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TRANSCRIPT
Presentation on
Environmental Status Report 2013-14
of Nagpur City
By
Dr. D.G.Battalwar,
Manager ,
Vidharbha Enviro
Protection Ltd
NAGPUR MUNICIPAL CORPORATION
M/s Vidharbha Enviro Protection Ltd
Welcome
Shri Shyam Wardhane [IAS]Shri Shyam Wardhane [IAS]
Hon Municipal Commissioner
NMC ,Nagpur
Contents of Presentation
1. Introduction
2. Current Environment Scenario –Sector wise
i. Air Environment
ii. Water Environment
iii. Noise Environment
iv. Soil Environment
v. Solid Waste
3. Environment Management Plan3. Environment Management Plan
a. Air
b. Water
c. Noise
d. Soil
e. Solid Waste
4. Bench Marks [Present and New]
5. Reference
6. About VEPL
� 300 Years old city.
� Nagpur is second greenest city & Geographical center of India.
� A heritage monument “Zero Milestone of India” located within the city.
� Known as “Orange City,” is the largest city in Central India.
� Winter capital of Maharashtra.
� Connected to all main cities in the country by Air, Rail and Road. Global
Connectivity.
� Health and Educational Hub.
Introduction
1. Nagpur City Profile
Health and Educational Hub.
� Emerging as Cargo Hub.
� Area - 217.56 Sqkms.
� Population (2014) - 25 Lacs
� Water supply - 645 MLD
� Water pipeline length - 3200 Kms.
� Sewerage length - 1670 Kms.
� Strom water drains - 980 Kms.
� MSW - 700-800 MT/Day
� Road length - 3947 Kms.
� Lakes - 11 Nos.
� Rivers - 3 Nos.
2. Location and Physiographic Features:
• Nagpur city is located in Nagpur district in the State of Maharashtra
• Nagpur is the administrative headquarters of Nagpur District and Nagpur Division.
• Nagpur is situated at 21° 06' N latitude and 79° 03' E longitude and
• A mean altitude of 310 meters above sea level and is located at practically the
geographical center of India; in fact, the Zero Milestone of India
Location Map of Nagpur City in the State of Maharashtra
3.0 Climate• The climate of Nagpur city is characterized by extremely hot summer and a cold winter.
• The city experiences tropical climate and record the rise of temperature up to 48 °C in
summer season (March to May).
• The cold season is from December to February and the mercury drops down to as low as 6
°C to 8 °C.
• The southwest monsoon is from June to September while the period October-November
constitutes the post-monsoon season.
• The avg. annual rainfall for the year 2013 is 114.6 mm and
• Max. & min temperatures recorded are 47.9 °C & 12.1 °C
Month Temperature in °C Total Rainfall in mm
Max. Min.
Jan- 13 28 13.5 8.2
Feb- l3 30 15.6 8.3
Mar-13 34 18.5 12.8
Apr-13 45.6 24.9 14.5
May'-13 47.9 26.9 20.3
Jun- l3 38.5 27.3 284.2
Jul- 13 38 25.2 445.3
Aug-13 35.6 23.5 341.4
Sep-13 34.4 21.9 162.2
Oct-13 31.5 18.8 50.5
Nov-13 29.4 15.1 12.8
Dec-13 25.2 13.2 15.4
Yearly Avg. 34.8 20.3 114.6
Wind Rose Diagram
Current Environment Scenario of Nagpur City
Air Environment
• To assess the air quality of Nagpur city a
total of 25 sampling locations were selected
for air quality sampling depending upon the
importance of site and/or sensitive receptors
and also based upon previous
meteorological observation around the study
area.
• 10 locations from residential area• 10 locations from residential area
• 12 locations from commercial area and
• 3 locations from industrial area.
PM10 sampling using RDS Sampler at
Trimurti Nagar Gaseous Sampling at Manewada
Ambient Air Quality Status of Nagpur City
� The average PM10 concentration varied from 55.0 to 86.2µg/m3. The minimum and maximum
values of 24 hourly average PM 2.5 concentrations varied in the range of 9.8 –
15.2µg/m3respectively. The highest concentration was observed at Wadi industrial area which may be
due to windblown dust, unpaved road etc.
� Gaseous Pollutants: The observed average concentration of SO2 for all monitoring station varied
from 9.8 to 15.2µg/m3. The average concentration of NOX was observed in the range of 18.3 to 35.7
µg/m3. The concentrations of SO2 and NOX were observed below the stipulated standards of
Conclusion
2 X
NAAQS. . The highest concentration was observed at Hingna industrial area among the locations
monitored which may be due to largest industrial area at Nagpur city.The observed average
concentration of CO for all monitoring stations varies from 0.9 to 2.1 mg/m3.
� Heavy Metals in Suspended Particular Matter: Air born particles are important carriers of metals.
Some of which possess toxic properties. The concentration and size distributions of trace metals are
governed by the nature of emission to the atmosphere, as well as rates of wet and dry deposition,
cloud processing, and exchange of air between the boundary layer and the free atmosphere, and
chemical transformation.
Current Environment Scenario of Nagpur City
Noise Environment
• The objective of survey of noise pollution in and
around Nagpur city is to assess the existing levels
of noise, being generated by various activities and
their impact on the human settlement in Nagpur
city.
• Noise level monitoring was conducted with a
view to establish the baseline status of the noise
level in Nagpur city with surrounding area and
silence zones.silence zones.
• The background noise levels were measured
using the Sound Level Meter [Make-Lutron].
• Noise monitoring was carried out at
i. 13 Locations –Residential Area
ii. 26 Locations - Commercial Area
iii. 8 Locations - Silence /Sensitive Zones
Noise Level measurement
at Trimurti Nagar
Noise Quality Monitoring and
Vehicle counting at
Burdi (Commercial Area)
Noise Levels at different locations in Nagpur City
Residential Area
Silent Zones
Commercial Area
Conclusion:
In the residential zone, the noise levels ranged between 58.6 to 79.5 d B
(A) during day time and 52.7 to 64.0 d B(A) during night time. Highest
noise level was recorded at Chatrapati Square.
In the Commercial zone, the noise levels ranged between 62.7 to 88.4d B
(A) during day time and 60.2 to 85.3 d B(A) during night time. Highest
noise level was recorded at Chatrapati Square.
Noise levels were monitored in school, primary health centers and
hospitals in Nagpur at silence zone. The noise levels varied from 55.0 to
72.5 dB (A) during day time and 53.7 to 64.1 dB (A) during night time
Current Environment Scenario of Nagpur City
Water Environment
Water Environment includes :
i. Raw Water Quality
ii. Drinking Water Quality
iii. Ground Water Quality
iv. Lake Water Quality
v. Waste Water Quality
River Map of Nagpur cityFutala\ Lake River Map of Nagpur city
Lake Map of Nagpur city
Ambajhari Lake
Sakkardara Lake
Futala\ Lake
A. Surface Water Quality
1. Surface water was collected and monitored for physico-chemical and bacteriological
analysis to get trend in water quality during the period 2013-2014.
2. The overall water quality is indicated by 37 parameters, which gives information for the
raw water quality as well as treated water quality of Nagpur city.
Existing Water Supply sources of Nagpur City
Surface Water Quality Report
2. Drinking (Tap) Water Quality
• Nagpur Municipal Corporation (NMC) is supplying drinking water through its distribution
system. As a part of health concern, water quality monitoring was carried out at the end of
the distribution point i.e. ESR (Elevated Storage Reservoir)
• Water samples were collected from 17 locations from different part of the city and analyzed
for drinking water parameters as per IS 10500:2012.The quality of drinking water at the
consumer end w.r.t. physico-chemical and bacteriological report
Conclusion :
• From the physico-chemical and bacteriological characteristics of drinking water quality of entire
Nagpur city are safe for drinking. Its indicating that local body is very much concern about
awareness and water quality. Further NMC maintaining properly all water distribution system.
• Furthermore, Daily 3000 tap water samples were collected from all ten zones of Nagpur city for
residual chlorine content and it is found that residual chlorine more than 0.2 ppm is presented in
more than 97% samples .
• Total 600 samples were collected from each zone and analyzed for presence of total coliform and
thermo tolerant species
Tap Water Quality –Physical Parameters (May-2014)
Tap Water Quality –Inorganic Parameters (May-2014)
Tap Water Quality –Nutrient and Demand Parameters
(May-2014)
3. Groundwater Quality
• As per the sources data by Central Groundwater Board (CGWB), Nagpur, it is estimated
that potential of groundwater availability in Nagpur to be above 25 mcm per year.
• The depth of groundwater table varies from 1.65-1.95 m in most of the central part of the
city and extends up to 16 m in the peripheral areas
• With the increased population growth and developmental activities the demand of water
supply will increase tremendously thereby need to tap the groundwater source for potable
or non-potable usage. For above facts and uses of ground, it is essential to assess the
ground water quality for its suitability for different usages.
• Ground water samples were collected during summer 2014 from Nagpur city [19 samples]
and analyzed for selected environmental parameters viz Physical, Chemical and
bacteriological. Ground water quality characteristics.
CONCLUSION
1. DISSOLVED OXYGEN : All the ground water samples have DO as range of 5.2 to 6.4 mg/l.
Low DO value is quite natural for ground waters, which are not in much exposure with air
environment.
2. CHEMICAL OXYGEN DEMAND (COD): All water samples are indicating very low organic
pollution load in terms of COD and all COD values are within the prescribed limit (< 250.0 mg/l)
as in IS 2490:1982.
3. DISSOLVED SOLIDS: All 19 ground water samples have Dissolved Solids ranges from 230.0
918.0 mg/l respectively, which are well below prescribed limit of 2000 mg/l as given in IS
10500:2012.
4. FLUORIDES : All 19 ground water samples have fluoride content ranges from 0.19 to 1.05mg/l4. FLUORIDES : All 19 ground water samples have fluoride content ranges from 0.19 to 1.05mg/l
respectively which are lower than desirable limit of 1.0 mg/l as given in IS 10500:2012
5. NITRATE: All 19 ground water samples have nitrate concentration ranges from 1.0 to 19.4 mg/l
respectively, and much below the desirable limit of 45 mg/l.
6. Total Coliform : All ground water samples 10) have the load of total coliform and Faceal coliform
0.0 to 17.0 MPN/100ml and 0.0 to 14.0 MPN/100ml.
7. Oil and Grease:. All 19 ground water samples have O & G content is below detectable limit
respectively.
8. Overall quality of water samples are showing that the water sources of the area are not
polluted. Some water samples getting contamination from surface run-off or domestic uses.
The coliforms values are exception otherwise all the water samples are indicating its
characteristics within limit as given in relevant Indian Standards. Water levels – Water
sources in the area are shallow in nature
4. Lake Water Quality
1. Nagpur city is covered with natural and
manmade lakes. The significant lakes are
Futala, Ambazari, Sonegaon, Gandhi Sagar,
Sakkardara, Naik and Lendi Talav.
2. These lakes are being used for
anthropogenic and recreational purposes
3. On the bank of these lakes, some of the
slums are located, which are using lake
water for washing, bathing and domestic
activities.
4. NMC has taken steps to protect these lakes
Conclusion :i. It was observed that these lakes are
exerting organic load in the form of
BOD and COD due to manmade
activities.
ii. The mineral contents are found to be
high and increased every year with
respect to dissolved solids, sulphates,
hardness and chloride.
iii. Nutrient load in terms of nitrate and4. NMC has taken steps to protect these lakes
for being polluted due to local activities.
5. Every year samples were collected from all
these lakes and analyzed for physico-
chemical parameters to know the water
quality status of these lakes.
iii. Nutrient load in terms of nitrate and
phosphate are found to be increased
except Ambazari, Futala, Sukkrawari and
Sakkardhara and therefore these are on
the verge of eutrophication.
iv. The lakes are periodically deterioting
and need attention.
v. The heavy metals in some of the lakes
are also found to be exceeded the
permissible limits of drinking water.
Results
Name Of Parameter UnitFutala
Lake Ambajhari
Lake
Gandhi
Sagar
Lake
Sakkardara
Lake Naik Lake Lendi Lake
Sonegaon
Lake
Turbidity NTU 1.85 < 0.1 < 0.1 0.39
Water sample
could not be
collected due to
Water sample
could not be
collected due to Lake dried
pH - 8.64 8.51 8.71 8.71
Conductivity µS/cm 535 454 1316 1050
Total Dissolved solids mg/L 334 283 822 656
Sulphate mg/L 32.3 16.5 104.6 108
Cyanide mg/L Nil Nil Nil Nil
Chloride mg/L 44 66.5 158.5 112.5
Nitrate as NO3 mg/L 4.6 6.2 6.9 10.9
Arsenic as As mg/L < 0.005 < 0.01 < 0.01 < 0.01
Dissolved Oxygen mg/L 3.7 4.8 4.2 2.1
Calcium as Ca mg/L 26.4 28.8 44.7 65.6
Cadmium as Cd mg/L <0.001 <0.001 < 0.001 < 0.001
Copper as Cu mg/L 0.0106 < 0.01 0.0113 0.0128
Phenolic Compound mg/L < 0.001 < 0.001 < 0.001 < 0.001 collected due to
proliferation of
water hyacinth
in the lake
collected due to
proliferation of
water hyacinth
in the lake
in summer
season
Phenolic Compound mg/L < 0.001 < 0.001 < 0.001 < 0.001
Magnesium as Mg mg/L 20.9 20.9 34.4 20
Lead as Pb mg/L < 0.01 < 0.01 0.0268 0.0483
Mercury as Hg mg/L < 0.0005 < 0.0005 < 0.0005 < 0.0005
Zinc as Zn mg/L < 0.01 < 0.01 <0.01 < 0.01
Chromium as Cr+6 mg/L <0.01 <0.01 < 0.01 < 0.01
Iron as Fe mg/L 0.55 0.6 0.69 0.57
Selenium as Se mg/L <0.01 < 0.01 < 0.01 < 0.01
COD mg/L 40.8 44.9 36.7 48.9
BOD mg/L 12.4 12.2 11.8 15.6
Manganese mg/L <0.01 < 0.01 < 0.01 < 0.01
Fluoride as F mg/L 0.19 0.18 0.08 0.25
Anionic Detergents mg/L < 0.1 < 0.1 < 0.1 < 0.1
Total Coliform MPN/100ml 9 7 17 33
Lake water Quality Report
Surface Water Resources at Nagpur
• There are mainly two surface water body namely
Nag River and Pilli River flowing through the city
areas.
• The Nag River flows through the major part of the
city carrying mostly sewage generated from that
particular areas.
• The river Pilli passing through mostly outskirts
of city also carrying domestic sewage generated
from the locality besides the river.
• The rivers jointly meet Kanhan river and
ultimately in the Gossikhurd reservoi.Drainage Map of Waste water
Observations of Surface Water Drains
� Due to discharge of sewage into these drains,
converted in waste carrying streams only with no
further assimilation potential
� With uncontrolled discharge of solid and semi-
solid waste into these drains, heavy deposits of
sludge (mostly organics) at the bottom restricting
the flow of the drains.
� The unprotected (embankment) edges of the
drains (both sides) creates lot of siltation problem
and produce uncertainty to the local habitation
residing on the bank of these drains.
Observation :1. The rivers flowing through the city covers the 16
kms stretch from its origin to discharge into the
Kanhan at Saongi in eastern part of the Nagpur
district.
2. Sample were collected along the stretch of the
river and analyzed for different parameters to
characterize the present status of rivers.
Sewage Discharge at Various Location (May 2014) for Nag River Nos pH DO BOD COD SS TDS O&G
1 7.7 Nil 86.0 192.0 91.0 353.0 2.8
2 7.5 Nil 102.0 205.0 110.0 321.0 4.5
3 7.7 Nil 84.0 196.0 86.0 348.0 4.1
4 7.4 1.8 78.0 188.0 122.0 293.0 3.08
5 7.5 2.07 64.0 165.0 104.0 310.0 3.83
6 7.6 3.2 72.0 144.0 98.0 432.0 2.94
7 7.4 2.6 65.0 136.0 57.0 604.0 2.8
8 7.3 1.56 83.0 192.0 106.0 644.0 2.6
9 7.9 2.60 76.0 186.0 46.0 506.0 3.9
10 7.1 1.2 85.0 190.0 58.0 568.0 2.2
11 7.2 1.8 78.0 176.0 118.0 1124 3.2
12 7.8 2.04 87.0 164.0 163 504 2.7
13 7.26 3.2 64.0 190.0 42.0 547.0 4.5
14 7.8 3.7 18.0 72.0 108. 426.0 1.0414 7.8 3.7 18.0 72.0 108. 426.0 1.04
15 7.84 3.5 24.0 90.0 44.0 366.0 1.78
16 7.32 3.6 78.0 166.0 97.0 473.0 4.89
1. Nalla carrying sewage behind Dharampeth College
2. Nalla Carrying sewage near Panchashil Talkies
3. Nalla carrying sewage near Ghat Road
4. Nalla carrying sewage of west Nagpur near Dande Hospital, Ravi Nagar Chowk
5. Nalla carrying sewage of Central Nagpur behind Naivadyam sangam chawl.
6. Nalla carrying sewage of Central Nagpur near Untkhana bridge
7. Nalla carrying sewage of East Nagpur (Nandanvan area) near Jagnade chowk
8. Nalla carrying sewage of East Nagpur (Nandanvan area) near super store, Jagnade
chowk
9. Nalla carrying sewage of East Nagpur Near St. Xavier School, Vyanktesh Nagar,
List of Locations for waste water sampling of Nag River
9. Nalla carrying sewage of East Nagpur Near St. Xavier School, Vyanktesh Nagar,
Nagpur
10. Nalla carrying sewage of East Nagpur Near Vyanktesh Nagar, Nagpur
11. Hudkeshwar nalla carrying sewage of south Nagpur near bridge lawns before mixing
with Nag River
12. Nalla carrying sewage from Shivaji Nagar, Gandhi Nagar Behind LAD College
13. Chamber Nalla carrying sewage of North Nagpur (Indora Area) near road bridge
Sharda Ispat to Kalmana before mixing with Pilli river
14. Nalla carrying sewage of North Nagpur near Railway crossing Nagpur-Koradi before
mixing with Pilli
15. Nalla carrying sewage of North Nagpur near St. Vicent Palloti School (Zingabai Takli
area) before mixing with Pilli River)
16. Nalla carrying sewage of North Nagpur near Pardi Bridge
Waste Water Sampling Locations along two major rivers in Nagpur City
Variation in Quality of Pilli River at different Locations along the Stretch
Variation in Quality of Nag River at different Locations along the Stretch
SOIL Environment• An accurate soil analysis is vital to understanding
soil condition of the area.
• It gives a basic idea of soil fertility status and can
help while city land uses planning.
• It will also provide with the information of land
contamination status of the area.
• Soil samples were collected during summer 2014
[May -2014] from different places in and around
the Nagpur city including industrial zones i.e.
from MIDC and Hingna areas where maximum
developmental activities are in progress anddevelopmental activities are in progress and
• Analyzed for its physico-chemical, nutrient,
productivity characteristics and heavy metal
content
Soil sampling location at Industrial area of Nagpur City
Textures class of Soil of
Nagpur
City [summer -2014]
Nutrient and Organic
Contents
of Soil [summer -2014]
Cation Exchange Capacity of Soil [summer-2014]
Conclusion :� The clay contain in the soils of the study area varies
from 28.08 to 60.92%.
� The bulk density of soil in the region is found to be
1.13- 2.07 g/cm3, whereas the
� porosity and water holding capacity of soil is in the
range of 47.2 to 56.2 % and 42.5 to 66.7%.
� The texture of the soil is clay, sandy loam and sandy
clay loam. Variation was seen in the textural class at
city areas, Hingna MIDC study zone and Butibori
MIDC area.
� Clay content in the soil of the city area varies from
17.59 to 37.75 % whereas slit, coarse sand and fine
sand varies from 4.23 -17.02%, 8.75-28.89% and
28.60 – 42.61% respectively. At Butibori MIDC, the28.60 – 42.61% respectively. At Butibori MIDC, the
clay was the prominent textural class.
� In soils showed very high cation exchange capacity
(CEC) amongst the exchangeable cations,
� Exchangeable sodium percentage ranged from 1.70 to
8.73.
� Soils from all the villages are normal with respective to
alkalinity as exchangeable sodium percentage of soil is
below 15. The soils have very high Absorptivity.
Nutrient Status of Soil
� Available nitrogen, phosphorus and potassium in city
area were found to be 389.0 to 631.0 kg/ha, 4.7 to 18.3
kg/ha and 123.0 to 182.0 kg/ha
Soil Textural class in City Area
Texture diagram of Hingna MIDC (A) and Butibori MIDC (B)
Solid Waste Management
� Solid waste handling is a major problem for most of the local governmental
agencies which requires drastic measures to be taken up.
� Three main aspects are involved in solid waste
i. increase in quantity of the waste generation by urban residents;
ii. regular change in the quality of waste generated and
iii. the disposal method of waste collected by land-fill and incineration etc.
� Solid waste generation is based on the changing and adopted life style of
community) (rich, medium and low income group).
� Indian cities are generating more solid wastes based on their improved livelihood.� Indian cities are generating more solid wastes based on their improved livelihood.
Category of Solid Waste Generation
Solid waste can be categorized into different types depending on their sources:
� Household waste is generally classified as municipal waste
� Industrial waste as hazardous waste
� Biomedical waste or hospital waste as infections waste
� Slaughter House waste
1. Municipal Solid Waste
• Municipal solid waste generation mostly
comprising of household waste (hotels,
restaurants, mangal karlayas, lawns etc.)
construction and demolition debris (excavated
materials, iron, building construction materials),
sanitation residue and waste from streets,
hospitals, slaughter houses, market areas
(Agriculture Waste).
• This is generated mainly from residential and
commercial complexes.
NMC Operational System
• The Solid Waste activity is managed and operated
by Health Department.
• The work of collection and disposal is managed
by a
• Senior Sanitary Inspectors and Sanitary
Inspectors (Total 56) , 129 Jamdars supervise , the
work of 7261 sanitary workers.
• The management of solid waste involves four
steps. These are:
i. Generation and Composition of Waste
ii. Collection of Waste
iii. Transportation of Waste
iv. Disposal of WasteDetails about NMC's Area
Process Flow Diagram for Municipal
Solid Waste Disposal Site
Solid Waste Dumping Site
Collection &
disposal (Authorized & UN
authorized)
1. AIR ENVIRONMENT
� The qualitative and quantitative assessment of the different parts of the study
area (Nagpur) indicated that the quantum of air pollution is different and
hence it is utmost important that proper attention should be given in
controlling and minimizing those activities which causes this pollution.
� There should be adequate control norms for emissions into air which should
be observed religiously. So, it is indeed necessary to focus and delineate our
priorities towards minimizing the air pollution load.priorities towards minimizing the air pollution load.
� Besides, a carefully drafted policy considering different air pollution
dynamics of different areas i.e. Residential, Commercial and Industrial for
reduce air pollution .
� The air pollution problem can be minimized at the source by making use of
the following measures
i. Substitution of the raw materials.
ii. Modification in the process.
iii. Alterations in the particular equipment or component.
iv. Removal of pollutants at the source.
Recommendations for Air Environment
� Background stations must be included in the network to assess the
anthropogenic impact
� Analytical quality control exercises may be carried out regularly to
analyze and to improve the quality of data.
� A comprehensive urban air quality management strategy should be
formulated and action plan should be regularly reviewed keeping into
view of the results of implementation.
� Studies on inventory of air polluting sources and source
apportionment may be undertaken to improve the action plan to
control air pollution.
� Epidemiological studies should be undertaken to develop dose-
response relationships.
� Monitoring of hazardous air pollutants may be undertaken as they are
well known to have marked effect on human health and environment.
2. NOISE ENVIRONMENT
� Regular monitoring of noise levels in
different parts of the city areas
(commercial, industrial and sensitive
zone).
� Transportation activities need to be routed
during day and night time mostly for the
heavy vehicles entering into the city.
� Aggravation of the vehicular activities
near the sensitive and residential areas be
restricted to avoid any health problem
� There is possibility of increasing noise level
during the festival periods because of the
loudspeakers and the speeches, so
restrictions on such activities be imposed
during night time (time schedule for
permission of such activities).
� Proper monitoring of noise generating
vehicles through RTO authorities/ traffic
police and impose of penalty for such
vehiclesrestricted to avoid any health problem
to the residing community.
Awareness Generation:
� Display of existing noise levels on
squares, residential and sensitive areas and
awareness generation activities to be
undertaken through media.
� Display of ill effect of noise levels on
human through electronic media on the
squares to appraise the people and
measures to be taken..
vehicles
� Restrictions on unnecessary honking of
horns near the signals in calm zones or
silence zones.
Responsibility:
� NMC (Traffic Department)
� NMC (Health Department)
� NMC (Environment Department)
� RTO
3. WATER ENVIRONMENT
Surface water {Raw and Tap Water}
� Regular monitoring (Season wise) both physico-chemically and
bacteriologically be carried out through MPCB in association with the
public health department (Raw water of main sources, ESRs, MBRs,
Treated Water and tap water etc.).
� Disinfection of water with optimized chlorine dosage shall be done
continuously at the water treatment plants and also in the ESRs.
� Regular monitoring of distribution system (operation & maintenance)Responsibility :� NMC (Water Works� Regular monitoring of distribution system (operation & maintenance)
should be carried out properly and regular monitoring of leakages be
done for immediate rectification.
� Cleaning of ESRs be carried out regularly twice in year to avoid any
algal growth and development of bacterial contamination.
� Performance evaluation of all the units of Water treatment Plants
should be carried out to check its efficiency and effectively as per the
design.
� Residual chlorine of 0.2 ppm should be maintained at the tail ends.
� NMC (Water Works
Department)
� NMC (Health
Department)
� MPCB
� Public Health
Department
2.Lake Water• Proper cleaning and maintenance of the area
near the vicinity of the lake.
• Regular monitoring of lake water
quality
especially before and after festival periods
like
Ganesha and Durga Festival.
• Installation of proper sanitation and
hygienic facilities for the people to avoid
river pollution.
• Cleaning of road side storm water drainage
system to avoid over flow.
• Restriction on bathing and washing
activities around the lakes and throwing of
waste materials. This is necessary to avoid
addition of nutrient load within the lake
which supports the photosynthetic activities
and is responsible for the eutrophication of
the lake.
• Restrictions on immersion of idols in lakes
should be strictly practiced.
• Provision for collection centers/space to besystem to avoid over flow.
• Entrapping the discharge points of the
sewage into the lakes, if any.
• Restriction on discharge of domestic waste
from nearby habitation.
• Restriction on open defecation on the bank
of the lake.
• Provision of public toilet with sufficient
seats (as per the population of slum and
standard norms) is a must for slum residing
near lakeside with proper O&M facility
• Provision for collection centers/space to be
provided for the collection of flowers,
garlands before the immersion of idols in
the water body.
• Construction of artificial pond is
recommended for idol immersion activity.
Every year the artificial pond should be
cleaned and the waste should be disposed
off scientifically to avoid further pollution.
.
• The ground water sources (dug well/bore wells/hand pumps)
needs to be checked and disinfected prior to drinking.
• Wherever there are public wells disinfection should be done
on regular basis and checked periodically for contamination
through bacterial population.
• Maintenance of hygienic conditions around the tube wells/
dug wells/ hand pumps be practiced to avoid groundwater
contamination through washing/bathing etc. specially in the
slum areas.
• Regular monitoring of ground water quality with respect to
physico-chemical & bacteriology should be done. If the
3. Ground Water
Responsibility :
� NMC (Health Department)
� NMC (Water Supply
Department)
� MPCB
� Public Health Department
� NIT (Planning)physico-chemical & bacteriology should be done. If the
public wells are found to be contaminated then this should
be informed to the residents using water for potable
purpose..
• Locations for construction of hand pump should be
identified according to the drainage pattern of area to avoid
any contamination due to sewage drainage.
• The water levels before monsoon and after monsoon should
be monitored to assess the recharge of aquifer.
• Rain water Harvesting to recharge the ground water
� NIT (Planning)
� Ground Water Board
� Social Organization &
NGOs
4. Waste Water :
• Installation of small STPs (Decentralized option)
along the stretch of these rivers (Nag & Pili).
• Treated sewage should be recycled and reuse for
industrial use, for gardening or agriculture
purposes.
• Regular monitoring for water quality of drains.
• Revival cleanup and restoration of these drains.
Afforestation should be carried out along the
• The dredged materials having good
nutrient potential, should be given to the
farmers or vegetable producing people
for good vegetable growth.
• Provision of wetland vegetation and coir
bunding to be made so that the river
water should have natural purification..
stretch of both the rivers. A dense buffer should
be created with varying levels of plantation.
• Only treated water should be discharged to avoid
pollution to the parent river where these rivers
meet.
• Dredging and embanking on both edges of the
rivers. Removing of all the weeds and water
hyacinth growing inside the river course.
• Bunds to be provided across the river to
divert water towards wetlands.
• Implementation of suggested measures
in the detailed project reports prepared
for different lakes with proper
budgetary provision to assimilate
pollution load.
LAND ENVIRONMENT
• Proper use of excavated top soil layers for plantation
in city area.
• Regular monitoring of soil quality to avoid
groundwater pollution.groundwater pollution.
• Restriction on heavy vehicle parking in the city
areas.
• Proper management of solid waste to avoid
deterioration of soil quality
• Periodic review to ensure
implementation of municipal solid
waste management plan (collection,
transportation & disposal).
• To increase the SWM collection
efficiency & ensure 100 % coverage.
• To practice and strengthen the
segregation of solid waste at source.
• Implementation of Recycling
Environment Management Plan for solid waste Nirmalaya Management:
• NMC should plan for the collection of
Nirmalayas from the Ganesh & Durga
Pandols in the city.
• The NMC should Chalkout effective
awareness programmes in
consultation with local NGOs and
social organization well ahead of the
start of these festivals and• Implementation of Recycling
programme.
• Training for NMC staff regarding solid
waste management.
• Development of an intensive public
education programme.
• Association of stake holders for
consultation
• Spread the message among the
common masses of the effects of
throwing of Nirmalayas into the lake
water body.
• Deploy special vehicles for collection
of the Nirmalaya..
• Encourage the organisors as well as
common people for the collection of
Nirmalayas and give incentives&
rewards
• Finally the vermicomposting of the
Nirmalayas should be practiced
Slaughter House Waste Management
• Replacement of the Existing Slaughter
Houses: The existing slaughter houses
(authorized and unauthorized) are to be
replaced in a suitably identified site, away
from the community places, mostly outskirt
of the city area creating slaughtering
facilities and disposal network.
• Solid waste generated from the slaughter
houses can be utilized by converting to bone
meal and meat meal which are the foods for
• Hygienic condition should be maintained
around the slaughter houses.
• Illegal slaughter houses should be
removed immediately and action needs
to be taken against them.
• In different developing areas provision
should be made to establish a proper
slaughter house with waste management
facility. This will ensure cleanliness in
the area.meal and meat meal which are the foods for
fish and animals.
• Co-composting of slaughter house waste can
be done with adjustment of carbon to
nitrogen ratio.
• The compost can be applied for agriculture
purpose after assessing the quality of the
compost as per guidelines/standards
specified in the MSW rules.
• Scientific treatment of the slaughter house
waste should be planned both for liquid and
solid waste.
the area.
• Waste to energy project to be explore
Waste from Health Care Facility (Biomedical Waste)
• It should be ensured that the hospitals shall manage & treat
the biomedical waste as per the prescribed norms.
• It is always recommended that there should be a common
waster treatment facility existing on the outskirts of the city
limits. Individual treatment should be avoided so as to check
the air pollution level within the city.
• Hence, effort to register all the city hospitals should be made
for the common treatment & disposal of the biomedical
waste.
Benchmarks [Present and New]
Particulars ESR 2011-12 ESR-2013-14
AIR ENVIRONMENT
Benchmark Ambient air quality in some part of city having higher concentration of pollutants
Plan
Continuous AAQ
monitoringPartially achieved as
continuous monitoring
system has placed at few
locations, plantation is
regular & some part of roads
are under concretization
Similar planning kept alive as
monitoring system should be
placed at more places, Emissions
level should check more strictly &
maximum road concretization
should be done on priority basis
To check emissions from
heavy & old vehicles
Roadside plantation
Concretization of roads
to reduce SPM level
NOISE ENVIRONMENTNOISE ENVIRONMENT
Benchmark Noise levels in all areas of city are high
Plan
Regular monitoring of
noise level
Partial achieved as casual
monitoring has followed, no
display of present noise
levels, but good thing is
heavy vehicles are diverted
through new ring road and
plantations are more & more
on the way
Planned for strict monitoring &
control over honking of horns,
Green belt development should be
campaigned and display of present
noise level must be done
Restricted entry time for
heavy vehicles in city
Display of noise level on
squares
Noise level control by
green belt development
WATER ENVIRONMENT
Benchmark Drinking Water quality
Plan
Regular monitoring of water
qualityAchieved as Drinking water system
is outsourced to OCW under
JnNURM scheme from source to
consumption, external agency is
assigned for regular monitoring of
water quality & chlorination level
and scheduled cleaning of all
storage tanks are being assured
Similar planning kept alive due to NMC's
24x7 project is to be implemented and to
provide safe & continuous supply of
drinking water to all citizens
Optimized Chlorination
Cleaning of ESRs
Benchmark Lake Water quality- Phutala, Ambazari, Sonegaon, Gandhisagar, Naik, Lendi, Pandhrabodi
Rejuvenation of lakes
Partial achieved as 95% work ofRegular monitoring of lake
Plan
Partial achieved as 95% work of
rejuvenation of Sonegaon lake has
completed and artificial tanks are
kept for idol immersion but rest all
planings are still to be implemented
Similar planning kept alive as all
planings still to be implemented strictly
Regular monitoring of lake
water quality
Stop the open defecation at
lake sides
Restriction on immersion of
idols
Benchmark Ground Water quality
Plan
High mineral contentsPartial achieved as some
wells/hand pumps are being
monitored regularily & RWH
facility has provided at some Govt
buildings only but rest all plaanings
are still to be implemented
Similar planning kept alive as all
planings still to be implemented strictly
Declining water table
Rain water harvesting
(RWH)
Nearness to sewage
pipelines
Benchmark Surface Water quality- Nag Nadi & Pili Nadi
Plan
Regular monitoring of
water qualityPartial achieved as cleaning &
restoration has followed but rest
all planning's are still to be
implemented
Similar planning kept alive as all
planning's still to be implemented
strictly
Only discharge of
treated sewage
STPs to treat sewage
Revival clean-up &
restoration
Benchmark Sewerage System & Sewage Management
Treatement of all Not achieved as only centralized
Plan
Treatement of all
sewageNot achieved as only centralized
STP is there to treat only 40%
sewage of city and rest all
planings are still to be
implemented
Similar planning kept alive as all
planning's still to be implemented
strictly
Decentralized STPs
Cleaning of Nallahs &
sewe lines
BIOLOGICAL ENVIRONMENT
Benchmark Green Ecosystem
Plan
Tree plantation along river & lake
sidePartial achieved as
suggestion are under
implementation and land
scaping, gardens, parks are
developing systematically
Similar planning kept alive as all
planings still to be fully
implemented
Proper selection of plant species
Land scaping in the square area
with ornamental plants
TRANSPORTATION
Benchmark Traffic Management
Plan
Improvement of road condition Partial achieved as roads are
either imroved or concreted,
pay & park facilities have
started at many places but
planings are still to be
implemented
Similar planning kept alive as all
planings still to be fully
implemented
Management of traffic, parking &
junctions
Restriction over road side shopping
Off-street parking implementedOff-street parking
SOLID WASTE
Benchmark Waste Management- MSW, Slaughter house, Wholesale market & BMW
Plan
Disposal of Solid waste Achieved as municipal solid
waste & biomedical waste
are managed by outsourced
agancies (M/s Hanjer
Biotech & M/s Superb
Hygenic respectively) but
planning for waste to energy
& place for slaughter houses
in outskirt of city is to be
implemented
Similar planning kept alive as
recommendations should be
followed in complete systematic
manner
Nirmalaya Management
Selection & shifting of Slaughter
houses
Utilization of organic waste for
electricity generation
Follow of recommended treatment
of biomedical waste as per norms
References
� http://www. googlemap.com
� http://www.imd.gov.in
� http://www.census2011.co.in/census/district/Nagpur.html
� http://nmcnagpur.gov.in/
Sources:� Nagpur Municipal Corporation
� Fire Department, NMC Nagpur
� Health Department, NMC� Health Department, NMC
� Department of Birth & Death, NMC
� Pench Project Cell, NMC
� Water Work Department, NMC
� Garden Department, NMC
� Lighting Department, NMC
� Slum Department ,NMC
� Department of Town Planing, NMC
� City Engineer, NMC
� Regional Transport Office, Nagpur
� (MPCB) Maharashtra Pollution Control Board, Nagpur.
ABOUT US
Vidharbha Enviro Protection Ltd
Environmental Laboratory
Environement & Clean Energy Division - Today
CHWTSDF MSW STPBMW CETP
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� Operational Projects at Delhi, Mumbai, Kolkata, Nagpur, Aurangabad, Lucknow,
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ICER-2011