERATEUR DE DECHETS HOSPITALIER

Required Specifications for Mobile Incinerator

Operational Capabilities

• PROCESS MINIMUM 1 TON PER DAY
• OPERATED WITH LIMITED TRAINING
• REGULAR MAINTENANCE CAN BE COMPLETED WITH LIMITED TRAINING
• COMPLIES WITH EURO / OR US-EPA EMISSION STANDARDS
• ABILITY TO BURN WASTE LUBRICANTS (POL)
• HANDLE ORGANIC SOLIDS (TO INCLUDE RMW)
• DEPLOYABLE
• MOBILE
• 24 HRS OF CONTINUOUS USE
• AUTOMATIC LOADING SYSTEM
• AUTOMATED ASH REMOVAL SYSTEM
• GAS SCRUBBING SYSTEM
• 95% REDUCTION OF SOLID WASTE
• OPERATE OFF DIESEL OR FUEL OIL
• CAPABLE OF BURNING 4 UNITS OF WASTE PER UNIT OF FUEL
• ABLE TO TAKE ALL COMBUSTIBLE WASTE TO INCLUDE: PAPER, PLASTIC, CARDBOARD, FOOD, USED OILS, SLUDGE, OILY RAGS, WOOD
• NO PRE-TREATMENT OF WASTE REQUIRED
• FIVE (5) YEAR COMPONENT WARRANTY

Technical Specifications

• OPERATION MANUAL AND TRAINING MANUAL FOR EACH INCINERATOR
• SET UP AND INSTALLATION INSTRUCTION MANUALS
• BLUE PRINT/ SCHEMATIC PROVIDED THAT OUTLINES THE PHYSICAL DIMENSIONS OF THE 20’ INCINERATORS
• INCINERATORS COMPOSED WITH HEAVY DUTY WELDED CONSTRUCTION
• OPERATED AND TRANSPORTED IN 20’ INCINERATORS (CONTAINERS)
• FULL FRONT AND OPTIONAL REAR ACCESS
• PRIMARY / SECONDARY TEMPERATURE CONTROLS

small capacity incinerators

Capacité destructive de 55 Kg/h jour de déchets hospitaliers  avec un p?.c. i jusqu’à 3.200 Kcal/Kg

1)Type 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)Volume chambre de combustion                                                                     1,65 m3

7)Volume chambre postcombustion                                                                   2.1 m3

8)Temps  transit des fumées en post combustion /sec.                                       <2

9)Température minimale  en postcombustion                                                     1.100° C

10)Teneur d’oxygène libre en postcombustion                                                     6%

11)Attribution refuse confectionné en sachets                                                     HDPE

12)Dispositif de chargement?: hydraulique?; capacité de charge                           0.5 m3

13)Combustible 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 charger le four en toute sécurité même durant son  fonctionnement et

aussi assurer la puissance destructive 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 combustion 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 central  hydraulique pour 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 post combustion est revêtue de réfractaire

?Installation des bruleurs

?Installation  du système  de distribution de l’air comburant

?Installation 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 type à une flamme à l’air soufflé, alimenté par 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 combustion comprend?:

?Ventilateur centrifuge

?Canalisations de distribution air

?Systéme de distribution d’air à 2 canaux

?Soupape de régulation de l’air motorisé selon les phases de cycle de fonctionnement et de la température