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Green solutions for_telecom_towers_part_1
1.
Green Solutions for
Telecom Towers: Part I March 2013 Intelligent Energy © 2013 Intelligent Energy Limited
2.
Green Solutions for
Telecom Towers: Part I Contents 1 INTRODUCTION .............................................................................................................. 3 2 GREEN TELECOM INITIATIVES ........................................................................................ 3 2.1 Diesel ............................................................................................................................ 3 2.2 Telecom Industry Initiatives ............................................................................................. 4 2.2.1 Demand management (reducing consumption) ........................................................ 4 2.2.2 Supply management (increasing efficiency of the power source) ............................. 5 2.2.3 Renewable energy adoption ...................................................................................... 5 2.3 3 Birth of Renewable Energy Service Companies (RESCOs) ..................................................... 6 UNDERSTANDING RENEWABLE ENERGY TECHNOLOGIES ................................................ 7 3.1 Solar Photovoltaic ........................................................................................................... 7 3.2 Wind Power .................................................................................................................... 7 3.3 Biomass ......................................................................................................................... 8 3.4 Fuel Cells ....................................................................................................................... 8 4 INTRODUCING RENEWABLE ENERGY SOLUTIONS AT TELECOM TOWERS ........................ 9 4.1 Case study ..................................................................................................................... 9 4.1.1 Solar Photovoltaic (SPV) Solution: ............................................................................ 9 4.1.2 Wind Power Solution: ............................................................................................. 10 4.1.3 Biomass Solution: ................................................................................................... 11 4.1.4 Hydrogen Fuel Cell Solution: ................................................................................... 11 5 CONCLUSION ................................................................................................................ 12 © 2013 Intelligent Energy Limited 2
3.
Green Solutions for
Telecom Towers: Part I 1 Introduction India has approximately 4,25,000 telecom towers1 which form the backbone of its telecom market. These towers require about 16.5 billion kWh of electrical energy2 and contribute up to 70% to the total operating costs in rural areas and anywhere between 15-30% to the total operating costs in urban areas3. Due to an unreliable electrical power grid, tower infrastructure companies use diesel generators, batteries and a variety of power management equipment to back-up the grid and ensure network availability. The growing cost of energy due to increasing diesel prices and concerns over rising greenhouse emissions have caused tower infrastructure companies to focus on better power management methods. Various methods in the categories of demand management, supply management and/or renewable energies are being adopted. The current trial deployments of renewable energy technology (RET) solutions like solar photovoltaic, wind power, biomass and fuel cells across India are proving that each RET has its own challenges and that no single RET provides a silver bullet solution. This whitepaper focuses on understanding the RET solutions suitable for telecom in India and provides a comparison of the technologies, their characteristics, economics, suitability and limitations. The sequels to this whitepaper will discuss the ground realities of implementing RET solutions across India on a large scale. 2 Green Telecom Initiatives 2.1 Diesel The lack of adequate electrical grid infrastructure in India is restricting other infrastructural developments like telecom, real-estate and transport among others. In excess of 2.6 billion litres of diesel is consumed by diesel generators at telecom towers annually to meet the energy demandsupply gap, emitting 7 million metric tonnes of CO24. With the recent spectrum reframing from 900MHz to 1800 MHz and upcoming 3G and 4G roll outs, the subscriber base is expected to grow from the current 951 million to over one billion during 2013. This growth will require 1,00,000 more towers to ensure network availability5. The price of diesel in India has increased by 45% from INR 32.87/litre in 2009 to INR 47.15/litre in 20126. The recent announcements by the Government allowing state-run oil retailers to raise prices of diesel by up to INR 0.50/litre per month until the end of 2013 will result in further increase of diesel prices to INR 53.15/litre (a total increase of more than 60% from 2009). It is expected that deregulation of diesel prices, if continued with the current regulatory fee, tax structure and marketing margin of oil marketing companies in place, would result in an increase in diesel prices to INR 1 http://www.gits4u.com/envo/envo31.htm 2 http://www.eai.in/club/users/miaf/blogs/375 3 Adoption of Green Technology and Safety of Wireless Network by Milan Jain (Sr. Research Eng. – Converged Network, TRAI). 4 Assumption – 2.1 litres. Diesel usage per hour and 8 hrs of outage per day for 4,25,000 towers 5 http://www.greenpeace.org/india/Global/india/report/Enabling-Clean-Talking.pdf 6 http://www.mypetrolprice.com/2/Diesel-price-in-Delhi © 2013 Intelligent Energy Limited 3
4.
Green Solutions for
Telecom Towers: Part I 70.12/litre7 by 2014, as shown in figure 1. In other words energy costs could constitute greater than 90% of the cost of operating telecom towers, everything else being constant. Figure 1: Diesel price hike since 20048 Diesel Price since 2004 INR 80 70 70.12 60 50 53.15 40 31.25 20 26.28 37.75 30.48 30.45 47.15 34.86 30 Projected price of diesel till 2014 considering the INR 0.50 increase/litre/month and including marketing margins 40.91 32.92 10 0 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 Diesel Price in INR/litre in Delhi 2.2 Telecom Industry Initiatives Telecom infrastructure companies are turning to ‘green’ power management solutions which can be broadly classified into three categories: 2.2.1 Demand management (reducing consumption) Activities like passive infrastructure sharing, replacement of old base transceiver stations (BTS) with new generation BTS, usage of outdoor BTS, optimised cooling at shelter, usage of intelligent transceivers (TRXs), reduction of air conditioner load by using cold ambient air for shelter cooling and operating air conditioners using stored energy in the batteries to reduce diesel consumption and carbon emission are some of the initiatives that have been implemented so far. In the last four years with the evolution of technology, the typical power consumption of BTS has dropped by about 60%9. As per Bharti Infratel, introduction of Free Cooling Units (FCU) used in place of air conditioners will contribute to reduction of 4.1 million litres of diesel usage annually after deployment across 6,318 of its 34,220 tower sites.10 7 If the Mumbai price is to be considered instead of the Delhi price, the projected diesel price will be higher 8 http://in.reuters.com/article/2011/05/14/india-fuel-idINL3E7GB2E420110514 9 http://www.gsma.com/developmentfund/wp-content/uploads/2012/11/COAI.pdf http://www.mypetrolprice.com/2/Diesel-price-in-Delhi http://articles.economictimes.indiatimes.com/2012-12-05/news/35620263_1_bharti-infratel-telecom-toweramerican-tower 10 © 2013 Intelligent Energy Limited 4
5.
Green Solutions for
Telecom Towers: Part I 2.2.2 Supply management (increasing efficiency of the power source) Technologies like ‘Integrated Power Management Systems (IPMS)’, variable speed DC diesel generators (DC-DG) and fuel catalysts are a few of the solutions that have been implemented to increase power source efficiency. As per Bharti Infratel’s P7 project, fuel consumption for similar load applications in case of DC-DGs is approximately 30% lesser than AC DGs. By adopting DC-DGs at 2,000 sites, the consumption of diesel was reduced by 10.18 million litres annually11. 2.2.3 Renewable energy adoption Technologies like solar photovoltaic, wind power, fuel cell and other renewable or clean energy sources have been deployed in about 4,021 telecom sites in India12. Approximately 1,000 Indus Towers sites use solar photovoltaic13 to augment the grid and diesel generated power. The Energy and Resources Institute, a research based institute in Delhi and commonly known as TERI, is focusing its activities in the fields of energy, environment and sustainable development. TERI has been engaged by the Cellular Operators Association of India (COAI) since 2010 to lead efforts in creating a sustainability roadmap for tower companies. TERI will evaluate estimates and guidelines on implementation laid down by the Department of Telecommunications (DoT) to identify issues related to execution and will also provide guidance on technology adoption and rules of execution 14. The table below showcases a snapshot of the possible diesel savings and corresponding reduction in CO2 emissions at a telecom tower site using some of the solutions that are currently under trial by the tower infrastructure companies. Table 1: Typical reduction in CO2 emissions and diesel savings per year per site15 Per site per year CO2 emissions Diesel saving in litres reduction in tons Diesel savings in INR Passive Sharing 10.5 3,500 1,50,000 Outdoor BTS 4 450 19,000 3.5 450 19,000 2 200 8,500 8 3,000 1,26,000 4 1,500 63,000 Next Generation BTS Intelligent TRX Solar photovoltaic Energy Battery Improvements 11 Green Networks: Transforming Telecommunications on Sustainable Energy Alternatives Green Networks: Transforming Telecommunications by Sairam Prasad, CTO, Bharti Infratel on Sustainable Energy Alternatives 12 http://www.energynext.in/more-4000-mobile-towers-india-powered-green-energy/ 13 http://www.tele.net.in/archive/item/11100-turning-to-renewables-opportunities-and-challenges http://articles.economictimes.indiatimes.com/2012-07-25/news/32829482_1_rural-towers-urban-towers-towercompanies 14 15 FICCI – A.T. Kearney report on ‘Green Telecom The Way Ahead’ (http://www.gsma.com/mobilefordevelopment/wp-content/uploads/2012/11/COAI.pdf) © 2013 Intelligent Energy Limited 5
6.
Green Solutions for
Telecom Towers: Part I DC Diesel Generator 3.5 1,300 54,500 DG Improvements 2.5 900 39,000 2.3 Birth of Renewable Energy Service Companies (RESCOs) The telecom industry’s need to achieve economical and scalable solutions for energy management has resulted in the formation of an additional entity in the value chain, called the RESCOs. The RESCOs are expected to design, deploy and manage optimal renewable energy solutions that will help the telecom industry to overcome the energy management challenge. In the RESCO landscape there are several companies who are working closely with the telecom operators, tower infrastructure companies and tower service providers to jointly develop the best possible solutions that can be deployed economically on a large scale. Single RET companies are either becoming vendors to RESCOs or are transitioning to become RESCOs themselves. The telecom industry’s emphasis on moving away from diesel generators and towards efficient energy management is reflected through the Tower and Infrastructure Providers Association’s (TAIPA) invitation for ‘Power Purchase Agreement’ (PPA)16 through a request for proposal (RFP). The Green Power for Mobile (GPM), a Groupe Speciale Mobile Association (GSMA) Development Fund’s programme, includes several initiatives such as awareness creation about the renewable technologies for telecom applications, CAPEX and OPEX analysis, vendor mapping and renewable energy market sizing. Below are a few snapshots of current developments17: Through the RFP process TAIPA is deploying 500 green pilot sites using Bio-CNG (compressed natural gas). After completion of implementing the first 500 sites, TAIPA intends a large scale deployment Bharti Airtel is deploying around 250 sites using biomass gasification, additionally, an RFP for deploying 3000 solar photovoltaic sites is also being evaluated Indus Towers’ green city18 project is in progress to reduce dependency on diesel generators and air conditioners Idea Cellular’s initiative for green energy aimed to deploy 1,000 sites by the end of 2012. 200 sites were planned for solar hybrid installation where diesel generators would run less than 5 hours a day as compared to earlier 15 to 16 hours, thus reducing fuel consumption. Idea Cellular worked with GSMA to develop biofuel solutions for back-up power and have also placed a purchase order for thirty fuel cells19 Vodafone is deploying 150 hybrid solar photovoltaic sites, in addition to the 390 sites that are currently deployed As a new era of RET solutions for telecom arises, it is essential to take a closer look at renewable energy technologies. 16 http://articles.economictimes.indiatimes.com/2012-05-08/news/31626625_1_indus-towers-tower-arm-telecomtower) 17 Green Power for Mobile Bi-Annual Report January 2013 by GSMA 18 http://www.industowers.com/green_cities.php 19 http://www.fuelcelltoday.com/media/1713685/fct_review_2012.pdf © 2013 Intelligent Energy Limited 6
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Green Solutions for
Telecom Towers: Part I 3 Understanding Renewable Energy Technologies RET solutions like solar photovoltaic, wind power, biomass and fuel cells are the technologies of choice for alternative solutions at telecom towers today. Hybrid solutions that combine diesel generators with RETs and batteries are being customised. Fuel cells are being installed as a standalone solution replacing the existing diesel generator. In a limited number of cases where electrical grid availability is close to 20 hours a day or more, the diesel generator at the tower site has been replaced completely by enhancing the existing battery capacity leading to improvement in economics and reduction of carbon emissions on site. Batteries are and will continue to be a key part of any backup power solution but a detailed discussion on batteries has been excluded in this discussion. Customisation of the RET solution for a particular site requires a thorough understanding of each technology and its relevant economics. The comparative characteristics, advantages and limitations of solar photovoltaic, wind power, biomass and fuel cell technologies are discussed below. 3.1 Solar Photovoltaic India receives abundant sunshine for around 300 days a year. The daily average solar energy incident across India varies from 4 to 7kWh/m2 considering 1000Wh/m2 of standard sunshine. This translates to 4 to 6 hours of sunshine per day that can be used by a Solar Photovoltaic (SPV) installation20. Since a photovoltaic system can only generate power during sunshine hours, it is not feasible to create a standalone solution using this system. Generally, a solar photovoltaic backup power system is designed with a combination of appropriate sized battery banks, or used to offset the operation of a backup power system like a diesel generator for approximately four hours per day when sunlight is available. To configure a solar photovoltaic installation for a telecom tower site, detailed evaluation of the load profile of the site, weather conditions at the site throughout the calendar year, battery efficiency, charge controller efficiency, power loss due to dust accumulation and available area for installation of the solar photovoltaic panels should be considered. The Ministry of New and Renewable Energy (MNRE) is supporting off-grid solar photovoltaic telecom applications by providing capital subsidy of 30%21. India Renewable Energy Development Agency (IREDA) offers soft loans at 5% interest for renewable energy projects. 3.2 Wind Power Viability of wind power technology is dependent on the duration of useful wind speed and quality of wind. The wind speed profile varies throughout the year. During January and February the wind speed is at its lowest and peaks during September. The speed reduces from October again. In India quality wind speed is available in states of Maharashtra, Tamil Nadu, Gujarat, Karnataka and in parts of Orissa, Andhra Pradesh and Madhya Pradesh. With an annual national average of 5-6 m/sec wind speed22 wind speed and an average duration of 4hrs/day23, the wind power turbine solution for telecom towers cannot form a standalone solution. The 20 http://en.wikipedia.org/wiki/Solar_power_in_India 21 http://panchabuta.com/2012/11/14/solarizing-of-telecom-towers-in-india-could-be-a-2-billion-opportunity-overnext-3-5-years/ 22 Green Energy: A Perspective for Indian Rural Telecom by Pratap Kumar Panigrahi, Sr. Dy. Director General (BW), DoT 23 Based on Intelligent Energy’s interview with Sun n Wind Renewables Pvt. Ltd (http://www.sunnwindhk.com/) © 2013 Intelligent Energy Limited 7
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Green Solutions for
Telecom Towers: Part I dependency on availability of high quality wind speed has made the technology unsuitable for less windy sites. Like solar photovoltaic, regulatory and policy incentives are available for wind power technology which further encourages its application with telecom towers. The incentives include 100% foreign direct investment, 35% accelerated depreciation and exemption of excise duty 24. MNRE offers 30% capital subsidy for telecom applications up to maximum of INR 1,00,000/kW25. 3.3 Biomass By definition ‘Biomass’ is biological material derived from living or recently dead organisms. In India, biomass is used as a primary energy source since millennia in the form of dry wood, leaves and cattle manure. About 32% of the total primary energy used in the country is still derived from biomass and more than 70% of the country’s population depends upon it for its energy needs 26. Since February 2012, 1142 MW27 of biomass based generation capacity has been installed in India. In 2008-2009, the Rockfeller Foundation jointly with Indian partners took an initiative to address twin challenges of energy deprivation and poverty through Smart Power for Environmentally Sound Economic Development (SPEED)28 programme where the need of rural electrification and diesel replacement is integrated with rural community development. As rural electrification and economic development is combined in this initiative, biomass power plants present the opportunity of providing solutions for both. Ministry of Non-Conventional Energy Sources’ four Action Research Centres (ARCs) developed gasifiers ranging from 3.5 – 100 kW for telecom and other small capacity applications29. There are several incentives, including concessional customs duty on import of machinery and components, excise duty exemption, accelerated depreciation on major components, relief from taxes and capital subsidy for setting up of biomass power projects that are being provided by the government. Beside this, as a part of promotional policy State Electricity Regulatory Commissions (SERCs) have determined the preferential tariff for sale of power from biomass power. 3.4 Fuel Cells Fuel cells convert chemical energy into electrical energy. There are different types of fuel cells that have operating characteristics that are influenced by the type of components used in their design. The various types of fuel cells that can be used for telecom towers are Proton Exchange Membrane (PEM), Solid Oxide Fuel Cell (SOFC) and Molten Carbon Fuel Cell (MCFC). These fuel cells use fuels like hydrogen, methanol, natural gas and other hydro carbons. Fuel cells can run continuously as long as fuel is available and hence make a good standalone renewable energy solution to replace the diesel generator. Fuel cell based systems can be designed to be modular allowing a close match of the installed capacity to the power demand of the site. Additionally, any increase in the demand at the site due to increased tenancy can be met by simple addition of capacity to the fuel cell system. Fuel cells have higher efficiency when compared to other RET solutions. Owing to significantly better efficiency versus load characteristics, fuel cell systems can be used in reduction of the energy requirement of the telecom site in comparison to diesel generators. 24 India Wind Energy Outlook 2012, GWEC November,2012 25 Based on Intelligent Energy’s interview with Sun n Wind Renewables Pvt. Ltd (http://www.sunnwindhk.com/) 26 http://www.mnre.gov.in/schemes/grid-connected/biomass-powercogen/ 27 http://panchabuta.com/2012/04/04/biomass-power-generation-installed-capacity-in-india-crosses-620mwduring-11th-plan/ 28 http://www.gsma.com/mobilefordevelopment/wpcontent/uploads/2012/04/therockefellerfoundationspeedprojectinindia-11.pdf 29 BIOMASS ENERGY IN INDIA:TRANSITION FROM TRADITIONAL TO MODERN by P.R. Shukla (http://www.decisioncraft.com/energy/papers/ecc/re/biomass/bti.pdf) © 2013 Intelligent Energy Limited 8
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Green Solutions for
Telecom Towers: Part I Compared to other technologies, fuel cell based solution for telecom towers are relatively new in India. Some trial projects have been undertaken by telecom companies such as Idea Cellular, Indus Towers and Bharti Airtel. While the technology has proven itself through these trials to provide power, the availability and price of the fuel need to be key area of focus to ensure large scale adoption. Currently, there are no significant incentives available for this technology in India. However, during the country’s Eleventh Five Year Plan (2007-12), The Ministry of New and Renewable Energy (MNRE) had supported projects with more than $15 million irrespective of the industry vertical and for the Twelfth Five Year Plan (2012-17) the proposal for hydrogen fuel cells envisions accelerated depreciation, funded field trials for telecom tower back up power 30. 4 Introducing Renewable Energy Solutions at Telecom Towers After a brief introduction to various RET solutions, a theoretical analysis for each of the RET solutions for a typical telecom site is presented below to evaluate the solution economics. 4.1 Case study This case assumes an outdoor site with 3 kW load and with 8 hours of grid power outage per day on average. Table 2: Site Configuration of the Case Study Case Scenario Site Type Outdoor Site Load kW 3 Grid Power Availability hrs/Day 16 Output Power Requirement kWh/Day 24 Battery Output Voltage Volt 48 Based on the above mentioned case assumptions, the site requires 8 hours or 24 kWh/day equivalent of back-up power. The solutions discussed below include a combination of an RET and batteries, thus replacing the diesel generator at site. The economics of the solution discuss capital investments of a generic brand of RET and related OPEX based on primary research. Other energy management components at site like SMPS, PIU etc. are considered as constants across all RET solutions comparison. 4.1.1 Solar Photovoltaic (SPV) Solution: To meet the site off grid energy requirement of 24kWhr/day, the solar photovoltaic solution should be capable of providing 33kWhr/day to account for losses. Assuming average of 4 hours of sunshine per day, an 8kW solar photovoltaic system will need to be installed. It is assumed that, the 8 hours of outage can occur during sunshine availability hours or during non-availability hours. Hence, the battery backup for the site should match the capacity of the solar photovoltaic installation considering non-availability of standard sunshine hours. Site load and the charge current requirement during the sunshine hours determine the battery capacity. Considering average standard sunshine of 4 hours and 30% depth31 of battery discharge per day, a battery capacity of 1720 Ah @ 48 volts will be required. 30 http://www.iphe.net/docs/iphe_policy_update_120911_web.pdf 31 Intelligent Energy’s interview with solar companies © 2013 Intelligent Energy Limited 9
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Green Solutions for
Telecom Towers: Part I As per energy requirement of this site the installation area required is approximately 99 square meters. Table 3: Solar Photovoltaic Solution Specifics Solar Photovoltaic Solution Specifications Avg. Sunshine availability hrs/per day 4 1 kWp SPV Panel generates kWh/day 4 Area required for 1kWp panel square meter 12 % 8.3 Charge controller efficiency % 90 Loss due to dust % 95 Battery efficiency % 85 Panel efficiency considered 32 Efficiency Loss At the current price of INR 100/Wp panel, this installation will cost INR 8,25,593. The batteries will cost approximately INR 5,15,996 totalling to INR 13, 41,589 for the solution. It is to be noted here that the system life of a solar photovoltaic system is estimated to be 20 years and that of the battery is 3 years. The maintenance required on a regular basis includes panel cleaning and charge equalisation for the batteries. 4.1.2 Wind Power Solution: To meet the site off-grid energy requirement of 24kWhr/day, the wind power solution should supply 31kWhr/day to account for losses. If an average of 4 hours of quality wind is available per day, a 1kW turbine will deliver 3kWhr of energy. Hence, a 10kW system will be required. This solution will need a battery storage capacity of 1634Ah @48Volts. Table 4: Wind Power Solution Specifics Wind Power Solution Specifics National average wind speed m/sec 3 to 5 Avg. wind speed availability duration hrs/day 4 Energy production capacity of 1 kW KWh/day 3 Charge controller efficiency % 90 Battery efficiency % 85 wind turbine Efficiency Loss Cost of 1 kW wind turbine installation INR/ kW 1,00,000 The total solution cost of INR 14,90,196 includes the wind power generator cost of INR 10, 00,000 and the battery storage cost of INR 4,90,196 for the given case scenario. The life of the wind turbine An efficiency of 8.3% in the field has been considered based on Intelligent Energy’s interview with various solar companies 32 © 2013 Intelligent Energy Limited 10
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Green Solutions for
Telecom Towers: Part I is estimated to be 20 years and the life of a battery is estimated to be 3 years. Like the solar photovoltaic system, the wind turbine system also requires minimal maintenance. 4.1.3 Biomass Solution: Currently, the smallest available biomass plant in India is that of 10kW capacity. A biomass plant can form a standalone solution as long as biomass is fed to the plant. No battery is required. This system will cost approximately INR 11,00,000. An additional INR 50,000 will be required for the biomass cutter. Maintenance activities include regular cleaning, scheduled repairs and fuel transport. Table 5: Biomass Solution Specifics33 Biomass Solution Specifications Biomass power plant capacity kW 10 Biomass requirement kg/kWh 2 Total area required for 10kW Sq.m. 465 Capital cost of biomass plant INR/kW 1,10,000 Biomass cutter cost INR 50,000 Biomass cost (as Fuel) INR/kg 4 Maintenance Cost INR/day 40 Solution Efficiency % 20 plant 4.1.4 Hydrogen Fuel Cell Solution: To meet the site load requirement of 24kWh/day, a fuel cell of 4kW peak capacity needs to be installed. Since the hydrogen fuel cell solution can run continuously as long as hydrogen fuel is supplied, no additional battery storage is required. Table 6: Fuel Cell Solution Specifics34 Fuel Cell Solution Specifications Fuel Cell stack cost INR/kW 44,000 System cost (Including Balance of Plant) INR /kW 2,20,000 Fuel Cell Efficiency % 40 to 60 Hydrogen Cost INR/kg 450 A 4kW hydrogen fuel cell system costs INR 8,80,000. The energy efficiency of fuel cells normally ranges from 40-60%35. The fuel cell system maintenance includes replacement of stacks and scheduled repairs. The cost of transporting hydrogen fuel is considered as a part of the total fuel cost. The fuel cell stacks will need to be replaced depending on the life of the stack. The fuel cell system’s life is estimated to be 15 to 20 years and the stack life is approximately 10,000 operating hours as claimed by several vendors36. 33 Based on Intelligent Energy’s interview with D.E.S.I. Power (http://www.desipower.com/) 34 http://www.gsma.com/mobilefordevelopment/wpcontent/uploads/2012/04/Fuel_Cell_Report_for_fomatting1.pdf 35 http://www1.eere.energy.gov/hydrogenandfuelcells/fuelcells/pdfs/fc_comparison_chart.pdf 36 http://www.gsma.com/mobilefordevelopment/wp-content/uploads/2012/04/Fuel_Cell_Report_for_fomatting1.pdf © 2013 Intelligent Energy Limited 11
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Green Solutions for
Telecom Towers: Part I Table 7: Comparative characteristics of renewable energy solutions37 Solar Photovoltaic Biomass Fuel Cell Photovoltaic energy The kinetic energy Waste matter Chemical energy generating systems of wind is converted composed of parts in hydrogen is convert sun's energy to mechanical from living or converted to into electricity energy and then recently dead electricity, water into electrical organisms are used vapour and heat energy Energy source Wind Turbine to produce alternative fuels for producing energy Efficiency 6.2-19.7% 20% 20% Carbon Foot Zero at point of use Zero at point of use Minimal Print Limitations 40-60% Zero at point of use 1. Dependent on 1. Dependent on 1. Load uptake 1.Underdeveloped sunshine availability the quality of wind cannot be limited to hydrogen logistics 2. Requires speed and duration telecom, hence need as of date equivalent storage of wind availability load aggregation capacity hence requirement from the other needing additional 2. Requires source investment equivalent storage 3. large area required capacity needing for installation additional investment CAPEX in INR 1,341,589 1,490,196 11,00,000 8,80,000 Biomass fuel cost Hydrogen fuel and plant cost and system maintenance maintenance (may vary per brand) Maintenance Minimal maintenance Minimal maintenance 5 Conclusion With the formation of RESCOs, the telecom industry is transitioning to renewable energy solutions. With experience from trials, the forthcoming RET solutions will be aimed towards providing the desired economics and deployment scalability considering effective power generation and optimal system integration. The Government is recognising and encouraging renewable solutions to overcome the challenges faced by the telecom sector due to increased diesel usage. To strengthen the play of RET solutions, government bodies and relevant telecom associations will need to work hand in hand at a fast pace to bring in the necessary change in the telecom energy consumption landscape. 37 Efficiency numbers are based on information from – Solar: Global Technology Trends in Solar PV Power R&D and Commercial by Dr. B Bhargava, MNRE Wind: Based on Intelligent Energy’s interview with Sun n Wind Renewables Pvt Ltd (http://www.sunnwindhk.com/) Biomass: http://zebu.uoregon.edu/1998/ph162/l17.html Fuel Cell: http://www1.eere.energy.gov/hydrogenandfuelcells/fuelcells/pdfs/fc_comparison_chart.pdf © 2013 Intelligent Energy Limited 12
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Green Solutions for
Telecom Towers: Part I In the next of these whitepapers, the realities of implementing each of the RET solution at telecom sites will be discussed where the focus would be to determine the solution design, costing, levelised cost of energy (LCOE), on-ground deployment challenges, scalability enablers and inhibitors. Intelligent Energy would like to acknowledge the contribution of various solar, wind and biomass companies that shared information towards the development of this whitepaper. About Intelligent Energy Intelligent Energy delivers efficient and clean energy technology for the global consumer electronics, automotive and stationary power markets – from compact energy packs for mobile devices, to powertrains for zero-emission vehicles, and stationary power units for the always-on infrastructure. Our unique technology architecture is used by global blue chip companies to create differentiated, cost-efficient fuel cell power systems for mass market applications. It enables Intelligent Energy and our industry partners to solve the challenges of continuous power and productivity, by creating convenient everyday energy solutions to power your life. Intelligent Energy operates globally, with offices in the Americas, Europe and Asia. www.intelligent-energy.com © 2013 Intelligent Energy Limited 13
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