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EMISSION MEASUREMENT, SAMPLING AND ANALYSIS

In our Air Quality Laboratory; Emission measurement, immission measurement (air quality) and air quality modeling are carried out within the scope of the Industrial Air Pollution Control Regulation with our trained and experienced expert staff.

Controlling soot, smoke, dust, gas, steam and aerosol emissions emitted into the atmosphere as a result of the activities of industry and power generation facilities in our laboratory, in the environment due to air pollution_cc781905-5cde- 3194-bb3b-136bad5cf58d_removal of the resulting negative effects and in order to ensure that these effects do not reappear, measurement, sampling and analysis are carried out in accordance with the regulations enacted within the scope of air quality.

 

These regulations;

Controlling soot, smoke, dust, gas, steam and aerosol emissions emitted into the atmosphere as a result of the activities of industry and power generation facilities in our laboratory, in the environment due to air pollution_cc781905-5cde- 3194-bb3b-136bad5cf58d_removal of the resulting negative effects and in order to ensure that these effects do not reappear, measurement, sampling and analysis are carried out in accordance with the regulations enacted within the scope of air quality.

All kinds of gas, liquid and solid waste emitted from a source and having harmful effects for the environment are called emissions. Devices, production processes, chimneys, etc. that emit emissions from any facility to the environment and nature. Çınar Environmental Laboratory carries out the measurements in accordance with the "Regulation on Control of Industrial Air Pollution" of the Ministry of Environment and Urbanization No. 27277. Within the scope of emission measurement, all of the measurement, sampling and analysis of the following parameters are carried out by our laboratory.

  • SO2, CO, O2, CO2, NO, NOX,NO2 (Standard Combustion Gases)

  • Particulate Matter (Powder) (TS ISO 9096 – TS EN 13284-1 –  EPA Method 5)

  • Velocity  and Flow (TS ISO 10780)

  • Humidity (EPA Method 4)

  • Sootiness (TS 9503)

  • Total Organic Carbon (TOC) (TS EN 12619)

  • Determination of Volatile Organic Compounds and Vapor, (VOC) (TS EN 13649)

  • Determination of Halogen (HCI, HBr, HF, Br2, CI2) (EPA Method 26 A)

  • Metal Sampling and Determination (Ag, As, Ba, Be, Cd, Co, Cr, Cu, Hg, Mn, Ni)

  • Metal Sampling and Determination (P, Pb, Sb, Se, Tl, V, Zn) (EPA Method 29 – TS EN 14385)

  • Ammonia Sampling and Analysis (EPA Method CTM 027)

  • Sampling and Determination of Chromium +6 (Cr+6) (CARB 425)

  • Hydrogen Cyanide (HCN) Sampling and Determination CARB 426)

  • Formaldehyde Sampling and Determination (EPA Method 323)

  • Sulfuric Acid (H2SO4) and Sulfur Dioxide (EPA Method 8)

  • Determination of Hydrogen Sulfide (H2S) Ratio (EPA Method 11)

  • Sampling and Determination of CaO AND MgO Compounds

  • PCDDF/PCDF Sampling (TS EN 1948-1)

  • Sampling and Determination of Phthalate Esters (EPA Method 0010)

  • PAH Sampling and Detection (EPA Method 0010 – ISO 11338-1 – cdecdec13635b-133655cf58d-136bad5cf58d_cdecf136359 )

  • Sampling and Determination of Phenols (EPA Method 0010)

  • Determination of polychlorinatedbiphenyls (PCB's)  (EPA Method 0010)

  • sVOC Sampling and Determination (EPA Method 0010)

As a result of the emission measurement, sampling and analysis, an emission report is prepared in accordance with the report format specified in the Regulation on the Control of Industrial Air Pollution.

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