Small scale clinical incinerator

include automated stop/start programmed timer controller, fire failure equipment and ignition collapse equipment to

close off the fuel supply in the event of malfunction.

 

outside the combustion chamber. The burners will be mounted so that waste can’t block the fire ports.

  1. Each burner shall be designed and mounted for ease of access and so that they may be fully maintained from

SL No   Description   Fill the bidder up

Lot-A Specification

1     Hydroclave for Medical waste Treatment Plant

 

General Prerequisites

—   Liquids: Blood, body fluids .

  • The processor must be approved to sterilize & treat the following types of medical waste:

—   Blood bags & tubing, gloves, Gowns, curtains, etc..

— Cultures, stocks and glassware

 

*  The chip must comply with a documented efficacy level of 6 log10 reduction in spore survival (99,9999%) of this

Bacillus Stearothermophilus

* The chip should reduce the amount of the waste by 60% to 80 percent through total dehydration and sterilization of

the waste

* The chip must have ZERO harmful emission amount and also meet or exceed all standards required by the EU.

 

The whole waste treatment system should be provided as a complete unit comprising of following equipment and

ancillaries-

(A) The sterilization processing unit

(B) Steam Boiler

(C) Tub washer

(D) Heavy duty outside shredder

(E) Conveyer belt — according to Manufacturer’s Recommendations

(F) Bin Lift/Tipper

(G) Spore tester

 

 

(A) Features and Specifications of this Sterilization Processor unit:

Technical specification of the chip.

*  Steam autoclave in conjunction with a heavy duty Fragmenting System inside the vessel/ room

*  The boat has to be of Double Chamber

* Ability (kg/load): minimal 2001cg/batch/cycle

*  Volume of 140-190 liters of majority per cycle

*  Average Cycle time: 60 minutes

*  Operating temperature: 121°C into 135°C

*  Operating pressure: 1.1 Bar to 2.4 Bar

* Sterilization time: approx. half an hour at 121°C/1.1 Bar or approx 15 minutes in 132°C/2.5 Bar to attain 6log10

sterility

* Fragmentation inside the room: Heavy duty with maximum dimensions of final product <20 cm.

*  Volume reduction of this waste after processing: by 60-80percent through total waste dehydration including fluid

content of this waste

*  All actions subsequent to loading for sterilization, fragmentation of product is to be happened at precisely the exact same chamber/vessel

*  Pre or Post-air evacuation should not be required or utilized

*  Exhaust air quality: Does not need any venting for odor management

* Operating System: Fully automated with manual over-ride. (On board PLC capable of creating written report together with

cycle time, cumulated time at > 121°C

* The choice should be there for Internet connectivity by telephone, cable or

* Boiler: if not call for pre-heated water

* Electric requirements: 220Vac, 1ph or 400vac 3ph to match client demands

* Noise level at full performance: < 80 dB

Working Principle of this chip:

*  The chip should utilize steam technologies along With an mechanical fragmentor (grinder) to sterilize

medical waste, thus producing the  residual waste safe for disposal in landfills.

*  The sterilization boat has to be a double walled (jacketed) cylindrical vessel

* Pre-shredding of infectious waste should not be approved, the fragmentation should happen security inside the scaled vessel

continuously.

* The sterilization vessel/chamber has to be fitted with a motor driven shaft to which a heavy duty grinder(fragmenting

arm)  is attached inside the container to produce all unrecognizable size of this waste product.

* The Fragmenting are must rotate to agitate waste always through the heating and sterilization cycle to

ensure that the fragmented q agitated wastes (including sharps and fluids ) are vulnerable evenly to sterilization

temperature and strain.

* Steam heat ought to be applied to the jacket only, while the agitated waste absorbs the heat from the jacket and makes

its own steam out of its own moisture content.

* Should not need for special autoclave bags — easy bag or box ought to be viable

* MUST not demand for co c-treatment of the waste.

* Liquids and gases MUST stay locked inside the boat until sterilization is total – nothing ought to be vacuumed

or pumped out from its infected state.

* Jacket steals heat to dehydrate the waste completely regardless of its original water content.

* All the hot condensate from the jacket is recycled, making the chip very economical to operate

* Should not need for special autoclave bags — simple bag or box should be workable

* MUST not need for hi c-treatment of the waste.

* Liquids and gases MUST remain locked inside the vessel until sterilization is complete – nothing should be vacuumed

or pumped out in its infected state.

* Jacket steals heat to dehydrate the waste completely regardless of its original water content.

* All the hot condensate from the jacket is recycled, making the processor very economical to operate