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animal incinerator for sale
The incinerator shall be provided with a range of interconnecting ductwork between the thermal reactor outlet
and the inlet of the chimney. This ductwork shall consist of refractory lined tubes and high temperature resistant
tubes made from rolled sheet steel of minimum 3mm thickness, welded along the length.
- The standard chimney shall be made of carbon steel plates of minimum 3mm thickness.
Cooling air inlet gap shall be provided at the end of the refractory lined tube on the standard chimney.
- The individual chimney sections shall have flanges on both sides.
- All sections shall be primed and sprayed with zinc dust enamel paint.
- Support wires shall be provided on chimney stacks.
- The following shall be located within ductwork run:-
- Mounting tubes for optical smoke density instrumentation.
- Flexible expansion compensator.
- A connection for a chrome/alum. Thermocouple, which is an integral part of the flue gas temperature
indictor/two stage alarm system.
2.5 ACCESS DOORS
- These shall be hinged from the front plate of the primary combustion chamber and shall comprise
1- A full width access/de-ashing door normally retained in the closed position by two handwheel clamps.
2- A smaller waste charging door hinged from and located in the main door. This door shall have a minimum of 500
- x 500 mm. aperture and be normally retained in the closed position by means of quick release latch.
- A viewing port, so constructed that the observation/protective glass is capable of being cleaned whilst the
incinerator is in operation, and located in the waste charging door, to allow the operator to safely observe the
progress of combustion.
- Each door shall be fabricated from mild steel and be internally lined to the same standards as the combustion
chambers.
2.6 BURNERS AND BURNER CONTROLS
- A single burner, suitable for operation on fuel oil shall be mounted on each combustion chamber.
Family Pet Crematory with Movable system & & & & Auto. Door & & Independent Placement
Incinerator Model A1500, Intro
This design is big-scale pet cremation tools for huge pets.
Model
A1500
Burning Rate
Average 50 kgs/hour
Feed Capability
Ordinary 150 kgs
Key Combustion Chamber
1500 Liters
Extra Burning Chamber
500 Litres
Mix Combustion Chamber
Yes
Smoke Filter Chamber
Yes
Feed Setting
Hand-operated
Voltage
220V/380V
Gas Kind
Diesel Oil/ All-natural Gas/LPG
Heater
Italy Original
Oil Consumption (Diesel Oil)
Normal 34 kg/hour
Gas Consumption (Gas)
Common 41 m3n/hour
Inner Measurements
150 x 100 x 96cm (key chamber)
Outdoors Measurements
240 x 170 x 380cm (without chimney)
Temperature Monitor
Yes
Oil Container Capability( if oil gas)
300 Litres
Door Opening
59 x 81cm
Smokeshaft Length
10.0 Meters
Smokeshaft Type
Stainless-steel
Tools Gross Weight
7500 kgs
Operation Technical Specifications
Main Chamber Temperature
800 ℃–– – – -1000 ℃
Second Chamber Temperature Level
1000 ℃ -1200 ℃
Residency Time
2.0 Sec.
Burning Efficiency
> 98%
Waste Lower Calorific Power
3000Kcal
Tel: +86-25-8461 0201
Website: www.hiclover.com
Email: [email protected]
Email: [email protected]
Getting a grip on our garbage
Nobody likes to be thought of as a garbage factory but — like it or not — that is what cities have always been and will continue to be, despite our sense of sophisticated entitlement. While only the most narrow-minded would dismiss the enormous cultural, social and economic contribution of the city to human development, there is a sobering reminder of the cost in the fact that we are also perceived as perpetual-motion refuse machines in the surrounding hinterlands to which we increasingly export our rubbish while importing their resources and young people.
In Vancouver, for example, just over 600,000 inhabitants generated 557,334 tonnes of waste last year. Sort that into commercial, demolition and residential waste and it turns out that the average citizen produces about half a tonne of garbage a year. Put another way — because fooling around with dimensional statistics is always fun — some amusing calculations for converting residential waste to volume that were developed in California show Vancouverites produce roughly enough garbage to bury Library Square to the depth of a 37 storey building, which is about four times higher than the present library. Our garbage tower would rank as the 22nd tallest building in the city. That’s just for 2013. Add another one, likely taller, each year.
Statistics Canada reports that between 2001 and 2006, population growth in the country’s 33 main metropolitan areas grew at a rate which was seven times that for small towns and rural areas. Most Canadians now live in just six of those metropolitan areas — 10 million of us in the regions surrounding Toronto, Montreal and Vancouver. And even though there have been dramatic improvements in recapturing both materials for recycling and for energy from the urban garbage stream, the actual volume is obviously going to continue to be a problem with which we must wrestle.
If we are living examples of American writer Mason Cooley’s aphorism that human society sustains itself by transforming nature into garbage, it behooves us all to stop thinking about garbage simply as something useless to throw away. Start thinking about it instead as a resource we can exploit for all kinds of added value. In fairness, municipal waste managers, particularly across the Metro Vancouver region but in many other cities, too, have been among the most progressive thinkers in this. They have launched campaigns urging us to reuse, recycle and repurpose while developing practical and pragmatic ways to extract genuine economic value from the garbage stream.
As a result, we have effective programs for diverting organic waste — from kitchen scraps to lawn cuttings into compost — which can be reinvested in the natural landscape. Across Canada, more than 60 facilities — including here — now recover methane gas from landfills. Not only is gas used to generate energy, the extraction process reduces greenhouse emissions from urban landfills equivalent to almost seven million tonnes of carbon dioxide a year. In Edmonton, a new plant converts municipal garbage to cleaner-burning biofuels to further reduce carbon footprints. Others mine discarded computer and electronic parts. And so on.
The success of these strategies has been remarkable. In Vancouver, for example, per capita waste generation has been trending downward with satisfying consistency since 2007. Overall, the diversion rate for municipal waste has improved from 37 per cent in 1994 to almost 60 per cent in 2014.
Specification of Setup and Comissioning of Waste Inci
Basic Info.
Product Description
Incinerator is a incineration equipment, direct fire waste by gas fuel or oi gas. As distinct circumscription, incinerator can be named many words as under:
Treatment capacity: Small scale incinerator, large scale incinerator and incineration pant. Waste material: Municipal waste incinerator, medical waste incinerator, animal cremation incinerator, individual cremators Incinerator gas: Gas incinerator, petroleum incinerator Waste to Energy (WTE): WTE incinerator, non-WTE incinerator Incinerator Manufacturer: China incinerator maker, UK incinerator manufacturer, USA incinerator manufacturer, India incinerator manufacturer. All around the planet, in most nations, people anti incinerator since the incinerator will produce a sizable Dioxin in the smoke. “Dioxins” refers to a group of toxic chemical compounds that share certain chemical cremation equipment for medical waste makers, cremator 50 kg / h, crematorium equipment, crematory maker, dead animal incineration, dead creature incinerator, structures and biological features. Dioxins can be released to the environment through woods fires, backyard burning of garbage, certain industrial activities, and residue from previous business burning of waste. Dioxins break down very slowly and previous releases of dioxins from both natural and man-made sources still exist in the surroundings. Anyhow, we have to remind this, that is large scale incineration pant, generally more than 30 ton per day. This is a social issue, to examine and indicate ways in various angles in the public, government, economic development, environmental protection, technology development, etc.
So, why we still use incinerator? To begin with, for the medical waste from hospital, the pyrolytic incinerators is best treatment up to now. Pyrolytic technology can ruin the virus, pollution control. Second, for individual body, pet creature, in most nations and regions, we desire to cremation them.
As previously two reason although not just above, we nevertheless use incinerators.
the way you are able to find reasonable incinerator to your regional site? Incinerator is not a cheap equipment, generally the little scale model's price around $5, 000USD per unit and large scale model's price more than $50, 000USD each unit. Thus, before purchase one unit incinerator, you have to make clear following things: A, burn what? Incinerator is a incineration equipment, function is flame waste. So what kind of waste that you would like to treatment? B, little or large? This based on the waste output every day or the waste quantity per feed period, like creature size. Incinerator use gas or oil fuel, generally, gas fuel is less expensive than oil and also the smoke cleaner than petroleum fuel model. However, some neighborhood site don't have gas supply system. And other tech products, such as electricity (220V, 380V), waste feed door kind, incinerator structure, etc..
After you clarify these, it is possible to go to find a local or international producers, asking prices, technical specifications and ultimately buying the ideal products.
| Items/Model | TS10(PLC) | TS20(PLC) | TS30(PLC) | TS50(PLC) | TS100(PLC) |
| Burn Rate | 10 kg/hour | 20 kg/hour | 30 kg/hour | 50 kg/hour | 100 kg/hour |
| Feed Capacity | 20kg | 40kg | 60kg | 100kg | 200 kg |
| Control Mode | PLC | PLC | PLC | PLC | PLC |
| Combustion Chamber | 100L | 210L | 330L | 560L | 1200L |
| Internal Dimensions | 50x50x40cm | 65x65x50cm | 75x75x60cm | 100x80x70cm | 120x100x100cm |
| Secondary Chamber | 50L | 110L | 180L | 280L | 600L |
| Smoke Filter Chamber | Yes | Yes | Yes | Yes | Yes |
| Feed Mode | Manual | Manual | Manual | Manual | Manual |
| Voltage | 220V | 220V | 220V | 220V | 220V |
| Power | 0.5Kw | 0.5Kw | 0.5Kw | 0.7Kw | 0.7Kw |
| Oil Consumption (kg/hour) | 5.4–12.6 | 7.8–16.3 | 10.2–20 | 12.1–24 | 14–28 |
| Gas Consumption (m3/hour) | 6.2–11.4 | 8–15.7 | 9.8–20 | 9.9–26.1 | 10–32.2 |
| Temperature Monitor | Yes | Yes | Yes | Yes | Yes |
| Temperature Protection | Yes | Yes | Yes | Yes | Yes |
| Oil Tank | 100L | 100L | 100L | 100L | 200L |
| Feed Door | 30x30cm | 45x40cm | 55x50cm | 70x55cm | 80x60cm |
| Chimney | 3Meter | 3Meter | 5Meter | 5Meter | 10Meter |
| Chimney Type | Stainless Steel | Stainless Steel | Stainless Steel | Stainless Steel | Stainless Steel |
| Residency Time | 2.0 Sec. | 2.0 Sec. | 2.0 Sec. | 2.0 Sec. | 2.0 Sec. |
| Gross Weight | 1500kg | 2200kg | 3000kg | 4500kg | 6000kg |
| External Dimensions | 140x90x120cm | 160x110x130cm | 175x120x140cm | 230x130x155cm | 260x150x180cm |
LOCAL STRONG WASTE INCINERATORS
a certain type to use at a crematorium. Something which allows especially for ashes collection etc.cremation alternative to the deceased’s family members. Is this thing perfect, are ashes easily accumulated and so on a cremator, for pet facility, can you present and also all detail of sales, tax obligation, environtment.-Plastic. 500Kg/hr and to be used optimal 6 times, is this means it will give just 3 tons every day? Keeping in mind that job files requires 10 tons/day
GREAT DEAL.
Fat-.
2.0
Medical incinerator using a 10 kg/hour (15 lbs/hour) capacity shall be constructed on the website, complete with Heaps, controller board in addition to all apparatus, abiding by 01015 exactly the same degree. 5.16.2.
– Rags & & oiled.
Household waste-.
Municipal incinerators using a 10-metric ton/24-hour capability, full with Heaps, controller board along with all accessories, complying with 01015 par. 5.16.1.
– Oils.
Plastic container-.
Filter, tires, belts.
– Chemicals, paint.
MUNICIPAL STRONG WASTE BURNERS
Local waste incinerator amounts and capacities will be created for 24-hour 7-day-a-week constant operation.
Incinerators shall be capable of processing both damp and also dry material as well as working on either diesel fuel, JP-8 gasoline,
or waste oil; visit Plumbing for gasoline storage system requirements. The complying with will be supplied as a minimum:
Strengthened concrete placing foundations, feed or charging hoppers (or loaders), main combustion chambers
with ash cleanout doors, secondary combustion chambers with ash cleanout doors, cyclone air filters (or separators),
and also induced atmosphere exhaust heaps (or chimneys).
The charging system will include, as a minimum, a receptacle for high feeding in addition to mechanically operated hydraulic
charging pliers or augur. To prevent warpage or extreme thermal expansion, a battery charger cooling system making use of
air or water is going to be provided.
Primary combustion chamber will be either the rotary- or mended fixed-hearth (or kiln) kind incinerator. Burner
and also combustion air controls shall be fully automatic for example, as a minimum, digital ignition in addition to all of
required interlocks along with security tools to offer secure operation. The room in addition to burner is going to be created to
keep a minimum burning temperature of at the minimum 700 into 870 C (1300 to 1600 F), however will not to go beyond 980
C (1800 F). The ash-removal system will incorporate the automatic constant elimination of the ash to an ashquench
pit in which warmed by water in addition to gotten rid of by conveyor. Burner in addition to combustion air controls shall be totally automatic
comprising of, as a minimum, electronic ignition along with all needed interlocks and safety and safety gadgets to supply safe
functioning. The ash-removal system shall include, as
a minimum, the straight guidebook removal into an entirely sterile
Cyclone air filters will likely be provided to eliminate the larger particulates. Cyclone air separators may be provided with
driven followers to enhance the speed of the gases inside the cyclone to enhance the collection effectiveness for smaller sized
bits.
5.16.2 MEDICAL WASTE INCINERATORS
Medical waste burners will be especially designed by the provider to eliminate medical wastes. All apparatus shall be made for 8 hrs
every day of continuous procedure in addition to be rated in quantity per hr (i.e. kg/hr or lbs/hr).
Burner packing or charging of medical waste will be batched-fed by hand.
Primary burning chamber shall function as static fixed-hearth (or kiln), multiple-chamber, retort form or larger
capability rotary-hearth (or kiln) kind. Heater in addition to burning air controls will be completely automatic for example, as a
minimum, digital ignition and all essential interlocks in addition to security tools to give safe process. The
room in addition to burner is going to be designed to keep a minimal burning temperature of at the minimum 760 into 870 C
(1400 to 1600 F). The ash-removal system shall incorporate the automatic continual removal of this ash into an ashquench
pit in which cooled down by water and removed by conveyor.
Second burning chamber is going to be a solid-walled and also -floored, flat, refractory-lined cyndrical tube kind
incinerator designed to oxidize (or shed) the organic vapors in addition to gases. Heater and burning air controls will be
completely automatic containing of, as a minimum, digital ignition in addition to all needed interlocks along with security and protection tools to
offer risk-free operation. The room in addition to burner is going to be created to maintain a minimum combustion temperature level
of a minimum of 930 to 1200 C (1700 to 2200 F) using a minimum gas home (or dwell) period of 2.0 secs. The ashremoval
system shall include, as a minimum, the direct manual removal into an entirely dry set receptacle.
Cyclone air filters will be awarded to remove the larger particulates. Cyclone air separators may be provided with
driven followers to elevate the rate of the gases inside the cyclone to improve the collection efficiency for smaller
particles. Stacks shall be the forced-air type and
completely independent and also unattached to nearby structures. As a minimum, heap peaks will lessen
downwash of stack discharges because of wind resistant effects from close-by frameworks and be determined in accordance
using DoD 4715.05-G, Overseas Environmental Standard Assistance File. Heaps shall be provided using
corrosion-resistant steel climate caps. ”
Heap dimension will be in accordance with the manufacturer’s recommendations. Stacks shall be the forced-air kind and also
completely independent and also unattached to nearby structures. As a minimum, pile heights will lessen
downwash of stack discharges because of wind resistant impacts from close-by frameworks and be determined in accordance
with DoD 4715.05-G, Overseas Environmental Standard Assistance File. Heaps shall be provided with
corrosion-resistant steel climate caps.”