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energy efficiency in pumps
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2
• Energy consumption in India is low
Indian Per capita energy consumption is 530 kgoe while world average is 1770
Per capita electricity consumption is 631.5 kWh against world average of 2500 kWh
Installed Indian Capacity 1,45000 MW (approx.)
Peak Load Electricity Supply Shortage 15%
Base Load Supply Shortage 9%
• Energy demand is increasing due to rising incomes, accelerated industrialization, urbanization and population growth
2003-‐04 : 572 Mtoe 2016-‐17 : 842-‐916 Mtoe
Per Capita Consumption of Electricity in India
Source: CEA
(Projected)
As per UN Methodology (Gross Electrical Energy Availability / Population)
Growth Pattern
Bureau of Energy Efficiency
Established in 2002, under the Energy Conservation Act, 2001. Improve energy efficiency through various regulatory and
promotional instruments Plan, manage and implement provisions the EC Act
Appliance standards and labeling Industrial energy benchmarks Energy Conservation Building Codes Monitor energy use in high energy-‐consumption units Certify and accredit energy auditors and energy managers
Provide a policy framework and direction to national energy conservation activities
Disseminate information and knowledge, and facilitate pilot and demonstration projects
Establish EE delivery systems through Public-‐Private Partnerships (PPP).
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Barriers of Energy Efficiency
Inadequate awareness about the benefits of energy conservation & efficiency
Lack of Innovative financial instruments
Lack of Information about comparative energy use – especially of appliances bought by retail consumers
Higher upfront cost of energy-‐efficient technologies
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• BEE is established to implement & monitor the Energy Conservation Act,
2001. The Act empowers Bureau and Central Government to specify Energy
Consumption Standards.
• The Standards and Labeling is a direct outcome of section 14 clause (a)-(d)
of the Energy Conservation Act,2001.
• BEE had launched S&L Scheme as voluntary basis under National Energy
Labeling Programme on 18th May 2006, covering Eleven Products phase
wise.
• EC act can Prohibit manufacturers for sale or import of equipments and
appliances that do not meet standards.
• Require display of Energy performance labels on equipments and appliances.
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EC Act 2001/Chapter –V Power of Central Govt. to Facilitate & Enforcement Efficient Use Of Energy & Its Conservation
Clause (14) ((a)to (d))
The Central Government may, by notification, in consultation with the Bureau-‐
• The Bureau shall recommend to the Central Government the norms for processes and energy consumption standards required to be notified under clause (a) of section 14.
• And recommend to the Central Government the particulars required to be displayed on label on equipment or on appliances and manner of their display under clause (d) of section 14.
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1.5 Sample Labels
Products covered under Indian S&L Program
Current List 1. Frost-free Refrigerators 2. Tubular Fluorescent Lamps (TFL) 3. Air-conditioners 4. Direct cool /Frost Free Refrigerators 5. Distribution Transformers 6. Motors 7. Pump sets 8. Ceiling fans 9. LPG Stoves 10. Colour TVs 11. Storage Water Geysers
Launched on 18th May 2006 , for 4 products by BEE
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Washing Machines Electronic Ballast Computer Monitors Kerosene Stoves Consumer Electronics Microwave ovens
Adaptive Defrost Commercial Freezers Visi Coolers Chocolate Coolers Chest Coolers Heat Pumps
Passenger Cars.
Industrial Fans & Blowers Diesel Generating sets Boilers Compressors
Home Appliances
Industrial Equipments
Uninterrupted Power Supply (UPS) External Power Supplies (EPS) Battery Chargers (BCs) Standby Power equipments
Refrigerator &AC Systems
Domestic and agricultural Consumers
Commercial consumers
Institutional and Government Purchases
Industrial Users
Electricity Generating, Transmitting, and Distributing companies
13
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Regulation:
• Policies & its framework • Standards & Labels to be made mandatory at appropriate time
Supply Push
• Design & technology developments • Align with international trends • Handholding of some segments of manufacturers
Demand Pull
• Awareness & dissemination • Demand for the EE products
Energy Efficiency
Ins$tu$onal frame work for regula$on
BIS – National Standards Body Formulation & Implementation of National Standards
Production certification, Quality system certification, EMS certification etc.
Bureau of Energy Efficiency (BEE) BEE is established to implement & monitor the Energy
Conservation Act, 2001
One of the key thrust areas of EC Act, 2001 is Standards &
Labeling Programme
Formulation of Energy Efficiency Standards.
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1.Rapid Growth of Energy
is predicted
2.Significant Variations in
Energy Efficiency of Different Units
3.Energy Efficient Technology
Exists but not being used in
Most of the products
Targeted cumula$ve savings during the year 2007-‐08 and 2008-‐09
17
Reduc$on in genera$on capacity obtained as a result of energy efficiency interven$ons during the financial
year 2008-‐09
18
3.5 BU in 2007-08 and 6.5 BU during 2008-09 is saved
Market Transforma$on: 2008-‐09
19
Non star 1 star 2 star 3 star 4 star 5 star Total
Refrigerators
% share 29.4 - 0.4 14.1 45.4 10.6 100
Units 1,616,824 - 24,605 774,301 2,498,729 585,541 5,500,000
ACs
% share 14.0 24.7 38.5 11.1 8.1 3.6 100
Units 349,140 617,405 962,793 277,489 203,316 89,856 2,500,000
Programme Electricity Saved (MUs)
Equivalent million MTOE
Avoided Thermal
Capacity (MW)
Total Fuel Saved (mtoe)
Standards and Labeling (07-08) 1425.8 0.48 260.4 0.48
Standards and Labeling(08-09)
2111 0.717 568 0.917
Importance of star labeling Meaning of star labeling %
Star labeling is useful for saving electricity 52
It saves energy 20
More star saves more power 19
Good quality product 13
It has more advance technology 5
It depends upon the number of stars in it 3
They told about power saving with star level products 3
Policy interventions
• Designated consumers, which are basically energy intensive industry, commercial buildings and establishments.
• Energy consumption standards and labeling program for equipment and appliances.
• Mandating of Energy Efficient equipments in Government Purchases.
• Making voluntary schemes for market transformation towards energy efficiency and mandating them later on.
• Creating compliance of energy efficiency policies through monitoring and verification.
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• The basic tenet of the mission is to ensure a sustainable growth by an appropriate mix of 4 E’s namely-‐ Energy, Efficiency, Equity and Environment.
• Promote development objectives, while also yielding co-‐benefits for addressing climate change effects.-‐Cost-‐ effective energy efficiency and energy conservation measures
• Potential to reduce energy consumption by Demand Side Management (DSM) of 15-‐25% (IEP: 2006)
• Market based approach to implementation of energy efficiency – market size of Rs. 14,000 crores estimated
Background/ Opportunities
24
Rural Electrification and Pump sets Electrified ( as of Feb, 2009)
25
Slide 26
Overview of India’s Agriculture Sector
• India’s agriculture sector consumes 22% of total electricity, up from 10% during the 1970’s • The agricultural tariff has not grown while average cost of supply of utilities is increasing at a fast pace • Free & flat HP based tariff plan for agriculture has been one of the factors contributing to inefficiencies and thereby high AT&C losses of the State Utilities
Equipment Annual electricity consumption of equipment GWh[1]
Annual sales of equipment in 2002-03 millions
Annual electricit
y consumption of
new stock
GWh[2]
Electricity consumption of new stock to total electricity %[3]
Estimated
improvement in efficienc
y of new stock %[4]
Annual
electricity
savings
GWh[5]
Organised
sector[6] %
Informal
sector[7] %
(1) (2) (3) (4) (5) (6) (7) (8) (9) Agricultural pump sets[8] 84,486 0.8 6,000 1.1 15 2,280 55 45
[8] Sample calculation for agricultural pump sets is given below. Similar estimates were made for other equipment. Column 4 = Annual electricity consumption of new stock = column 3 * 1500 hours per year * average 5 kWh consumption per hour = 6000 GWh Column 5 = Electricity consumption of new stock to total electricity = Column 4/ 562572 *100 = 1.1% Column 6= Estimated improvement in efficiency of new stock = 5kW pump replaced by 3.1 kW high efficiency pump delivering the same quantity of water = 100* (5-3.1)/5 = 38% Column 7 = Annual electricity savings = Column 4* column 6/100 = 2280 GWh
Sl. No.
Product detail Electrical pumps Range kW No. of Poles Applicable IS
1. 3 Phase open well submersible pump sets
1.1kW, 1.5kW, 2.2 kW, 3.0kW, 3.7 kW &
5.5 kW, 7.5kW, 9.3kW, 11kW, 15kW
2 Pole IS 14220:1994
2. 3 Phase submersible pump sets
1.1kW, 1.5kW, 2.2 kW, 3.0kW, 3.7 kW &
5.5 kW, 7.5kW, 9.3kW, 11kW, 15kW
2 Pole IS 8034:2002
3. 3 Phase Mono-set pumps 0.37kW, 0.75kW,1.1kW, 1.5kW, 2.2
kW, 3.0kW, 3.7 kW & 5.5 kW, 7.5kW,
9.3kW, 11kW, 15kW 2 Pole IS 9079:2002
Star Rating Overall Efficiency of the Pump Set*
(multiplying factor – times the BIS value)
1 Star >=1.00 & <1.05
2 Star >=1.05 & <1.10 3 Star >=1.10 & <1.15 4 Star >=1.15 & <1.20 5 Star >=1.20
*Overall efficiency of the pump set is including the efficiency factor for induction motors. The overall efficiency is calculated as per IS 14220:1998, IS 8340:2002 and IS 9079: 2002 for pump sets and IS 12615: 2004, IS: 4029 – 1967, IS 325: 1996 for induction motors.
Slide 30
Opportunity / PotenDal in Ag DSM
• DSM in Agriculture provides immense opportunity in Reducing the overall power consumption Improving efficiencies of ground water extraction Reducing the subsidy burden of the states without sacrificing the service obligation to the sector
• Most of the pilot projects as well as other studies project potential of 45-‐50% by mere replacement of inefficient pumps • Overall electricity savings (from 20 million pumps) is estimated at 62.1 billion units annually
Slide 31
ObjecDves of the Scheme To create appropriate framework for market based interventions in agricultural pumping sector through Public Private Partnership (PPP) mode Intended Outcomes of Programme
Shelf of bankable DPRs (one in each State) to stimulate the market Business model through ESCO mode Baseline development, conducive regulatory regime and security
mechanism Awareness and outreach to the local farmers and utility employees Risk Mitigation Measures to encourage PPP CDM benefits for the scheme
Slide 32
Steps Involved Selection of States
To rank states for implementation of Ag-‐DSM based on Framework developed
Attributes to rank the states
Connected load, percentage consumption by agricultural sector, status of feeder separation, AT&C Losses, Power sector performance rating by PFC
Selection of Feeders for DPR preparation
To identify eligible feeders for DPR preparation
Criteria for feeder selection
No of connected pump sets, HVDS implementation, Dependability on ground water extraction, measurable baseline 12
Slide 33
Steps Involved Engagement of Consultants for DPR preparation
DPR to be prepared to estimate energy saving potential along with clear baseline
Organization of workshops and Seminars
Awareness generation and capacity building for utility employees and farmers
Develop a model for Project Implementation
Identify risk mitigation measures and ring fencing of risks in Ag DSM projects
Engagement of ESCO/Discom for implementation of DPR
Replacement of existing pump sets with energy efficient ones 13
Business Model for AgDSM project (ESCO mode)
Consumers
Farmer
Government / Regulatory Commission
• Reduction in Subsidy payments • Policy Guidelines and Approvals • Inclusion in Annual Revenue
Requirement
• Sale of saved energy to other consumers
• Free Energy Efficient Pump set • Reduced Energy Bills • Free Maintenance • Quality Power Supply
Monitoring Agency
Third Party Testing Agreement
Utility / Discom
• Improved power delivery (Reliability & Quality)
• Improved Collection efficiency • Reduced Losses and Peak Load • Subsidy Reduction due to saved energy
ESCO
Design / Installation / Commissioning & O&M
• Capital for Installation of new pumps • Demonstrate the energy savings • Payment on Shared saving model • Repair and Maintenance
Payment Security Package
Pump
Policy guidelines & Approvals
Electricity sales
Slide 35
Risks in Ag DSM Project • Risks factors outside the ESCO’s control
Farmer behaviour Amount of land under irrigation Cropping patterns Water table declines Weather and rainfall
• These factors cause energy loads to vary, even if the technical performance of the ESCO’s installed systems perform as specified • Variation in power quality affect pump performance, useful life and maintenance and replacement costs • ESCOs and their lenders may not be able to accept full exposure to such uncontrollable risks
Slide 36
Deemed Savings Approach • From the point of view of ESCO and its lender, a stipulated savings protocol (Deemed Savings Approach) may be appropriate
• Demonstration of performance (measure input power) of a sample of pump sets before and after the project in order to estimate savings for each category and size of pump set
• This information would then be used to stipulate savings for the entire project area based on fixed hours of operation of pump sets (around 1600)
• Periodic demonstration of pump set efficiencies during the course of the contract period
• Even if Deemed savings approach is used to determine payments to the ESCO, the Discom can implement measured savings approach (Monitoring and Verification) for all the feeders to gather the most accurate savings
Slide 37
Benefits to different Stakeholders
DISCOM • Reduction in technical
and commercial loss levels
• Increase in reliability of the power supply
• Improved power supply quality
• Supply to more number of consumers without increase in the demand
• 50 % subsidy for HVDS implementation (Part B) under R-APDRP once AT&C loss level of 15 % is achieved
• Additional CDM benefits could be availed for HVDS
FARMERS • Free of cost BEE Star
labeled pump set will be provided
• Negligible maintenance cost during the warranty period
• Reduction in monthly energy bills due to 30 % of energy saved
• Power supply with better quality and less time for same water discharge
• Availability of trained local specialists to handle maintenance and repair of energy efficient pump sets
STATE GOVERNMENT • Mitigation of Demand
Supply Gap • Sustainable Development • Reduced Energy Intensity
per GDP • Additional investment in
new power plants could be avoided
• Reduction in subsidy to Discom
Slide 38
Roles and responsibiliDes of different Stakeholders
DISCOM • Ensure quality of supply
by Implementing HVDS • Ensure necessary
metering arrangements (electronic meters on transformers)
• Sign a contract with ESCO • Payments on a monthly
basis to ESCO based on the formula derived from competitive bidding
• ESCROW account as a payment security mechanism
ESCO • Finance, implement and
operating the project • Procure, install, and
provide repair and maintenance
• Demonstrate efficiency improvement of pump sets
• Training of local specialist in repair and maintenance of star labeled pump sets
BEE • Organize brain storming
session • Develop financial model • Prepare contract
documents associated with projects
• Prepare M & V protocol • Float RFP for engagement
of ESCO • Bid process management • Monitor the progress of
project implementation
Slide 39
• Based on a framework, 5 states namely Maharashtra, Gujarat, Rajasthan, Haryana and Punjab were selected for implementation of Agricultural DSM in initial phase of the programme
• Energy audit of all the pumps have estimated the savings by replacing the inefficient pumps with star labeled energy efficient pumps.
• Expression of Interest (EoI) for engagement of energy auditors to prepare DPR for remaining 4 states namely Rajasthan, Gujarat, Haryana and Punjab have been floated
• BEE has labelled the agriculture pump sets • BEE has accredited 35 ESCOs through an accreditation process carried out by CRISIL and ICRA
Current Status of the Programme
40
• An Example:
Unit = Input K.W. X Hour Over All Eff. = (H X Q/6120) / Input K.W.
5 STAR RATED PUMPS: ISI PUMPS : 58.7 = (125 X 536 / 6120) /Input k.w. 48 = (125 X 536/6120) / Input k.w. Input k.w. = 18.65 k.w.(max.) Input k.w. = 22.8 Unit Consum. with in 8 Hr. = 18.65 X 8 = 149.2 Unit Unit Consum. within 8 Hr.= 22.8X8 = 182.46 Unit For 300 Days = 149.2 X 300 = 44760 Unit Unit For 300 Days = 182.46 X 300 = 54738
Yearly Pay = 44760 X 5.5 =246181 Yearly Pay = 54738 X 5.5 = 301059
Saving = Rs. 54880 Every Year
Benefits of usage of 5 star Pumps
HP/KW Stage Head D/Charge (LPM)
Overall Efficiency
(%)
ISI Efficiency
(%)
20/15 16 125 536 58.7 48
Slide 41
Cost Benefit Analysis for Pump sets replacement
Particulars Based on Avg. Tariff
Monetary savings per annum (Rs. Lakhs) 221 Reduction in MSEDCL's revenue from Agricultural Consumers (@ collection efficiency of 60%) 39
Repair & Maintenance Cost (@10% of capital) (Rs Lakh) 36 Net benefit to MSEDCL per annum (Rs. Lakhs) 146 Actual Pump Cost Including VAT @ 12.5 % (Rs. Lakh) 401
Dismantling & Installation Cost (Rs Lakh) 9.8
Cost of Foot Valve Replacement (Rs Lakh) 7 Efficiency Testing Pre & Post Installation (5 % Sample) 2
GI Pipe & bend Replacement (Rs Lakh) 12
Total investment (Rs. Lakhs) 432
Simple payback period (years) 3
Slide 42
• Issues of Concerns in the labeling Program
• The market is dominated by Submersible pump set ( 70%), mono block(20%) and balance open well ( 10%)
• The commonly use ratings are 3-‐125 HP, Head range of 5-‐250 m and Discharge of 60-‐2600 LPM.
• Star labeled pump set are available in 2-‐25 HP and head of 29-‐317 m.
• BIS not available for Higher capacity of Pump sets. • Non-‐ availabity of the standard may hamper the Agri-‐DSM Program.
• Proposal to develop the labeling program for Pumpsets for higher ratings.
• Request for labeling of Pump sets in all ratings and all discharge.
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Contact information:
Sandeep Garg ([email protected]) Bureau of Energy Efficiency
(Ministry of Power, Govt. of India) 4th Floor, Sewa Bhawan
R.K.Puram New Delhi – 110066
www.bee-india.nic.in