Bharat stage emission standards (BSES) are emission standards instituted by the Government of India to regulate the output of air pollutants from compression ignition engines and Spark-ignition engines equipment, including motor vehicles. The standards and the timeline for implementation are set by the Central Pollution Control Board under the Ministry of Environment, Forest and Climate Change. [1]
The standards, based on European regulations were first introduced in 2000. Progressively stringent norms have been rolled out since then. All new vehicles manufactured after the implementation of the norms have to be compliant with the regulations. [2] Since October 2010, Bharat Stage (BS) III norms have been enforced across the country. In 13 major cities, Bharat Stage IV emission norms have been in place since April 2010 [3] and it has been enforced for entire country since April 2017. In 2016, the Indian government announced that the country would skip the BS V norms altogether and adopt BS VI norms by 2020. [4] In its recent judgment, the Supreme Court has banned the sale and registration of motor vehicles conforming to the emission standard Bharat Stage IV in the entire country from 1 April 2020. [5]
On 15 November 2017, the Petroleum Ministry of India, in consultation with public oil marketing companies, decided to bring forward the date of BS VI grade auto fuels in NCT of Delhi with effect from 1 April 2018 instead of 1 April 2020. In fact, Petroleum Ministry OMCs were asked to examine the possibility of introduction of BS VI auto fuels in the whole of NCR area from 1 April 2019. This huge step was taken due to the heavy problem of air pollution faced by Delhi which became worse around 2019. The decision was met with disarray by the automobile companies as they had planned the development according to roadmap for 2020.
The phasing out of 2-stroke engine for two wheelers, the cessation of production of the Maruti 800, and the introduction of electronic controls have been due to the regulations related to vehicular emissions. [6]
While the norms help in bringing down pollution levels, it invariably results in increased vehicle cost due to the improved technology and higher fuel prices. However, this increase in private cost is offset by savings in health costs for the public, as there is a lesser amount of disease-causing particulate matter and pollution in the air. Exposure to air pollution can lead to respiratory and cardiovascular diseases, which is estimated to be the cause for 6,20,000 early deaths in 2010, and the health cost of air pollution in India has been assessed at 3% of its GDP.[ citation needed ]
To regulate the pollution emitted by cars and two-wheelers, the Government of India has placed forth regulations known as Bharat Stage Emission Standards (BSES). The Central Government has mandated that every vehicle manufacturer, both two-wheels and four-wheels, ought to manufacture, sell and register solely BS6 (BSVI) vehicles from 1 April 2020.
Both BSIV and BSVI area unit emission norms that set the most permissible levels for pollutants emitting from an automotive or a two-wheeler exhaust. Compared to the BS4, BS6 emission standards area unit stricter, whereas makers use this variation to update their vehicles with new options and safety standards, the largest or the numerous modification comes within the type of stricter permissible emission norms. [7]
The below table offers Associate in Nursing insight into the modification within the permissible emission levels of BS6 vehicles compared to BS4 vehicles:
Fuel Type | Pollutant Gases | BS6 (BSVI) | BS4 (BSIV) |
---|---|---|---|
Petroleum Distillate Vehicle | Nitrogen Oxide (NOx) Limit | 60 mg | 80 mg |
Particulate Matter (PM) Limit | 4.5 mg/km | - | |
Diesel Fuel Vehicle | Nitrogen Oxide (NOx) Limit | 80 mg | 250 mg |
Particulate Matter (PM) Limit | 4.5 mg/km | 25 mg | |
HC + NOx | 170 mg/km | 300 mg |
These area unit emission standards set by Bharat Safety Emission commonplace (BSEB) to manage the output of pollutants from vehicles plying on the road. The Central Pollution Control Board, under the Ministry of Environment, Forest and Climate Change (Mo.E.F.C.C.), sets the permissible pollution levels and timeline to implement an equivalent by vehicle makers.
The abbreviation of Bharat Stage is 'BS' suffixed with the iteration of the stage of emission norms, similar to how European emissions standards are named. The initial BSI (BS1) standard was first introduced in mid 1999, with the second and third iteration first introduced in mid 2000 and 2005 named BSII (BS2) and BSIII (BS3), respectively.
The fourth iteration BSIV or BS4 was introduced in 2017, and therefore the delay between the introduction of BS3 and BS4 resulted in the fast-tracking of the BSVI or BS6 standards by skipping the BSV (BS5) norms. Each of the regulations have stricter emission standards compared to its predecessors.
The first emission norms were introduced in India in 1991 for petroleum distillate, and 1992 for diesel vehicles. These were followed by making the Catalytic converter mandatory for petrol vehicles and the introduction of unleaded petrol in the market. [8]
On 29 April 1999, the Supreme Court of India ruled that all vehicles in India have to meet Euro I or India 2000 norms by 1 June 1999 and Euro II will be imperative in the NCR by 1 April 2000. Car makers were not prepared for this transition and in a subsequent judgement the implementation date for Euro II was not enforced. [9] [10]
In 2002, the Indian Government accepted the report submitted by the Mashelkar committee. The committee proposed a road map for the roll-out of Euro based emission norms for India. It also recommended a phased implementation of future norms with the regulations being implemented in major cities first and extended to the rest of the country after a few years. [11]
Based on the recommendations of the committee, the National Auto Fuel policy was announced officially in 2003. The roadmap for implementation of the Bharat stage norms were laid out until 2010. The policy also created guidelines for auto fuels, reduction of pollution from older vehicles and R&D for air quality data creation and health administration. [12]
Standard | Reference | Year | Region |
---|---|---|---|
India 2000 / Bharat Stage I | Euro 1 | 2000 | Nationwide |
Bharat Stage II | Euro 2 | 2001 | NCR*, Mumbai, Kolkata, Chennai |
2003 | NCR*, 14 Cities† | ||
2005 | Nationwide | ||
Bharat Stage III | Euro 3 | 2005-04 | NCR*, 14 Cities† |
2010 | Nationwide | ||
Bharat Stage IV | Euro 4 | 2010 | NCR*, 14 Cities† |
2017 | Nationwide | ||
Bharat Stage V | Euro 5 | (Skipped) | |
Bharat Stage VI | Euro 6 | 2018 | Delhi |
2019 | NCR* | ||
2020 [13] | Nationwide | ||
* National Capital Region (Delhi) † Mumbai, Kolkata, Chennai, Bengaluru, Hyderabad, Ahmedabad, Pune, Surat, Kanpur, Lucknow, Jamshedpur, Agra and Guwahati |
The above standards apply to all new 4-wheeled vehicles sold and registered in the respective regions. In addition, the National Auto Fuel Policy introduces certain emission requirements for interstate buses with routes originating or terminating in Delhi or the other 10 cities.
Progress of emission standards for 2-and 3-wheeled vehicles: [14]
Standard | Reference | Date |
---|---|---|
Bharat Stage II | Euro 2 | 1 April 2000 |
Bharat Stage III | Euro 3 | 1 April 2010 |
Bharat Stage IV | Euro 4 | 1 April 2017 |
Bharat Stage VI | Euro 6 | 1 April 2020 with mandate [15] |
In order to comply with the BSIV norms, 2- and 3-wheeler manufacturers will have to fit an evaporative emission control unit, which should lower the amount of fuel that is evaporated when the motorcycle is parked.
Emission standards for new heavy-duty diesel engines—applicable to vehicles of GVW > 3,500 kg—are listed in Table 3.
Year | Reference | Test | CO | HC | NOx | PM |
---|---|---|---|---|---|---|
1992 | – | ECE R49 | 17.3–32.6 | 2.7–3.7 | – | – |
1996 | – | ECE R49 | 11.20 | 2.40 | 14.4 | – |
2000 | Euro I | ECE R49 | 4.5 | 1.1 | 8.0 | 0.36* |
2005† | Euro II | ECE R49 | 4.0 | 1.1 | 7.0 | 0.15 |
2010† | Euro III | ESC | 2.1 | 0.66 | 5.0 | 0.10 |
ETC | 5.45 | 0.78 | 5.0 | 0.16 | ||
2010‡ | Euro IV | ESC | 1.5 | 0.46 | 3.5 | 0.02 |
ETC | 4.0 | 0.55 | 3.5 | 0.03 | ||
* 0.612 for engines below 85 kW † Earlier introduction in selected regions, see Table 1. ‡ Only in selected regions, see Table 1. |
More details on Euro I–III regulations can be found in the EU heavy-duty engine standards.
Emission standards for light-duty diesel vehicles (GVW ≤ 3,500 kg) are summarised in Table 4. Ranges of emission limits refer to different classes (by reference mass) of light commercial vehicles; comparable to EU light-duty vehicle emission standards. The lowest limit in each range applies to passenger cars (GVW ≤ 2,500 kg; up to 6 seats).
Year | Reference | CO | HC | HC+NOx | NOx | PM |
---|---|---|---|---|---|---|
1992 | – | 17.3–32.6 | 2.7–3.7 | – | – | – |
1996 | – | 5.0–9.0 | – | 2.0–4.0 | – | – |
2000 | Euro 1 | 2.72–6.90 | – | 0.97–1.70 | 0.14–0.25 | – |
2005† | Euro 2 | 1.0–1.5 | – | 0.7–1.2 | 0.08–0.17 | – |
2010† | Euro 3 | 0.64 0.80 0.95 | – | 0.56 0.72 0.86 | 0.50 0.65 0.78 | 0.05 0.07 0.10 |
2010‡ | Euro 4 | 0.50 0.63 0.74 | – | 0.30 0.39 0.46 | 0.25 0.33 0.39 | 0.025 0.04 0.06 |
† Earlier introduction in selected regions, see Table 1. ‡ Only in selected regions, see Table 1. |
The test cycle has been the ECE + EUDC for low power vehicles (with maximum speed limited to 90 km/h). Before 2000, emissions were measured over an Indian test cycle.
Engines for use in light-duty vehicles can be also emission tested using an engine dynamo-meter. The respective emission standards are listed in Table 5.
Year | Reference | CO | HC | NOx | PM |
---|---|---|---|---|---|
1992 | – | 14.0 | 3.5 | 18.0 | – |
1996 | – | 11.20 | 2.40 | 14.4 | – |
2000 | Euro I | 4.5 | 1.1 | 8.0 | 0.36* |
2005† | Euro II | 4.0 | 1.1 | 7.0 | 0.15 |
* 0.612 for engines below 85 kW † Earlier introduction in selected regions, see Table 1. |
Emissions standards for petrol vehicles (GVW ≤ 3,500 kg) are summarised in Table 6. Ranges of emission limits refer to different classes of light commercial vehicles (comparable to EU light-duty vehicle emission standards). The lowest limit in each range applies to passenger cars (GVW ≤ 2,500 kg; up to 6 seats).
Year | Reference | CO | HC | HC+NOx | NOx |
---|---|---|---|---|---|
1991 | – | 14.3–27.1 | 2.0–2.9 | – | |
1996 | – | 8.68–12.4 | – | 3.00–4.36 | |
1998* | – | 4.34–6.20 | – | 1.50–2.18 | |
2000 | Euro 1 | 2.72–6.90 | – | 0.97–1.70 | |
2005† | Euro 2 | 2.2–5.0 | – | 0.5–0.7 | |
2010† | Euro 3 | 2.3 4.17 5.22 | 0.20 0.25 0.29 | – | 0.15 0.18 0.21 |
2010‡ | Euro 4 | 1.0 1.81 2.27 | 0.1 0.13 0.16 | – | 0.08 0.10 0.11 |
* For catalytic converter fitted vehicles. † Earlier introduction in selected regions, see Table 1. ‡ only in selected regions, see Table 1. |
Petrol vehicles must also meet an evaporative (SHED) limit of 2 g/test (effective 2000).
Emission standards for 2- and 3-wheeled petrol vehicles are listed in the following tables. [16]
Year | CO | HC | HC+NOx |
---|---|---|---|
1991 | 12–30 | 8–12 | – |
1996 | 6.75 | – | 5.40 |
2000 | 4.00 | – | 2.00 |
2005 (BS II) | 2.25 | – | 2.00 |
2010-04 (BS III) | 1.25 | – | 1.25 |
Year | CO | HC | HC+NOx |
---|---|---|---|
1991 | 12–30 | 8–12 | – |
1996 | 5.50 | – | 3.60 |
2000 | 2.00 | – | 2.00 |
2005 (BS II) | 1.5 | – | 1.5 |
2010-04 (BS III) | 1.0 | – | 1.0 |
Year | CO | HC+NOx | PM |
---|---|---|---|
2005-04 | 1.00 | 0.85 | 0.10 |
2010-04 | 0.50 | 0.50 | 0.05 |
India's auto sector accounts for about 18% of the total CO2 emissions in the country. Relative CO2 emissions from transport have risen rapidly in recent years, but like the EU, currently there are no standards for CO2 emission limits for pollution from vehicles.
As per Bharat Stage-6 norms, the emission of carbon monoxide is to be reduced by 30% and NOx by 80%. The BS-6 norms also sets limits for Hydrocarbon and particulate emissions, which were not specified in earlier norms. To meet the emission requirements of Bharat Stage-6, the carburetors in petrol engines need to be replaced by the programmed fuel injectors. To further reduce tail pipe emissions, the exhaust system would be fitted with three way catalytic converters. The norms also mandates On-Board Diagnostic System (OBD) for all BS-6 compliant vehicles. [19]
As per the Bharat Stage-6 norms, the NOx emissions from a diesel engines are to be reduced by 70% and particulates by 80%. To achieve this, the engines need to be equipped with Euro-6 compliant technologies. The major technical changes to associated with this are:
There is also no provision to make the CO2 emissions labelling mandatory on cars in the country. A system exists in the EU to ensure that information relating to the fuel economy and CO2 emissions of new passenger cars offered for sale or lease in the Community is made available to consumers to enable consumers to make an informed choice.
Emission standards for diesel construction machinery were adopted on 21 September 2006. The standards are structured into two tiers:
The standards are summarised in the following table:
The limit values apply for both type approval (TA) and conformity of production (COP) testing. Testing is performed on an engine dynamo-meter over the ISO 8178 C1 (8-mode) and D2 (5-mode) test cycles. The Bharat Stage III standards must be met over the useful life periods shown in Table 11. Alternatively, manufacturers may use fixed emission deterioration factors of 1.1 for CO, 1.05 for HC, 1.05 for NOx, and 1.1 for PM.
Power rating | Useful life period | |
---|---|---|
hours | ||
< 19 kW | 3,000 | |
19–37 kW | Constant speed | 3,000 |
Variable speed | 5,000 | |
> 37 kW | 8,000 |
Emission standards for diesel agricultural tractors are summarised in Table 12.
Engine power | Date | CO | HC | HC+NOx | NOx | PM |
---|---|---|---|---|---|---|
kW | g/kW⋅h | |||||
Bharat (Trem) Stage I | ||||||
All | 1999-10 | 14.0 | 3.5 | - | 18.0 | - |
Bharat (Trem) Stage II | ||||||
All | 2003-06 | 9.0 | - | 15.0 | - | 1.00 |
Bharat (Trem) Stage III | ||||||
All | 2005-10 | 5.5 | - | 9.5 | - | 0.80 |
Bharat (Trem) Stage III A | ||||||
P < 8 | 2010-04 | 5.5 | - | 8.5 | - | 0.80 |
8 ≤ P < 19 | 2010-04 | 5.5 | - | 8.5 | - | 0.80 |
19 ≤ P < 37 | 2010-04 | 5.5 | - | 7.5 | - | 0.60 |
37 ≤ P < 56 | 2011-04 | 5.0 | - | 4.7 | - | 0.40 |
56 ≤ P < 75 | 2011-04 | 5.0 | - | 4.7 | - | 0.40 |
75 ≤ P < 130 | 2011-04 | 5.0 | - | 4.0 | - | 0.30 |
130 ≤ P < 560 | 2011-04 | 3.5 | - | 4.0 | - | 0.20 |
Emissions are tested over the ISO 8178 C1 (8-mode) cycle. For Bharat (Trem) Stage III A, the useful life periods and deterioration factors are the same as for Bharat (CEV) Stage III, Table 11.
Emissions from new diesel engines used in generator sets have been regulated by the Ministry of Environment and Forests, Government of India [GSR 371 (E), 17 May 2002]. The regulations impose type approval certification, production conformity testing and labelling requirements. Certification agencies include the Automotive Research Association of India (ARAI) and the Vehicle Research and Development Establishment (VRDE). The emission standards are listed below.
Engine power (P) | Date | CO | HC | NOx | PM | Smoke |
---|---|---|---|---|---|---|
g/kWh | 1/m | |||||
P ≤ 19 kW | 2004-01 | 5.0 | 1.3 | 9.2 | 0.6 | 0.7 |
2005-07 | 3.5 | 1.3 | 9.2 | 0.3 | 0.7 | |
19 kW < P ≤ 50 kW | 2004-01 | 5.0 | 1.3 | 9.2 | 0.5 | 0.7 |
2004-07 | 3.5 | 1.3 | 9.2 | 0.3 | 0.7 | |
50 kW < P ≤ 176 kW | 2004-01 | 3.5 | 1.3 | 9.2 | 0.3 | 0.7 |
176 kW < P ≤ 800 kW | 2004-11 | 3.5 | 1.3 | 9.2 | 0.3 | 0.7 |
Engines are tested over the 5-mode ISO 8178 D2 test cycle. Smoke opacity is measured at full load.
Date | CO | NMHC | NOx | PM |
---|---|---|---|---|
mg/N⋅m3 | mg/N⋅m3 | ppm(v) | mg/N⋅m3 | |
Until 2003-06 | 150 | 150 | 1100 | 75 |
2003-07 – 2005-06 | 150 | 100 | 970 | 75 |
2005-07 | 150 | 100 | 710 | 75 |
Concentrations are corrected to dry exhaust conditions with 15% residual O2.
The emission standards for thermal power plants in India are being enforced based on Environment (Protection) Act, 1986 of Government of India and its amendments from time to time. [21] A summary of emission norms for coal- and gas-based thermal power plants is given in Tables 15 and 16.
Capacity | Pollutant | Emission limit |
---|---|---|
Coal based thermal plants | ||
Below 210 MW | Particulate matter (PM) | 350 mg/N⋅m3 |
210 MW and above | 150 mg/N⋅m3 | |
500 MW and above | 50 mg/N⋅m3 | |
Gas based thermal plants | ||
400 MW and above | NOX(V/V at 15% excess oxygen) | 50 PPM for natural gas; 100 PPM for naphtha |
Below 400 MW and up to 100 MW | 75 PPM for natural gas; 100 PPM for naphtha | |
Below 100 MW | 100 PPM for naphtha/natural gas | |
For conventional boilers | 100 PPM |
Power generation capacity | Stack height (m) |
---|---|
Less than 200/210 MWe | H = 14 (Q)0.3 where Q is emission rate of SO2 in kg/h, H = Stack height in metres |
200/210 MWe or less than 500 MWe 200 | 200 |
500 MWe and above | 275 (+ Space provision for FGD systems in future) |
The norm for 500 MW and above coal-based power plant being practised is 40 to 50 mg/N⋅m and space is provided in the plant layout for super thermal power stations for installation of flue gas desulfurisation (FGD) system. But FGD is not installed, as it is not required for low sulphur Indian coals while considering SOx emission from individual chimney.
In addition to the above emission standards, the selection of a site for a new power plant has to maintain the local ambient air quality as given in Table 17.
Category | Concentration (g/m3) | |||
---|---|---|---|---|
SPM | SOx | CO | NOx | |
Industrial and mixed-use | 500 | 120 | 5,000 | 120 |
Residential and rural | 200 | 80 | 2,000 | 80 |
Sensitive | 100 | 30 | 1,000 | 30 |
Existing air quality | Recommendation |
---|---|
SOx> 100 μg/m3 | No project |
SOx = 100 μg/m3 | Polluted area, max from a project 100 t/day |
SOx< 50 μg/m3 | Unpolluted area, max from a project 500 t/day |
However the norms for SOx are even stricter for selection of sites for World Bank funded projects (refer Table 18). For example, if SOx level is higher than 100 μg/m3, no project with further SOx emission can be set up; if SOx level is 100 μg/m3, it is called polluted area and maximum emission from a project should not exceed 100 t/day; and if SOx is less than 50 μg/m3, it is called unpolluted area, but the SOx emission from a project should not exceed 500 t/day. The stipulation for NOx emission is that its emission should not exceed 260 g of NOx/GJ of heat input.
In view of the above, it may be seen that improved environment norms are linked to financing and are being enforced by international financial institutions and not by the policies/laws of land.
Fuel quality plays a very important role in meeting the stringent emission regulation.
The fuel specifications of petrol and diesel have been aligned with the Corresponding European Fuel Specifications for meeting the Euro II, Euro III and Euro IV emission norms.
The BS IV grade fuel was introduced in 2010 and is available in 39 cities, as reported in 2016. The rest of the country has to make do with BS III fuel. [22]
The use of alternative fuels has been promoted in India both for energy security and emission reduction. Delhi and Mumbai have more than 100,000 commercial vehicles running on CNG fuel. Delhi has the largest number of CNG commercial vehicles running anywhere in the World. India is planning to introduce Bio-diesel, ethanol petrol blends in a phased manner and has drawn up a road map for the same. The Indian auto industry is working with the authorities to facilitate for introduction of the alternative fuels. India has also set up a task force for preparing the Hydrogen road map. The use of LPG has also been introduced as an auto fuel and the oil industry has drawn up plans for setting up of auto LPG dispensing stations in major cities.
Serial no. | Characteristics | Unit | BS 2 | BS 3 | BS 4 | BS 6 | BS 7 |
---|---|---|---|---|---|---|---|
1 | Density 15 °C | kg/m3 | 710–770 | 720–775 | 720–775 | 720-775 | |
2 | Distillation | ||||||
3 | a) Recovery up to 70 °C (E70) b) Recovery up to 100 °C (E100) c) Recovery up to 180 °C (E180) d) Recovery up to 150 °C (E150) e) Final boiling point (FBP), max f) Residue max | % volume % volume % volume % volume °C % volume | 10–45 40–70 90 - 210 2 | 10–45 40–70 - 75 min 210 2 | 10–45 40–70 - 75 min 210 2 | ||
4 | Research Octane Number (RON), min | 88 | 91 | 91 | |||
5 | Anti-Knock Index (AKI)/ MON, min | 84 (AKI) | 81 (MON) | 81 (MON) | |||
6 | Sulphur, total, max | % mass | 500 mg/kg | 150 mg/kg | 50 mg/kg | 10 mg/kg | |
7 | Lead content (as Pb), max | 200 | 61.05 | 2.005 | 16.005 | ||
8 | Reid vapour pressure (RVP), max | kPa | 35–60 | 60 | 60 | ||
9 | Benzene content, max a) For metros b) For the rest | % volume | - 3 5 | 1 | 1 | ||
10 | Olefin content, max | % volume | - | 21 | 21 | ||
11 | Aromatic content, max | % volume | - | 42 | 35< |
Serial no. | Characteristic | BS II | BS III | BS IV | BS V | BS VI |
---|---|---|---|---|---|---|
1 | Density kg/m3 15 °C | 820-800 | 820–845 | 820–845 | ||
2 | Sulphur content mg/kg max | 500 | 350 | 50 | 10 | 10 |
3(a) 3(b) | Cetane number minimum and / or Cetane index | 48 or 46 | 51 and 46 | 51 and 46 | ||
4 | Polycyclic aromatic hydrocarbon | - | 11 | 11 | ||
5 (a) (b) (c) | Distillation Reco min at 350 °C Reco min at 370 °C 95% vol. reco at 0 °C | 85 95 - | - - 360 | - - 360 |
Date | Particulars |
---|---|
1995 | Cetane number: 45; Sulphur: 1% |
1996 | Sulphur: 0.5% (Delhi + selected cities) |
1998 | Sulphur: 0.25% (Delhi) |
1999 | Sulphur: 0.05% (Delhi, limited supply) |
2000 | Cetane number: 48; Sulfur: 0.25% (Nationwide) |
2001 | Sulphur: 0.05% (Delhi + selected cities) |
2005 | Sulphur: 350 ppm (Euro 3; selected areas) |
2010 | Sulphur: 350 ppm (Euro 3; nationwide) |
2016 | Sulphur: 50 ppm (Euro 4; major cities) |
2017 | Sulphur: 50 ppm (Euro 4; nationwide) |
2020 | Sulphur: 10ppm (Euro 6; entire country) |
Serial no. | Characteristics | Requirement | Method of test, ref. to | |
---|---|---|---|---|
Other methods | [P:] of IS 1448 | |||
(1) | (2) | (3) | (4) | (5) |
i. | Density at 15 °C, kg/m3 | 860–900 | ISO 3675 | P:16/ |
ISO 12185 | P:32 | |||
ASTM | ||||
ii. | Kinematic viscosity at 40 °C, cSt | 2.5–6.0 | ISO 3104 | P:25 |
iii. | Flash point (PMCC) °C, min | 120 | P:21 | |
iv. | Sulphur, mg/kg max | 50.0 | ASTM D 5453 | P:83 |
v | Carbon residue (Ramsbottom)*, % by mass, max | 0.05 | ASTM D 4530ISO 10370 | - |
vi. | Sulfated ash, % by mass, max | 0.02 | ISO 6245 | P:4 |
vii. | Water content, mg/kg, max | 500 | ASTM D 2709 | P:40 |
ISO 3733 | ||||
ISO 6296 | ||||
viii | Total contamination, mg/kg, max | 24 | EN 12662 | - |
ix | Cu corrosion, 3 h at 50 °C, max | 1 | ISO 2160 | P:15 |
x | Cetane no., min | 51 | ISO 5156 | P:9 |
xi | Acid value, mg KOH/g, max | 0.50 | - | P:1 / Sec 1 |
xii | Methanol @, % by mass, max | 0.20 | EN 14110 | - |
xiii | Ethanol, @@ % by mass, max | 0.20 | - | |
xiv | Ester content, % by mass, min | 96.5 | EN 14103 | - |
xv | Free glycerol, % by mass, max | 0.02 | ASTM D 6584 | - |
xvi | Total glycerol, % by mass, max | 0.25 | ASTM D 6584 | - |
xvii | Phosphorus, mg/kg, max | 10.0 | ASTMD 4951 | - |
xviii | Sodium and Potassium, mg/kg, max | To report | EN 14108 & | - |
EN 14109 | - | |||
xix | Calcium and magnesium, mg/kg, max | To report | ** | - |
xx | Iodine value | To report | EN 14104 | - |
xxi | Oxidation stability, at 110 °C h, min | 6 | EN 14112 | - |
* Carbon residue shall be run on 100% sample ** European method is under development |
Presently, all vehicles need to undergo a periodic emission check (3 months/ 6 months/ 1 year) at PUC centres, fuel stations and private garages which are authorized to check the vehicles. In addition, transport vehicles need to undergo an annual fitness check carried out by RTOs for emissions, safety and road-worthiness.
The objective of reducing pollution is not achieved to a large extent by the present system. Some reasons for this are:
The Bharat stage norms have been styled to suit specific needs and demands of Indian conditions. The differences lie essentially in environmental and geographical needs, even though the emission standards are exactly the same.
For instance, Euro III is tested at sub-zero temperatures in European countries. In India, where the average annual temperature ranges between 24 and 28 °C, the test is done away with.
Another major distinction is in the maximum speed at which the vehicle is tested. A speed of 90 km/h is stipulated for BS III, whereas it is 120 km/h for Euro III, keeping emission limits the same in both cases
In addition to limits, test procedure has certain finer points too. For instance, the mass emission test measurements done in g/km on a chassis dynamometer requires a loading of 100 kg weight in addition to unloaded car weight in Europe. In India, BS III norms require an extra loading of 150 kg weight to achieve the desired inertia weight mainly due to road conditions here. [23]
Various groups and agencies have criticized the government and urged the government of India to draft mandatory fuel efficiency standards for cars in the country, or at least to make the CO2 emissions labelling mandatory on all new cars in the country. The auto companies should inform the customers about a vehicle's emissions. [24]
For the emission standards to deliver real emission reductions it is crucial that the test cycles under which the emissions have to comply as much as possible reflect normal driving situations. It was discovered that manufacturers of engine would engage in what was called 'cycle beating' to optimize emission performance to the test cycle, while emissions from typical driving conditions would be much higher than expected, undermining the standards and public health. In one particular instance, research from two German technology institutes found that for diesel cars no 'real' NOx reductions have been achieved after 13 years of stricter standards. [25]
In India, the rules and regulations related to driving licenses, registration of motor vehicles, control of traffic, construction and maintenance of motor vehicles, etc. are governed by the Motor Vehicles Act 1988 (MVA) and the Central Motor Vehicles rules 1989 (CMVR). The Ministry of Shipping, Road Transport & Highways (MoSRT&H) acts as a nodal agency for formulation and implementation of various provisions of the Motor Vehicle Act and CMVR. [26]
To involve all stake holders in regulation formulation, MoSRT&H has constituted two Committees to deliberate and advise Ministry on issues relating to Safety and Emission Regulations, namely –
This Committee advises MoSRT&H on various technical aspects related to CMVR. This committee has representatives from various organisations namely; Ministry of Heavy Industries & Public Enterprises (MoHI&PE)), MoSRT&H, Bureau Indian Standards (BIS), Testing Agencies such as Automotive Research Association of India (ARAI), International Centre for Automotive Technology (ICAT - www.icat.in), Vehicle Research Development & Establishment (VRDE), Central Institute of Road Transport (CIRT), industry representatives from Society of Indian Automobile Manufacturers (SIAM), Automotive Component Manufacturers Association (ACMA) and Tractor Manufacturers Association (TMA) and representatives from State Transport Departments. Major functions the committee are:
CMVR-TSC is assisted by another Committee called the Automobile Industry Standards Committee (AISC) having members from various stakeholders in drafting the technical standards related to Safety. The major functions of the committee are as follows:
The National Standards for Automotive Industry are prepared by Bureau of Indian Standards (BIS). The standards formulated by AISC are also converted into Indian Standards by BIS. The standards formulated by both BIS and AISC are considered by CMVR-TSC for implementation.
This Committee deliberates the issues related to implementation of emission regulation. Major functions of this committee are –
Based on the recommendations from CMVR-TSC and SCOE, MoSRT&H issues notification for necessary amendments / modifications to the Central Motor Vehicle Rules.
In addition, the other Ministries like Ministry of Environment & Forest (MoEF), Ministry of Petroleum & Natural Gas (MoPNG) and Ministry of Non-conventional Energy Sources are also involved in formulation of regulations relating to Emissions, Noise, Fuels and Alternative Fuel vehicles.
A catalytic converter is an exhaust emission control device which converts toxic gases and pollutants in exhaust gas from an internal combustion engine into less-toxic pollutants by catalyzing a redox reaction. Catalytic converters are usually used with internal combustion engines fueled by gasoline or diesel, including lean-burn engines, and sometimes on kerosene heaters and stoves.
Vehicle emissions control is the study of reducing the emissions produced by motor vehicles, especially internal combustion engines.
Emission standards are the legal requirements governing air pollutants released into the atmosphere. Emission standards set quantitative limits on the permissible amount of specific air pollutants that may be released from specific sources over specific timeframes. They are generally designed to achieve air quality standards and to protect human life. Different regions and countries have different standards for vehicle emissions.
Exhaust gas or flue gas is emitted as a result of the combustion of fuels such as natural gas, gasoline (petrol), diesel fuel, fuel oil, biodiesel blends, or coal. According to the type of engine, it is discharged into the atmosphere through an exhaust pipe, flue gas stack, or propelling nozzle. It often disperses downwind in a pattern called an exhaust plume.
Diesel exhaust is the gaseous exhaust produced by a diesel type of internal combustion engine, plus any contained particulates. Its composition may vary with the fuel type or rate of consumption, or speed of engine operation, and whether the engine is in an on-road vehicle, farm vehicle, locomotive, marine vessel, or stationary generator or other application.
Ultra-low-sulfur diesel (ULSD) is diesel fuel with substantially lowered sulfur content. Since 2006, almost all of the petroleum-based diesel fuel available in Europe and North America has been of a ULSD type.
The New European Driving Cycle (NEDC) was a driving cycle, last updated in 1997, designed to assess the emission levels of car engines and fuel economy in passenger cars. It is also referred to as MVEG cycle.
The European emission standards are vehicle emission standards for pollution from the use of new land surface vehicles sold in the European Union and European Economic Area member states and the United Kingdom, and ships in EU waters. The standards are defined in a series of European Union directives staging the progressive introduction of increasingly stringent standards.
The Isuzu Panther is a line of multi-purpose vehicle and pickup truck manufactured by Isuzu from 1991 until 2020 and developed in Indonesia for the Southeast Asian market. The second generation Panther was also manufactured and marketed in India under the name Chevrolet Tavera, a name which is also used in Indonesia for the petrol version until 2005. It was developed together with General Motors as the "160 Project".
BlueTEC is Mercedes-Benz Group's marketing name for engines equipped with advanced NOx reducing technology for vehicle emissions control in diesel-powered vehicles. The technology in BlueTec vehicles includes a selective catalytic reduction (SCR) system that uses diesel exhaust fluid, and a system of NOx adsorbers the automaker calls DeNOx, which uses an oxidizing catalytic converter and diesel particulate filter combined with other NOx reducing systems.
Visakhapatnam Refinery, is one of the two oil refineries of HPCL in India, the other being Mumbai Refinery. This was one of the first major industries of Visakhapatnam and first oil refinery on the East Coast. After the nationalisation, HPCL has transformed itself into a mega Public Sector Undertaking and it is second largest integrated oil company in India.
The Hero Honda Splendor is an entry level motorcycle manufactured in India by Hero Honda. After Separation of Joint venture of Hero Honda, Now it is manufactured by Hero MotoCorp. It has an electronic ignition and a tubular double cradle type frame with a 97.2 cc (5.93 cu in) engine. The engine is based on the Honda Cub C100EX with a similar bore and stroke of 50 mm × 49.5 mm. As of 2009, Splendor models were selling at a rate of one million units per year.
A low-emission zone (LEZ) is a defined area where access by some polluting vehicles is restricted or deterred with the aim of improving air quality. This may favour vehicles such as bicycles, micromobility vehicles, (certain) alternative fuel vehicles, hybrid electric vehicles, plug-in hybrids, and zero-emission vehicles such as all-electric vehicles.
The Ford Figo is a subcompact hatchback manufactured by Ford India in its Chennai and Sanand plants. Based on the Mark V European Ford Fiesta hatchback, the Figo has been sold in emerging countries between March 2010 and 2021.
The Automotive Industry Standards are the automotive technical specifications of India. They are based on the UNECE norms.
The Volkswagen emissions scandal, sometimes known as Dieselgate or Emissionsgate, began in September 2015, when the United States Environmental Protection Agency (EPA) issued a notice of violation of the Clean Air Act to German automaker Volkswagen Group. The agency had found that Volkswagen had intentionally programmed turbocharged direct injection (TDI) diesel engines to activate their emissions controls only during laboratory emissions testing, which caused the vehicles' NOx output to meet US standards during regulatory testing. However, the vehicles emitted up to 40 times more NOx in real-world driving. Volkswagen deployed this software in about 11 million cars worldwide, including 500,000 in the United States, in model years 2009 through 2015.
A defeat device is any motor vehicle hardware, software, or design that interferes with or disables emissions controls under real-world driving conditions, even if the vehicle passes formal emissions testing. The term appears in the US Clean Air Act and European Union regulations, to describe anything that prevents an emissions control system from working, and applies as well to power plants or other air pollution sources, as to automobiles.
From 2014 onwards, software which manipulated air pollution tests was discovered in vehicles from some car makers; the software recognized when the standardized emissions test was being done, and adjusted the engine to emit less during the test. The cars emitted much higher levels of pollution under real-world driving conditions. Some cars' emissions were higher even though there was no manipulated software.
The Suzuki Dzire, known as the Suzuki Swift Sedan in Colombia and Guatemala, is a subcompact notchback sedan made by Suzuki mainly for the Indian market since 2008. It was developed as a sedan variation of the Swift hatchback.
Vehicles that are powered by fossil fuels, such as gasoline (petrol), diesel, kerosene, and fuel oil are set to be phased out by a number of countries. It is one of the three most important parts of the general fossil fuel phase-out process, the others being the phase-out of fossil fuel power plants for electricity generation and decarbonisation of industry.