Tag: Waste Incinerators

red bag waste incinerator

“Waste chamber

Chamber capacity 300 kg

Chamber volume .54m3

Chamber size (outside) Width: 91cm, Height: 86cm Length:

152cm

Door opening 66 x 76 cm

Height to door 84 cm

Height to top of stack 5.4 m

Suggested slab size (L x W x Thickness) 1.8

m x 2.4 m x 10 cm

Burn rate: Approximately 45 kg/hr.

Stack:

2′-14″” dia. (36 cm), 14 gauge (1.90 mm) aluminized steel,

refractory lined

8′-12″” dia. (30.5 cm), 16 gauge (1.52″

“Burners Diesel

Operation Manual timer

Electrical service Standard – 115 volt, 60 HZ, 20 amp

General Description:

Primary

Chamber: Heavy-duty steel casing

High quality refractory lining and insulation

Large full size top load door and liquid

retention sill

1 x diesel oil fired ignition burners operated on/off

Ash removal door

Chimney: Heavy-duty stainless steel

casing

1.5m length

0.6m refractory lined stack

Control Panel: Control of 1 burner

Timer control 0-12 hours

Integral fan

timer control

Temperature monitoring

Automatic Control

Cycle time set up

Ancillaries: Operating and maintenance manuals

Spares list

Ash Rake

Containerization: 20 foot shipping container with incinerator fitted

500 litre fuel tank”

medi burn 30 contraband incinerator

air retention for at least 2 seconds at a temperature of less than 850C, the combustion

In order to achieve the proper effect.

? must be a two-chamber incinerators, primary and secondary

Fuel stoves

? The waste products to reduce the initial volume

Possible to minimize (approximately 5% sterile ash

Form).

Purpose: Top Loader incinerator of general, medical and dry waste to comply with the requirements of the Air Quality

Act, 2004 (Act No 39 of 2004)

 

1     Design standard  Retort type, multiple

2     Description of chimney     Top mounted, self supporting, unlined

3     Stack height from base     At least 11 meter (depends on height above sea level)

4     Incineration performance Capacity       750 kg/hour

5    Temperature Primary  Minimum 850 degree Celsius

6     Temperature Secondary    Minimum 1000 degree Celsius

7     Dimensions (minimum)(cm)

Length

Width

Height

210

180

210

8     Loading door opening (m)       200

9     Description of grate/hearth      Full

10   Primary chamber volume (minimum)     1.05 cubic meters

11   Tools included    Poker, hoe, rake

12   Materials of construction (minimum)

Case

Bracing

Hearth

 

 

 

Ashing door

Loading door

 

?     Chamber Volume: 0.1m3

?     Load method: Front

?     Fuel options: Diesel  or Natural gas

?     Typical fuel: Liquid propane gas: 6 liters per hour

?     Consumption: Natural gas: 6 liters per hour

medical small incinerator

Dimensions: World standard: 0.83m(I) x 1.0m(w) x 1.4m(h)

Burning efficiency: >98% china double chamber incinerator

Features:

?     Waste type and burn rate: Designed specifically for use by poultry

farmers, game-keepers and for pet cremation. The incinerator will burn

up to 50 kg of waste per hour.

?     Construction: Mild steel welded fabrication consisting of sheet

steel and structural section supports.

?     Lining: Monolithic high grade refractory concrete with high grade

insulation backing. Typical hot face temperature lining up to 1300o C

?     Burner: LPG oil/natural gas/bio gas fire/ Diesel

?     Loading- Ash removal: Lower railed ash door for easy ash removal.

?     Exterior finish: Multi-coat high quality, high-temperature aluminum

enamel  top coat paint, finished in silver.

Control: Manual temperature display

 

 

 

Refractory walls and roof

5 mm mild steel

Heavy angle and channel

1550 degree Celsius castable general purpose high strength, high abrasion resistant monolithic refract concrete

High grade cast iron

5 mm mild steel lined with 1550 degree Celsius castable general prupose high strength, high abrasion resistant

monolithic refractory concrete

1550 degree Celsius castable general prupose high strength, high abrasion resistant monolithic refractory concrete

 

13   Refractory concrete – alumina content  At least 48%

14   Refractory thickness  Not thinner than 102 mm but in primary chamber minimum 152 mm and 125 mm thick

15   Insulation to walls      1000 degree castable insulation

16   Chimney stack

Chimney

Diameter of chimney at top

Weight of stack

5 mm mild steel

Minimum 430 mm

Approx 500 kg

17   Controls

Barometer damper

Door operated draught limiter

Air supply: built in forced draught heated air primary and secondary (intensifier)

Control panel includes circuit breakers, main switch, timer, 2 set point pyrometer and one set point pyrometer,

thermometer

hospital incinerator manufacturer

Up to 600kgs per ten-hour day of Type IV pathological waste or red bag waste rated at 2200 BTU’s per kg, based on batch

loading twice daily.
Incinerator, 20 kg/hr  Burn Capacity (min. 1200 kgs. Waste Feed Capacity per day) (4-6 hours operations) (Power Supply

380V, 50Hz, 3Ph)
Capacity: 30 kg/hr.

Number item: 01 unit

Could you please send us cataloge detail for Pet Cremation of dogs, cats.

– Please services require: General about Cremation system which is suitable
for your products, technical transfer and training for operators.
Containerized Incinerators Operational Capabilities • PROCESS 1+ TONS / 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 PALLETS. • NO PRE-TREATMENT OF WASTE

REQUIRED • VENDOR REPAIR OFFERED AT POINT OF SHIPMENT • FIVE (5) YEAR COMPONENT WARRANTY FROM DATE OF ACCEPTANCE

Technical Specifications • OPERATION MANUAL AND TRAINING MANUAL FOR EACH INCINERATOR • SET UP AND INSTALLATION

INSTRUCTION MANUALS • BLUE PRINT/ SCHEMATIC PROVIDED THAT OUTLINES THE PHY SICAL 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 • COMBUSTION AIR DAMPER • VAPOR TIGHT

LIGHT FIXTURES & 120V OUTLET • OUTDOOR PLU-IN RECEPTABLE FOR ELECTRICAL SOURCE • OUTDOOR FUEL TRAIN WITH SHUT-OFF • LOAD

RAMP • SKID – MOUNTED FUEL TANK • ELECTRICAL AND FUEL OIL CONNECTORS • CONTROL PANEL AND AIR LOUVER • AIR MANIFOLD

ACCESS AND UTILITY BULKHEAD • GALVANIZED SHIPPING COVERS • FUEL, WATER AND OIL CONNECTOR LINES • PRIMARY AND SECONDARY

BURNERS • FULLY INTEGRATED PLC CONTROL SYSTEM • FACTORY TESTED, WIRED PRIOR TO SHIPMENT • MOBILITY: NO HEAVY LIFT

EQUIPMENT NEEDED FOR SET UP OR TEAR DOWN • HEIGHT RESTRICTED TO THE HIGHEST POINT ON BASE OR UNDER 15FT TALL

medical waste heat value

18   Electrical supply required 3-phase

19   Auxiliary fuel      Diesel or paraffin

20   Primary burner

21 Secondary (after) burner

22 Type of burners   Automatic pressure jet

23   Output Primary   Approx 600 000 kJ/hour

24   Output Secondary      Approx 750 000kJ/hour

25 Emission control

Heated refractory screen

Low velocity grit arrester screen     Built in

26   Paint case     400 degree Celsius resisting black

27   Paint stack    400 degree Celsius resisting aluminium

28 Temperature of case   Not exceeding 90 degree Celsius

29   Intensifier

30   Automatic fan control

31   GRE factor  1.5

32   Noise (primary)

Noise (secondary)      72 dBA

33   Transport and rigging of plant including crane hire    76 dBA

34   Certificate of analysis as per Annexure 1

35   Commissioning of incinerator

36   Guarantee     3 years

37   Training of operators

38   Availability of local distributor for spare sparts

 

ANNEXURE 1

 

Common Name   Chemical symbol Compliance: mg/Nm3 under normal conditions of 10% O2, 273 Kelvin and 101.3 kPa

Particulate matter              10

Carbon monoxide      CO 50

Sulphur dioxide  SO2       50

Oxides of nitrogen     NOx expressed as NO2    200

Hydrogen chloride     HCl       10

Hydrogen fluoride     HF  1

Sum of Lead, arsenic, antimony, chromium, cobalt, copper, manganese, nickel, vanadium     Pb+, As+, Sb+, Cr+, Co+, Cu+,

Mn+, Ni+, V       0.5

Mercury Hg  0.05

Cadmium Thallium    Cd+Ti    0.05

Total organic compounds  TOC      10

Ammonia     NH3      10

Compliance: ng I TEQ/Nm3 under normal conditions of 10% O2, 273 Kelvin and 101.3 kPa

Dioxins and furans     PCDD/PCDF      0.1

INCINERATOR DIESEL DRIVEN


BURNER, DIESEL DRIVEN
waste kind: MEDICAL CARE WASTE
Waste calorific well worth: 4000KCAL/KG
Dampness Content: 10-25%.
Small Capacity: 50Kg/Hour set tons.
2nd Chamber: 2 Secs @ 850degrees C.
The major burning chamber have to ensure very little leave temperature degree is not less than 850 levels C.

INSULATION.
Calcium Silicate.
Limiting Regular solution limit 1000 levels C.
Thickness 25mm

THROUGHPUT.
50kg/hour at a small calorific well worth of 4,000 kcal/kg and additionally a regular mass thickness of 120kg/MCubed for standard waste and 160kg/MCubed for healthcare waste.


medical incinerators in china

Would plant operations be operational on a basis of 24 hours per day, 7 days a week, all year long except for

regular and preventive maintenance periods?

 

  1. How many hours per year could your process be operational?

 

  1. What would be your approach for larger projects aiming to valorize 1 000 tons per day?

 

  1. How much electricity could be produced using you technology based on a 1 000 tons per day installation to

valorize urban wastes having a humidity factor of say 50% and a calorific value in the order of 2.5 MW/ton of wastes at

the entrance of the waste-to-energy station (i.e. before pre-treatment of wastes)? What volume and characteristics of

ashes would be produced from such solid wastes valorization?

 

  1. What would be the capital cost necessary to meet the requirement to valorize 1 000 tons per day of urban

wastes?

 

  1. What would be the selling price of electricity per kWhour to meet targeted profitability?

 

  1. Could you valorize sludge volumes coming from sewage treatment plants and if so at what maximum humidity

factor could you operate the station at?

 

  1. Considering that your process is an incineration process, oxygen will be required, therefore there will be

some air emissions from the process, how can air emissions be controlled to meet environmental norms?

 

  1. What would be your implication in any project : would you prepare process engineering, electricity production

engineering, engineering for site work, buildings, electrical hook up to existing electrical network? Do you have

complete construction capabilities or would you require a local partner to carry out which portion of construction

work? Would you also operate the station or use a local partner to operate the station?

 

  1. Do you also have the financing capacity for the design, construction and operation of any project? In Algeria,

financing would most likely not be required but this could be the case in other countries where Gestech International

is presently involved in.

incinerators from china

An operating test should be conducted to ensure that all of the control components have been properly installed and

that all parts of the incinerator, including controls and safety devices, are in satisfactory operating condition. The

requirements for prepurge and time between restarts should be verified. The test should include but not limited to the

following;

?     Capacity tests of incinerator

?     Flame safeguard. The operation of the flame safeguard system should be verified by causing flame and  ignition

failures.  Operation of  the audible alarm (where applicable) and visible indicator should be verified. The shutdown

times should be verified.

?     Testing of all shutdowns to the system.

?     Interlocks. All interlocks provided should be tested for proper operation as specified by the unit

manufacturer.

?     Combustion controls. The combustion controls should be stable and operate smoothly.

?     Programming       controls.       Programming       controls should   be   verified  as

 

controlling and cycling the unit in the intended manner. Proper prepurge, ignition, postpurge, and modulation should be

verified. A stopwatch should be used for verifying intervals of time.

?     Fuel supply controls. The satisfactory operation of the fuel control solenoid valves for all conditions of

operation and shutdown should be verified.

?     Low voltage test. A low voltage test should be conducted on the incinerator unit to satisfactorily demonstrate

that the fuel supply to the burners will be automatically shut off before an incinerator malfunction results from the

reduced voltage.

?     Switches. All switches should be tested to verify proper operation. Emission tests. The exhaust of the

incinerator shall be tested to comply with local emission limits given in annex 1. Note that this test has to be

witnessed by an independent body acceptable by the CEB. The test shall include measurement of parameters given in annex

pet cremation incinerators

The successful bidder shall deliver the incinerator skid in a container. The container will be emptied by CEB and

returned to the successful bidder / or to its shipping agent. A containerized solution is also acceptable.

  • Electrically operated 220 volt ( 60 Cycle – 1 phaze )
  • Able to complete burning material that turns to ashes all the component elements of the carbon or metal in the

incinerator with a closed air environment ,  <98%

  • Incinerator must maintain the high temperature in the combustion chamber to ensure complete combustion of the

waste , but not to the degree that leads to the formation of a cluster similar to those resulting

 

 

2.9  Interfacing with existing Sludge System

 

– Incineration of industrial wastes, including pesticides and PCBs;

 

– Ability to incineration 300-500 kg / hour.

 

– Complete unit with gas washing system.

 

The incinerator will be connected to the existing sludge handling system. The incinerator sludge tank will be filled

with sludge by means of a sludge circulating pump on the existing system. The sludge tank shall be equipped with

control valves that will open and close according to the level in the sludge tank.

 

 

For the DO tank, its filling line will be connected to the nearest DO supply piping. The DO tank shall be equipped with

a control valve for automatic filling of the tank and level switches that will trigger automatic opening / closing.

 

 

2.10       Supervision of Installation, Testing & Commissioning

 

 

The successful bidder shall also supply its rates for the supervision of installation and testing and commissioning of

the incinerator set. The rates shall not include accommodation charges. The following shall be covered under the

supervision of installation, testing and commissioning charges;

incineration combustion chamber

Supervision of installation of the new incinerator set shall be provided by the successful Bidder while labour

and heavy duty equipment shall be provided by CEB.

 

 

?     The successful Bidder shall submit to CEB, prior to shipment of the incinerator set, its procedures for the

installation of the incinerator and exhaust chimney. This should include all mechanical, civil and electrical drawings

and detailed methodology for successful installation of the incinerator set. It shall also include preliminary tests

that have to be carried on the incinerator unit. .

 

?     The successful Bidder shall provide all necessary test equipment ( test kit for emission measurements) for

carrying out of tests during testing & commissioning of  the incinerator set. . The successful Bidder shall be

responsible for the satisfactory completion of all tests and remedial action in case of any anomaly. Corrective action

by the successful bidder shall be prompt and to the satisfaction of the CEB Engineer.

 

?     Scheduled date for commencement of supervision of installation, testing & commissioning works shall be mutually

agreed between the successful Bidder and CEB

1 Burning Capacity 200 kg/hr

 

2 Chamber Dual

 

3 Fuel Source type Gas

 

4 Optional fuel source Diesel ( Rate to be quoted separately)

 

5 Temperature ? Range:

 

Min: 900

 

Max: 1500

 

Must have

 

? Temperature Monitoring/ Thermostat Control/

 

Constant Run Fan

Hospital waste incinerator

Capacity: 50 Kg / Hour

Brand new complete working

Burners: Diesel (Preferably dual gas / diesel)

Primary and secondary chamber

Environment friendly

Manual loading and unloading

WASTE INCINERATOR

 

–          150 KG/HR

 

–          Compliant with EU rules, Directive 2000/76/EC

 

–          Fuel type: Diesel

 

–          Easy management and maintenance

 

–          Temperatures:

 

850 deg C for municipal waste

 

1000 deg C for medical waste

 

1100 deg C for dangerous waste containing halogenated organic substances with content of chlorine or its compounds.