THINH PHONG MECHANICAL ENVIRONMENT SERVICE TRADING PRODUCTION CO.,LTD

MINISTRY OF NATURAL
RESOURCES AND
ENVIRONMENT
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SOCIALIST REPUBLIC OF VIETNAM
Independence - Freedom - Happiness
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No. 47/2011/TT-BTNMT Hanoi, December 28, 2011
CIRCULAR
ON NATIONAL TECHNICAL REGULATION ON ENVIRONMENT
THE MINISTER OF NATURAL RESOURCES AND ENVIRONMENT
Pursuant to the Law on Technical regulations and standards dated June 29, 2006;
Pursuant to the Government's Decree No. 127/2007/ND-CP dated August 01 2007 detailing
the implementation of a number of articles of the Law on Technical regulations and
standards;
Pursuant to the Government's Decree No. 25/2008/ND-CP on March 04, 2008 on defining
the functions, tasks, powers and organizational structure of the Ministry of Natural
Resources and Environment; amended in the Government's Decree No. 19/2010/ND-CP
dated March 05, 2010 and the Government's Decree No. 89/2010/ND-CP dated August 16,
2010;
At the request of the Director of the Vietnam Environment Administration, the Director of
Science and Technology Administration, and the Director of the Legal Department,
PRESCRIBES:
Article 1. Promulgating together with this Circular the National Technical Regulation on
Environment: QCVN 40:2011/BTNMT – National Technical Regulation on Industrial
Wastewater.
Article 2. This Circular takes effect on February 15, 2012.
Article 3. The Director of Vietnam Environment Administration, Heads of units affiliated to
the Ministry of Natural Resources and Environment, Directors of provincial Services of
Natural Resources and Environment, relevant organizations and individuals are responsible
for the Circular of this Circular.
PP. THE MINISTER
DEPUTY MINISTER
Bui Cach Tuyen
QCVN 40:2011/BTNMT
NATIONAL TECHNICAL REGULATION
ON INDUSTRIAL WASTEWATER
Foreword
QCVN 40:2011/BTNMT supersedes QCVN 24:2009/BTNMT, is submitted by the Vietnam
Environment Administration, the Science and technology Administration, and the Legal
Department, and promulgated together with the Circular No. 47/2011/TT-BTNMT dated
December 28, 2011 of the Minister of Natural Resources and Environment.
NATIONAL TECHNICAL REGULATION
ON INDUSTRIAL WASTEWATER
1. GENERAL PROVISIONS:
1.1. Scope of regulation
This Regulation provides for the maximum values of pollution parameters of industrial
wastewater being discharged into receiving waters.
1.2. Subjects of application
1.2.1. This Regulation is applicable to organizations and individuals involved in the discharge
of industrial wastewater into receiving waters.
1.2.2. Industrial wastewater of special industry is subject to separate National Technical
Regulations.
1.2.3. Industrial wastewater being discharged into the collecting system of centralized
wastewater treatment plants shall comply with the charters of the plants.
1.3. Interpretation of terms
In this Regulation, the terms below are construed as follows:
1.3.1. Industrial wastewater is wastewater produced from the technological processes of
industrial facilities, from centralized wastewater treatment plants that are connected to the
sewer system of industrial facilities.
1.3.2. Receiving waters are drainage system of urban areas and residential areas, rivers,
streams, canals, channels, lakes, ponds, swamps; coastal water that have defined purposes.
2. TECHNICAL PROVISIONS
2.1. The maximum permissible values of pollution parameters in industrial wastewater being
discharged into receiving waters.
2.1.1. Maximum permissible values of parameters of industrial wastewater being discharged
into receiving waters are calculated as follows:
Cmax = C x Kq x Kf
- Cmax is the maximum permissible value of a pollution parameter of industrial wastewater
being discharged into receiving waters.
- C is the value of a pollution parameter of industrial wastewater specified in Table 1;
- Kq is the coefficient of receiving waters specified in Point 2.3 which is correspond to the
flow rate of the rivers, streams, canals, channels, or the volume of the lakes, swamps, or the
purposes of coastal water;
- Kf is the coefficient of the flow rate of the receiving waters specified in Point 2.4 which
corresponds to the total flow rate of wastewater discharged by industrial facilities into
receiving waters;
2.1.2. Apply the maximum permissible value Cmax = C (not Kq and Kf) to the following
parameters: temperature, color, pH, coliform, gross α activity, and gross β activity.
2.1.3. Industrial wastewater being discharged into the drainage systems of urban areas and
residential areas without centralized wastewater treatment plants shall apply the value Cmax
= C in Column B of Table 1.
2.2. Values of parameter of industrial wastewater (C) are specified in Table 1
Table 1. Values of parameter of industrial wastewater (C)
No. Parameter Unit Value (C)
A B
1 Temperature oC 40 40
2 Color Pt/Co 50 150
3 pH - 6 to 9 5.5 to 9
4 BOD5 (20oC) mg/l 30 50
5 COD mg/l 75 150
6 Suspended solids mg/l 50 100
7 Arsenic mg/l 0.05 0.1
8 Mercury mg/l 0.005 0.01
9 Lead mg/l 0.1 0.5
10 Cadmium mg/l 0.05 0.1
11 Chromium (VI) mg/l 0.05 0.1
12 Chromium (III) mg/l 0.2 1
13 Copper mg/l 2 2
14 Zinc mg/l 3 3
15 Nickel mg/l 0.2 0.5
16 Manganese mg/l 0.5 1
17 Iron mg/l 1 5
18 Total cyanide mg/l 0.07 0.1
19 Total phenol mg/l 0.1 0.5
20 Total mineral fats and oils mg/l 5 10
21 Sulfide mg/l 0.2 0.5
22 Fluoride mg/l 5 10
23 Ammonium (as N) mg/l 5 10
24 Total nitrogen mg/l 20 40
25 Total phosphorus (as P) mg/l 4 6
26 Chloride
(not applicable when
discharging into saline water
and brackish water)
mg/l 500 1000
27 Excess Chlorine mg/l 1 2
28 Total organochlorine
pesticides
mg/l 0.05 0.1
29 Total organophosphorus
pesticides
mg/l 0.3 1
30 Total PCB mg/l 0.003 0.01
31 Coliform bacteria/100ml 3000 5000
32 Gross α activity Bq/l 0.1 0.1
33 Gross β activity Bq/l 1.0 1.0
Column A in Table 1 indicates the values of parameters of industrial wastewater (C) when it
is discharged into the water sources serving tap water supply;
Column B in Table 1 indicates the values of parameters of industrial wastewater (C) when it
is discharged into the water sources not serving tap water supply;
The purpose of receiving waters is determined at the location into which wastewater is
discharged.
2.3. Coefficient of receiving waters (Kq)
2.3.1. Coefficients Kq corresponding to the flow rate of rivers, streams, canals, channels, etc.
are specified in Table 2 below:
Table 2: Coefficients Kq corresponding to the flow rate of receiving waters
Flow rate of receiving waters (Q)
Unit: m3 per second
Kq
Q ≤ 50 0.9
50 < Q ≤ 200 1
200 < Q ≤ 500 1.1
Q > 500 1.2
Q is calculated according to the average flow rate of receiving waters in 3 driest months in 3
consecutive years (according to the data of meteorology and hydrography agencies).
2.3.2. Kq corresponding to the volume of receiving waters that are lakes, swamps are
specified in Table 3 below:
Table 3: Kq corresponding to the volumes of receiving waters
Volume of receiving waters (V)
Unit: m3
Kq
V ≤ 10 x 106 0.6
10 x 106 < V ≤ 100 x 106 0.8
V > 100 x 106 1.0
V is calculated according to the average volume of the receiving lake or pond or swamp in 3
driest months in 3 consecutive years (according to the data of meteorology and hydrography
agencies).
2.3.3. If the flow rate of receiving waters which is a river, stream, canal, or channel is
unknown, then Kq = 0.9; if the volume of a lake, pond, or swamp is unknown, then Kq = 0.6.
2.3.4. Kq of receiving waters that are coastal saline water, coastal saline and brackish
swamps.
For coastal saline water used for aquatic conservation, water sports and water recreation,
coastal saline and brackish swamps, Kq = 1.
For coastal saline water not being used for aquatic conservation, water sports and water
recreation, Kq = 1.3
2.4. Coefficient of discharge rate Kf
The coefficients of discharge rate Kf are provided in Table 4 below:
Table 4. Coefficients of discharge rate Kf
Discharge rate (F)
Unit: m3/24h
Kf
F ≤ 50 1.2
50 < F ≤ 500 1.1
500 < F ≤ 5,000 1.0
F > 5,000 0.9
The discharge rate F is calculated according to the highest discharge in Environmental Impact
Assessment Reports, Environment Protection Commitments, or Environment Protection
Schemes.
3. DETERMINATION METHODS
3.1. Wastewater shall be sampled to evaluate quality in accordance with the guidance of the
following National Standards:
- TCVN 6663-1:2011 (ISO 5667-1:2006) – Water quality -- Sampling -- Part 1: Guidance on
the design of sampling programmes and sampling techniques;
- TCVN 6663-3:2008 (ISO 5667-3: 2003) – Water quality - Sampling. Guidance on the
preservation and handling of water samples;
- TCVN 5999:1995 (ISO 5667 -10: 1992) - Water quality - Sampling - Part 10: Guidance on
sampling of wastewaters.
3.2. Values of pollution parameters in industrial wastewater shall be determined according to
the following national and international standards:
- TCVN 4557:1988 – Water quality – Method for determination of temperature;
- TCVN 6492:2011 (ISO 10523:2008) - Water quality -- Determination of pH;
- TCVN 6185:2008 – Water quality - Examination and determination of color;
- TCVN 6001-1:2008 (ISO 5815-1:2003), Water quality - Determination of biochemical
oxygen demand after n days (BODn) -- Part 1: Dilution and seeding method with
allylthiourea addition;
- TCVN 6001-2:2008 (ISO 5815-2:2003), Water quality - Determination of biochemical
oxygen demand after n days (BODn) -- Part 2: Method for undiluted samples;
- TCVN 6491:1999 (ISO 6060:1989) - Water quality - Determination of the chemical oxygen
demand;
- TCVN 6625:2000 (ISO 11923:1997) Water quality - Determination of suspended solids by
filtration through glass-fibre filters;
- TCVN 6626:2000 - Water quality - Determination arsenic - Atomic absorption
spectrometric method (hydride technique);
- TCVN 7877:2008 (ISO 5666:1999) – Water quality – Determination of mercury;
- TCVN 6193:1996 – Water quality – Determination of cobalt nickel, copper, zinc, cadmium,
and lead. Flame atomic absorption spectrometric methods.
- TCVN 6222:2008 – Water quality- Determination of chromium - Atomic absorption
spectrometric method;
- TCVN 6658:2000 - Water quality – Determination of chromium (VI). Spectrometric
method using 1,5-diphenylcarbazide;
- TCVN 6002:1995 - Water quality – Determination of manganese - Formaldoxime
spectrometric method;
- TCVN 6177:1996 - Water quality – Determination of iron - Spectrometric method using
1,10-phenantrolin;
- TCVN 6665:2011 (ISO 11885:2007) - Water quality -- Determination of selected elements
by inductively coupled plasma optical emission spectrometry (ICP-OES);
- TCVN 6181:1996 (ISO 6703 -1:1984) - Water quality - Determination of total cyanide;
- TCVN 6494-1:2011 (ISO 10304 -1:2007) - Water quality -- Determination of dissolved
anions by liquid chromatography of ions -- Part 1: Determination of bromide, chloride,
fluoride, nitrate, nitrite, phosphate and sulfate;
- TCVN 6216:1996 (ISO 6439:1990) - Water quality -- Determination of phenol index -- 4-
Aminoantipyrine spectrometric methods after distillation;
- TCVN 6199-1:1995 (ISO 8165/1:1992) - Water quality -- Determination of selected
monovalent phenols -- Part 1: Gas-chromatographic method after enrichment by extraction;
- TCVN 5070:1995 – Water quality - Weight method for determination of oil and oil product;
- TCVN 7875:2008 – Water - Determination of oil and grease - Partition-infrared method;
- TCVN 6637:2000 (ISO 10530:1992) - Water quality - Determination of dissolved sulfide -
Photometric method using methylene blue;
- TCVN 5988:1995 (ISO 5664:1984) - Water quality -- Determination of ammonium --
Distillation and titration method;
- TCVN 6620:2000 - Water quality - Determination of ammonium - Potentiometric method;
- TCVN 6638:2000 – Water quality - Determination of nitrogen - Catalytic digestion after
reduction with devarda's alloy;
- TCVN 6202:2008 (ISO 6878:2004) - Water quality -- Determination of phosphorus --
Ammonium molybdate spectrometric method;
- TCVN 8775:2011 - Water quality - Total coliform - Membrane-filter technique.;
- TCVN 6187-1:2009 (ISO 9308-1:2000) - Water quality - Detection and enumeration of
Escherichia coli and coliform bacteria - Part 1: Membrane filtration method.
- TCVN 6187-2:1996 (ISO 9308 -2:1990(E)) – Water quality - Detection and enumeration if
coliform organisms, thermotolerant coliform organisms, and presumptive Escherichia coli -
Part 2: Multiple tube (most probable number) method;
- TCVN 6225-3:2011 (ISO 7393-3:1990) - Water quality - Determination of free chlorine and
total chlorine - Part 3: Iodometric titration method for the determination of total chlorine;
- TCVN 7876:2008 – Water - Determination of organochlorine pesticides content. Liquidliquid
extraction gas chromatographic method
- TCVN 8062:2009 - Organophosphorus compounds by gas chromatography - Capillary
column technique
- TCVN 6053:2011 - Water quality - Measurement of gross alpha activity in non-saline water
- Thick source method;
- TCVN 6219:2011 - Water quality - Measurement of gross beta activity in non-saline water.
3.3. The analysis methods with equivalent or higher accuracy than that of the standards cited
in Point 3.2, and the new national and international standards that are not cited in this
Regulation are accepted.
4. IMPLEMENTATION
4.1. This Regulation supersedes QCVN 24:2009/BTNMT - National Technical Regulation on
Industrial Wastewater promulgated together with the Circular No. 25/2009/TT-BTNMT
dated November 16, 2009 of the Minister of Natural Resources and Environment.
4.2. People’s Committees of central-affiliated cities and provinces shall announce the
purposes of water sources and the coefficient Kq when planning the use of water sources and
zoning receiving waters.
4.3. State agencies in charge of environmental issues shall select typical parameters and basic
values (C) in Table 1 to control environmental pollution depending on the characteristics of
industrial wastewater and the purposes of the receiving waters.
4.4. When the national standards cited in this Regulation are amended or superseded, the new
standards shall apply.
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