Cleaner Future For
All of us

How Should Waste Be Evaluated ?

Indispensable elements are both for disposal of wastes and for generating energy types that can utilize the resulting heat.
COMBUSTION SYSTEM
ELECTRICITY GENERATION SYSTEM
HOT AIR or STEAM PRODUCTION SYSTEM

The essential features of these methods are:
It should be 100% compatible with environmental parameters.
It should be produced at reasonable costs and at affordable prices.
It is absolutely necessary for individuals or organizations that take these
systems and produce energy from waste. It should be possible to make
a profit and regain its investment in a short time.

Types of Waste

Sewage

Commercial Waste

Shopping Mall

Industrial Zones

Agricultural Waste

Medical Waste

Animal Waste

Municipalities

Basic Features of the System

(*) Sewage sludge, egg chicken wastes, cattle wastes, etc. between 22% and 35% KM. such wastes will be dried and fed to the system with low temperatures that are abundant in the system..

SYSTEM EFFICIENCY AT FULL LOAD

SYSTEM EFFICIENCY AT PART LOAD

MINIMUM UNINTERRUPTED WORK

RATE OF THE WASTE DRY MATTER TO BE FED (*)

MAXIMUM GRAIN SIZE OF WASTE TO BE FED

% 96

% 91,2

% 20

%60-65

35-40 mm

CARBON MONOXIDE (CO)

PARTICLE RATE

UNBURNED HYDROCARBONS

NOx

< 10mg/m3

< 7mg/m3

< 1mg/m3

< 1g/Gj

Environmentally Friendly Emission Values Of The System

Technical Values of Our Machine

TYPE OF WASTE

HOUSEHOLD WASTE

ANIMAL WASTE

MEDICAL WASTE

SEWAGE SLUDGE

BIOMASS WASTE

LOW CALORIE COAL

DRYNESS RATE

% 65 DRY

% 70 DRY

% 22,5 DRY

% 75 DRY

% 80 DRY

THERMAL VALUE (1kg)

2200 kcal/kg

3200 kcal/kg

5200 kcal/kg

1600 kcal/kg

3500 kcal/kg

1200-1500 kcal/kg

1 TON WASTE

2.100.000 kcal

3.200.000 kcal

5.200.000 kcal

1.600.000 kcal

3.500.000 kcal

1.100.000-1.300.000 kcal

ELECTRICITY PRODUCTION

500 kWe

750 kWe

1250 kWe

0

820 kWe

200-300 kWe

STEAM

1 Ton STEAM

1200 kg STEAM

2750 kg STEAM

0

1750 kg STEAM

500 kg STEAM

HOT WATER

2500 kg

3100 kg

5200 kg

0

3300 kg

1000 kg

ASH

% 5

% 3

% 1

% 3

% 25

Spd Technology and Classic Systems

FUEL USED

FUEL FEATURES

HELLOW TEMPERATURE

BASIC AIM

FLUE GAS OUTLET TEMPERATURE

CHIMNEY GAS EMISSIONS

MINIMUM CAPACITY

WHAT CAN BE DONE WITH THE HEAT PRODUCED?

EASE OF USE

SPD SYSTEM

Everything that can burn

Above 800 kcal / kg thermal value everything that can burn.

BETWEEN 1,250 1,650 degC

Full Waste Disposal

600 to 900 degC In this way, the resulting heat it will be possible to use

Whatever fuel is used emission values arebelow world standards.Even high sulphur coal is burned with «scrubber» or special filters there is no sulphure emission

500 kWth

As a result of waste disposal hot air, hot water, hot water, steam, electricity production It is possible.

Since there is no pressurized systemanyone with a simple education can be used by, custom training or boiler license not necessary.

CLASSIC BURNING SYSTEMS

Any natural gas or combustible Fuel-oil or Coal

Which fuel is designed for it can only burn that fuel. Fuel If coal will be used as the thermal value of coal 3,600 kcal / kg or above must.

Maximum 600 degC

Only Partial Waste Disposal

150 to 200 degC max This heat for the efficiency of the boiler asked to be a minimum

No problems in case of usage of natural gas Incase of usage of fuel oil or coal emission in Compliance with parameters a series to provide measures must be taken.

3,000 kWth

Steam only, hot water or hot water production

MDefinitly should be runned by boiler licenced person and team

Introduction of SPD Waste Disposal System

SPD WASTE DISPOSAL SYSTEM removes animal, harvest, forest, garden, medical, domestic, industrial wastes and sewage sludge by burning them (sensitively) without any harm to the environment. The system removes the wastes (1250-1650 degrees) by burning them with fuel and temperature control.

Electricity, steam and hot water are produced from the heat energy produced by the system. Pathological wastes burned between (1250-1650 degrees), which are extremely dangerous among wastes, and disposed without harming the environment.

World-class wastes have to be burned over 1200 degrees. There is no system that removes such waste in this level of heat without external fuel or gas supply. SPD system is a continuous one. After the first ignition, it burns continuously with the waste coming from the heat of the reactor without giving any heat from outside.

Since other systems are bech systems, waste is placed in the system's treasure and natural gas or diesel heat is supplied to the treasury from outside. The difference between our system and other systems is clearly seen here.

Known State Of The Technique

Today, for the disposal of waste, burning systems are used. Exhaust gas released as a result of combustion In the current technique disadvantages are as follows; 1 - In existing systems, there is only one combustion chamber in the waste disposal boiler. In other words, combustion takes place once in the boiler. In this case, unburned gases and particles remain in the exhaust gas. Due to the discharge of unburned gases causes an inefficient disposal. Also unburned harmful gases and particles are also released into the environment. 2 - In existing systems direct air boiler for combustion is transferred to the combustion chamber inside. Low temperature outdoor environment to the combustion chamber air supply affects combustion efficiency negatively. 3 - In existing systems, in waste collecting crucibles that supply the waste to the boiler, waste becomes solid, as a result of which it is difficult to send waste to the boiler and even it can not be sent. This situation causes the system to fail and stop. 4 - In the existing system, waste is fed to the boiler from the top of the combustion chamber. Waste feeding this way, the risk of fire in the system carrying the waste creates.

The Object Of The Invention

1.SPD invention eliminates all the disadvantages that meet the above mentioned requirements. It is about the waste disposal system that lifts and brings some additional advantages. 2. An object of the invention; waste collection during the transfer of waste to the waste disposal boiler by preventing lumps and solidification in the crucible, to prevent incoming system downtime. 3. Another object of the invention; feeding the wastes from the bottom to the waste disposal boiler to prevent the risk of fire from occurring in the carrier system where the wastes are transported. 4. Another object of the invention; the air used for combustion in the waste disposal boiler, heating and combustion process by pre-heating with the waste disposal boiler to ensure efficient realization. 5. Another object of the invention; multiple combustion in waste disposal boiler unburned in the exhaust gas coming out of the waste disposal boiler to minimize the amount of gas and particles. 6. Another object of the invention; exhaust gas from the waste disposal boiler, its temperature and to keep the contents under constant control and to recycle the heat of the exhaust gas to determine whether the decision to use or give to the environment is determined by the system.

Minimal maintenance

No harmful emission

Low running costs

No fuel needed

Contact

Address:

Cumhuriyet Mahallesi Turgut Özal Caddesi
Keten Sokak No:12 ÇAYIROVA/KOCAELİ

Phone:

0262 658 01 09

City:

ÇAYIROVA/KOCAELİ

E-mail:

info@aktifatik.com

GSM:

0532 431 58 73