The document describes a proposed 50 MW solar power plant project in Pusad, Maharashtra, India. It provides background on photovoltaic solar power and discusses factors like solar insolation levels and government incentives that make India and the Pusad site suitable for solar development. It outlines the project scope, including site assessment, design, procurement, construction, and power sales. The plant is expected to generate 1.5 million kWh annually per MW and earn $448,400 per MW each year under a 25-year power purchase agreement.
Solar Parks are becoming increasingly popular & MNRE is leaving no stone unturned to make them a success.
The ppt mentions the nuts & bolts of the Solar Park Scheme of MNRE.
This presentation highlights on the following :
Need of wind-solar hybrid systems
Indian policy support to hybrid systems - MNRE & Gujarat State
Renewable Energy integration with grid,
Cost savings in hybrid for AC-AC & DC-DC coupling systems,
Case studies
An Overview of Photovoltaic Systems or PV Systems. This PPT outlines what a solar systems is and what it is consisted of. From solar panels to charge controller to deep cycle batteries to the inverter.
Solar Parks are becoming increasingly popular & MNRE is leaving no stone unturned to make them a success.
The ppt mentions the nuts & bolts of the Solar Park Scheme of MNRE.
This presentation highlights on the following :
Need of wind-solar hybrid systems
Indian policy support to hybrid systems - MNRE & Gujarat State
Renewable Energy integration with grid,
Cost savings in hybrid for AC-AC & DC-DC coupling systems,
Case studies
An Overview of Photovoltaic Systems or PV Systems. This PPT outlines what a solar systems is and what it is consisted of. From solar panels to charge controller to deep cycle batteries to the inverter.
It's an army version...as it was made by me for my dad :) I have a word report too...for that or any queries regarding this topic contact me on alizamalik01@gmail.com....Gud luck!
Hybrid power generation by and solar –windUday Wankar
With the development of industry and
agriculture, a great amount of energy such as coal, oil
and gas has been consumed in the world. Extensive
use of these fossil energies deteriorates a series of
problems like energy crisis, environmental pollution
and so on. Everybody knows that the fossil energy
reserves are finite, some day it will be exhausted.
It is possible that the world will face a
global energy crisis due to a decline in the
availability of cheap oil and recommendations to a
decreasing dependency on fossil fuel. This has led to
increasing interest in alternate power/fuel research
such as fuel cell technology, hydrogen fuel, biodiesel,
Karrick process, solar energy, geothermal energy,
tidal energy and wind. Today, solar energy and wind
energy have significantly alternated fossil fuel with
big ecological problems.
With the development of the science and
technology, power generation using solar energy and
wind power is gradually known by more and more
people. And it is widespread used in many developed
countries. The merits of the solar and wind power
generation are very obvious-infinite and nonpolluting.
The raw materials of the solar and wind
power generation derived from nature, and wind
power generation can work twenty-four hours a day,
solar power generation only works by daylight. In
addition, this kind of power generation has no
exhaust emission and there is no influence to the
nature. But it also has some shortcomings. Because
of the imperfect of the technology, equipment of the
solar and wind power generation is very expensive.
By far, it cannot be widely used.
In addition, solar and wind power
generation system affected by the changing of the
weather very much, so it has obvious defects in
reliability compared with fossil fuel, and it is difficult
to make it fit for practical use the lack of economical
efficiency .Because of these problems it needs to
increase the reliability of energy supply by
developing a system which interacts Solar and wind
energy. This kind of system is usually called windsolar
hybrid power generation system significantly
Rural Electrification is something which we all should strive for.
While we busy surfing net and using computers there people who are yet to get an electic connection to their households.
We should understand how important it is to save electricity so that more electrification is done especially in rural areas.
Rural electrification through solar and wind hybrid systemnissy marla
The aim of this work is design and implementation of a Hybrid power generation system using wind energy photovoltaic solar energy- solar energy with Nano-antenna for continuous (24*7) power generation.
What is islanding ?
Consider the power network as shown in fig.1
Now if we disconnect the line AB from the infinite transmission grid there will be an isolated region . The D1, D2 are power sources (eg : inverter , solar power cells ). The power generated in this region is fed to the island only.
We see that there no longer is any control over the island voltage at the bus X . Also there is no mechanism here for control of frequency.
This state is referred to as islanding.
This presentation is based on Solar power plant makes on power point by a engineering student(me).
This presentation or ppt is makes for engineering college or a engineering students also for all students.
This ppt is for project working.
in this ppt is defined light energy is converted into heat energy that means the heat is coming from sun converted into light by invertor ,battery 🔋,etc.
.......Thanks for reading.....
Introduction to JNNSM- India's National Solar MissionKranav Sharma
An introduction to India's very own initiative on adoption and development of solar energy for powering its energy needs. The presentation includes the need for, proposed road map and various provisions under the scheme.
It's an army version...as it was made by me for my dad :) I have a word report too...for that or any queries regarding this topic contact me on alizamalik01@gmail.com....Gud luck!
Hybrid power generation by and solar –windUday Wankar
With the development of industry and
agriculture, a great amount of energy such as coal, oil
and gas has been consumed in the world. Extensive
use of these fossil energies deteriorates a series of
problems like energy crisis, environmental pollution
and so on. Everybody knows that the fossil energy
reserves are finite, some day it will be exhausted.
It is possible that the world will face a
global energy crisis due to a decline in the
availability of cheap oil and recommendations to a
decreasing dependency on fossil fuel. This has led to
increasing interest in alternate power/fuel research
such as fuel cell technology, hydrogen fuel, biodiesel,
Karrick process, solar energy, geothermal energy,
tidal energy and wind. Today, solar energy and wind
energy have significantly alternated fossil fuel with
big ecological problems.
With the development of the science and
technology, power generation using solar energy and
wind power is gradually known by more and more
people. And it is widespread used in many developed
countries. The merits of the solar and wind power
generation are very obvious-infinite and nonpolluting.
The raw materials of the solar and wind
power generation derived from nature, and wind
power generation can work twenty-four hours a day,
solar power generation only works by daylight. In
addition, this kind of power generation has no
exhaust emission and there is no influence to the
nature. But it also has some shortcomings. Because
of the imperfect of the technology, equipment of the
solar and wind power generation is very expensive.
By far, it cannot be widely used.
In addition, solar and wind power
generation system affected by the changing of the
weather very much, so it has obvious defects in
reliability compared with fossil fuel, and it is difficult
to make it fit for practical use the lack of economical
efficiency .Because of these problems it needs to
increase the reliability of energy supply by
developing a system which interacts Solar and wind
energy. This kind of system is usually called windsolar
hybrid power generation system significantly
Rural Electrification is something which we all should strive for.
While we busy surfing net and using computers there people who are yet to get an electic connection to their households.
We should understand how important it is to save electricity so that more electrification is done especially in rural areas.
Rural electrification through solar and wind hybrid systemnissy marla
The aim of this work is design and implementation of a Hybrid power generation system using wind energy photovoltaic solar energy- solar energy with Nano-antenna for continuous (24*7) power generation.
What is islanding ?
Consider the power network as shown in fig.1
Now if we disconnect the line AB from the infinite transmission grid there will be an isolated region . The D1, D2 are power sources (eg : inverter , solar power cells ). The power generated in this region is fed to the island only.
We see that there no longer is any control over the island voltage at the bus X . Also there is no mechanism here for control of frequency.
This state is referred to as islanding.
This presentation is based on Solar power plant makes on power point by a engineering student(me).
This presentation or ppt is makes for engineering college or a engineering students also for all students.
This ppt is for project working.
in this ppt is defined light energy is converted into heat energy that means the heat is coming from sun converted into light by invertor ,battery 🔋,etc.
.......Thanks for reading.....
Introduction to JNNSM- India's National Solar MissionKranav Sharma
An introduction to India's very own initiative on adoption and development of solar energy for powering its energy needs. The presentation includes the need for, proposed road map and various provisions under the scheme.
ita a scheme statrted in 2009 by congress. earlier it waas known as jawahar lal nehru national solar mission bt recently its name change into national solar mission
Solar India - Sun Power is Solution to India's Energy Crisissolarindia
The report talks about Jawaharlal Nehru Solar Mission, Solar farms, SEZs, Solar technologies, Photovoltaics, PV trends, thin film solar panels, stocks /shares listed on Bombay stock exchange and National stock exchange in India
Grid Integration of Renewable Energy in India under Mitigation of High Penetration Challenges of Renewables into the Grid: Storage, Demand Response and Interconnections
Mr Dhanendra Kumar's was invited to deliver a lecture primarily addressing the students at the USC Marshall School of Business -University of Southern California on the theme of the transition to renewables in India.
Similar to Pusad solar power plant presentation (rev 7) (20)
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
Accelerate your Kubernetes clusters with Varnish CachingThijs Feryn
A presentation about the usage and availability of Varnish on Kubernetes. This talk explores the capabilities of Varnish caching and shows how to use the Varnish Helm chart to deploy it to Kubernetes.
This presentation was delivered at K8SUG Singapore. See https://feryn.eu/presentations/accelerate-your-kubernetes-clusters-with-varnish-caching-k8sug-singapore-28-2024 for more details.
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
State of ICS and IoT Cyber Threat Landscape Report 2024 previewPrayukth K V
The IoT and OT threat landscape report has been prepared by the Threat Research Team at Sectrio using data from Sectrio, cyber threat intelligence farming facilities spread across over 85 cities around the world. In addition, Sectrio also runs AI-based advanced threat and payload engagement facilities that serve as sinks to attract and engage sophisticated threat actors, and newer malware including new variants and latent threats that are at an earlier stage of development.
The latest edition of the OT/ICS and IoT security Threat Landscape Report 2024 also covers:
State of global ICS asset and network exposure
Sectoral targets and attacks as well as the cost of ransom
Global APT activity, AI usage, actor and tactic profiles, and implications
Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
Malware and malicious payload trends
Cyberattack types and targets
Vulnerability exploit attempts on CVEs
Attacks on counties – USA
Expansion of bot farms – how, where, and why
In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
Why are attacks on smart factories rising?
Cyber risk predictions
Axis of attacks – Europe
Systemic attacks in the Middle East
Download the full report from here:
https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
PHP Frameworks: I want to break free (IPC Berlin 2024)Ralf Eggert
In this presentation, we examine the challenges and limitations of relying too heavily on PHP frameworks in web development. We discuss the history of PHP and its frameworks to understand how this dependence has evolved. The focus will be on providing concrete tips and strategies to reduce reliance on these frameworks, based on real-world examples and practical considerations. The goal is to equip developers with the skills and knowledge to create more flexible and future-proof web applications. We'll explore the importance of maintaining autonomy in a rapidly changing tech landscape and how to make informed decisions in PHP development.
This talk is aimed at encouraging a more independent approach to using PHP frameworks, moving towards a more flexible and future-proof approach to PHP development.
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
3. Photovoltaic (PV) Solar
Power
• Photovoltaic (PV) devices generate electricity
directly from sunlight via an electronic process that
occurs naturally in certain types of material, called
semiconductors
• Electrons in these materials are freed by solar
energy and can be induced to travel through an
electrical circuit, powering electrical devices or
sending electricity to the grid
• Most modern solar cells are made from either
crystalline silicon or thin-film semiconductor
material
• Silicon cells are more efficient at converting
sunlight to electricity, but generally have higher
manufacturing costs
• Thin-film materials typically have lower
efficiencies,
but are simpler and less costly to manufacture
4. The Indian Government’s Launch of the
Ambitious Jawaharlal Nehru National Solar
Mission (JNNSM) Set a Goal of Developing 20
GW of Solar Power Generating Capacity by
the Year 2022 .
• India’s State Governments have already planned 5 GW of
Solar Power generation capability
• 50 MW is in development through a Generation Based
Incentive (GBI)
• NTPC will add another 315 MW of solar energy generating
capacity
• Research & Development, Education, and Training is
sponsored by the Government through various programs
• Rural Electrification is a big priority for the Government
• Solar cities and parks are to be established all over India
• Solar Power is now becoming more popular and common
5. Pusad Solar Power Plant Site
50 acres, Hiway 183, Pusad,
Maharashtra
Latitude : 19.85 Longitude: 77.72
6.
7. Pusad, Maharashtra,
India
• The Pusad area is well known for the cotton it
produces
• Educational courses in most major subjects,
including engineering, are taught at the Universities
located in Pusad
• Many tourist attractions are located near Pusad
• Three nearby dams and reservoirs provide beautiful
views and an abundance of wildlife is found in the
area
• Temperature and climate in Pusad is moderate to
8. A Maharashtra Power
Deficit
• Maharashtra is reeling under a power deficit
• It is rapidly expanding its Solar Power
generation program
• The Vidarbha, Khandesh, and Marathwada
regions are endowed with bright sunshine
• A 1 MW Solar Power Plant was commissioned in
Chandrapur, Vidarbha last April
• Mahagenco, the state-owned power generation
company, is developing a 125 MW Solar Power
Plant in northern Maharashtra
9. The Solar India Plan Requires an Investment
of Seventy Billion US Dollars by 2020 and has
the following targets and goals:
• A Generation Based Incentive (GBI) program for Solar Power
Plants
under 5 MW is or will soon be generating a minimum of 50 MW
by 2012, combined capacity, with an overall tariff of Rs. 15
per kWh guaranteed
• To promote programs for “off grid” applications, and to reach
1000 MW (1 GW) by 2017, and 2000 MW (2 GW) by 2020 of
installed “off grid” solar power generation capability, and to
deploy 20 million solar lighting systems in rural areas by 2022
• To create favorable conditions for the development of
India’s solar power industry manufacturing capability
• To develop 15 million square meters of solar thermal collector
area by 2017, and 20 million square meters by 2022
• To reach 20 GW of total installed solar power generation by
2022
10.
11. Solar Power Plants and
Power Purchase Agreements
(PPA’s)
• For investors, long term Power Purchase Agreements
offer stability
• 25 year Power Purchase Agreements are common in
India
• The agreement and terms guarantee that the Solar
Power generated will be purchased by an electric utility
• Fifty percent of all commercial Solar Power systems
used Power Purchase Agreements in 2007
• Nearly ninety percent used Power Purchase Agreements
in 2009
12.
13. India National Solar Mission
Highlights
• NTPC’s 100% subsidiary NTPC Vidyut Vyapar Nigam
Ltd. (NVVN) executes most of India’s Solar Power
Purchase Agreements or Solar PPA’s
• A key driver for the development of Solar Power
Plants is the Renewable Purchase Obligation (RPO)
mandated for all power utilities (6% of all electric
power generation must be from renewable sources)
• Complemented with a solar specific Renewable
Energy Certificate (REC) mechanism, the Renewable
Purchase Obligation (RPO) will enable utilities and
Solar Power generation companies to buy and sell
certificates to meet their Solar Power purchase
obligations
14. Favorable India Solar Market
Indicators
• New players are entering the Solar Energy market in
India
• Increasing number of public and private investment
initiatives
• An increase in merger and acquisition activity
• Renewable Energy sources are gaining significant
share in the Total Power Generating Capacity of India
15. Pusad is Located in the Center of India
– Solar Radiation Central
16. Indian Government Organizations
Facilitating the Development of Solar
Power Energy Generation
• Ministry of New and Renewable Energy (MNRE )
• Indian Renewable Energy Development Agency
(IREDA)
• The Solar Energy Centre
17. Ministry of New and Renewable Energy
(MNRE)
• Classified as a Public Financial Institution under
section 4 of the Companies Act, 1956, and registered
as a Non-Banking Finance Corporation (NBFC) with the
Reserve Bank of India
• Promotes, develops, and extends financial assistance
for Renewable Energy and energy efficiency projects
18. Indian Renewable Energy
Development Agency (IREDA)
• Under the administrative control of the MNRE
• Primary government organization focused on new and
Renewable Energy sources
• Responsible for the implementation of programs and
initiatives including:
• The use of Renewable Energy in urban, industrial, and
commercial applications
• The development of alternative fuels and applications,
including Solar Power
• Rural lighting, cooking, and motive power
19.
20. Solar Energy Centre
•A unit of the MNRE
• Focused on the development of Solar Energy
technologies
• Promotes Solar Power applications through
it’s product development charter
• Undertakes activities related to design,
development, testing, standards, education,
and training in the field of Solar Energy
21. The Role of Federal and
State
Governments
• India is the only country in the world
with a Ministry dedicated to New and
Renewable Energy
• There are nodal agencies in each
State, specifically working on
increasing the percentage of renewable
energy sources
• The States of Rajasthan, Karnataka,
Maharashtra, Gujarat, and West Bengal
22. Solar Projects Currently in the
Pipeline in India
• Maharashtra – Dozens of Solar Power Plant projects
proposed and/or in development
• Rajasthan – 49 proposals totalling 1524 MW
• Gujarat - 37 Projects proposed or in development
totalling
716 MW and an estimated potential of over 100 GW
• Karnataka - 6 MW commissioned and over 100 MW
of estimated potential
• Haryana – 12 MW of projects in the pipeline
• Punjab - 19 MW of projects in the pipeline
23.
24.
25. Solar Insolation
(1) kWh/kW p ·y) or (2) kW·h/(m 2 ·day) or (3)
hours/day
• Solar Insolation is a measure of solar
radiation energy incident on a surface area over
time
• The average irradiance (W/m 2 ) is expressed in
(watts per square meter)
• Insolation is commonly measured as kWh/(kW p ·y)
(kilowatt-hours per year per kilowatt peak
rating)
• Insolation or irradience is also expressed in kW·h/
(m 2 ·day) (kilowatt-hours per square meter per day)
• Solar Insolation is also sometimes expressed in
just
(hours/day)
26. Solar Insolation, Solar
Radiation, and Photons
• If solar radiation is incident on a surface some of it will be
absorbed and some of it will be reflected
• Solar radiation absorbed on the surface of an object, usually
is converted to thermal energy, and increases the
temperature of the object
• In a solar cell, if solar radiation is incident on the surface,
photons are absorbed by the photovoltaic (PV) semiconductor
material, and the energy of the valence band electrons is
increased (valence band electrons are those in an atom’s
outermost energy band)
• This increase in energy of the now “free electrons” thrust
them into conduction bands in the PV semiconductor material
(the solar cell)
• Free electrons, in conduction bands, produce current that
can move through the solar cell
• The product of the current and it’s associated voltage is
27.
28. Global Insolation, Intensity, Wavelength, and the
Angle of Incidence of Light
• Light absorbed by a solar cell is a combination of direct
solar radiation plus the “diffuse light” or “diffuse radiation”
caused by atmospheric scattering and reflection or re-
direction
• Global Insolation equals Direct Insolation plus Diffuse
Insolation
• The amount of current generated in a PV (solar) cell is
determined predominantly by:
(1) the intensity of the incident light
(2) the wavelengths of the incident rays of light
• Increasing the intensity of the light will increase the rate of
photons “freeing electrons” in the solar cell proportionally
• The variety of semiconductor materials used in the different
types of solar cells have different spectral responses to
incident light, providing for varying absorption
characteristics of photons in the different types of solar cells
for a given wavelength of light
• When the sun’s rays of light are incident on a surface at an
29. Pusad, Maharashtra Power
Plant
Annual Solar Insolation
• The Pusad Solar Power Plant receives on average
approximately 1971 kWh/m2 of Direct Insolation per
year
• Direct Insolation is used for an approximation (+/-
20%)
• Global Insolation which is equal to Direct
Insolation plus the Diffuse Insolation is the more
• The annual average Direct Insolation in India varies
accurate measurement
from 1600 to 2200 kWh/m2, comparable to that
received in the tropical regions of the world
• The equivalent energy potential for the Pusad
Solar Power Plant is 1.5 Million kWh/year per MW
Solar DC
• The equivalent energy potential for all of India is
about 6,000 million GWh/year
30.
31. Pusad, Maharashtra Solar Power
Plant Annual Energy Output
Prediction per MW Solar DC
1.971 Million kWh of Annual Energy
Potential multiplied by an Efficiency Factor
of (.78)
= 1.5 Million kWh per MW Solar DC
The Predicted Annual Energy Output for
the Pusad Solar Power Plant is
1,500,000 kiloWatt hours of energy per
year per MW Solar DC
32. A Levelized Tariff of Rs. 15/kWh
of Solar Power Generation and Gross
Annual Income
• The Pusad Solar Power Plant receives on average
1971 kWh/m2 of solar insolation per year
• The equivalent energy potential for the Pusad Power
Plant is 1.971 Million kWh per year per MW Solar DC
• The Predicted Annual Energy Output for the
Pusad Solar Power Plant is 1.5 Million kWh per
MW Solar DC
• A Levelized Tariff of Rs. 15/kWh ($0.2985/kWh)
multiplied by the Predicted Annual Energy Output of 1.5
Million kWh yields the Gross Annual Income (per MW
Solar DC)
• The Gross Annual Income for the Pusad Solar
Power Plant per MW Solar DC = Rs. 225 Million/yr
(Euro 328,800/yr) ($448,400/yr) (1 Indian rupee =
0.0199 US dollars)
33. Pusad Solar Power Plant
Total Gross Income
Gross Income Approximation
for the Life of a 25 year PPA
Pusad Solar Power Plant Gross Income =
$448,400/yr x 25 years
= $11,210,000 per MW Solar DC
Based on :
• Levelized Tariff of Rs. 15/kWh ($0.2985/kWh)
• Predicted Annual Energy Output of 1.5 Million
kWh per MW Solar DC
34.
35. Financial Incentives:
Tariffs, PPA’s, GBI’s, REC’s,
RPO
• Levelized Tariffs with a Project life of 25 years
Rs 15.00/kWh (Euro 0.22/kWh) ($0.30/kWh)
or
Rs 18.44/kWh (Euro 0.29/kWh) ($0.40/kWh) per CERC
• 25 Year Power Purchase Agreements (PPA) with NVVN
• PPA partner - NTPC Vidyut Vyapar Nigam Ltd. (NVVN)
and
• Generation Based Incentives (GBI’s)
• Renewable Energy Certificates (REC’s)
• the Renewable Purchase Obligation (RPO)
36. The Power Purchase Agreement
(PPA)
Most Solar Power Plants are Financed Through a PPA
• The PPA is an agreement between the Pusad Solar
Power Plant and the buyer of the electricity, NVVN
• The buyer only pays for power that is produced
• The produced power is bought at prices that are
pre-determined and agreed to in the PPA
• There are no upfront costs or down payments
required
from the power buyer
• The buyer receives financial savings by procuring
power
typically starting at or below wholesale market
prices
• Electricity costs for the buyer are structured to
increase slower than the normal rate of electricity
37. Current CERC Guidelines for Solar PV
India
(CERC - Central Electricity Regulatory Commission )
Capital Costs:
Rs. 17 Crore/MW (Euro 2.66 Million /MW) ($3.66 Million /
MW)
O&M Expenses:
Rs. 9 lakhs/MW (Euro 14,000/MW) ($19,200/MW)
for 1 st year of operation – then escalates @ 5.72%/year
(approximate total O&M expense for first five years =
$100,000)
Capacity Utilization Factor:
19%
38. Financial Assumptions
Pusad Solar Power Plant (CERC
Guidelines)
per MW Solar DC
Debt to Equity ratio: 70% : 30%
$2,562,000 : $1,098,000
Loan Interest Rate: 14.29%
Loan Repayments: $40,227/mo for 10 years
Total of loan repayments: $4,827,264
Return on Equity: 19% per year for first 10
years
24% per year starting the 11 th
year
Weighted average Return on Equity: 22%
39.
40. Project Outline & Scope of
Work
Site and Land Assessment
Solar Resource Assessment
Energy Yield Study
Environmental Impact Assessment
Comparative Analysis
Electric Utility Requirements Analysis
Power Purchase Agreement
Governmental and Organizational Liaisons
Funding and Financing
Business and Financial Analysis
41. Project Outline & Scope of Work
(continued)
Technology/Resource Assessment
Preliminary Solar Plant Design and Interconnect
Analysis
Detailed Solar Plant Design
Manufacturers/Suppliers/Resources Analysis
Quality Assurance Plan
Procurement and Construction
Project Management and Execution
Integration and Testing
Project Documentation and Training
42.
43.
44. Solar
Modules
The PV modules selected for the Pusad Solar Power
Plant will qualify to the latest edition of the IEC PV
module qualification tests or equivalent BIS standards
including :
• IEC 61215 for Crystalline Silicon Solar Cell Modules
• IEC 61646 for Thin Film Modules
• IEC 61730 for Safety Qualification Testing
Warranty Requirements for
Modules
The PV modules will also be warranted for output
wattage of not less than:
• 90% of rated at the end of 10 years
• and of not less than 80% of rated at the end of 25
45. Solar PV
Inverters
• A solar PV inverter changes the direct current (DC)
electricity from a PV solar array into alternating
current (AC)
• Grid tie inverters are used to connect the power
plants to the grid
• The efficiency of an inverter has to do with how
well it converts the DC voltage into AC
• Grid connected inverters have efficiencies of 96%
to 98.5%
• Inverters are most efficient when used in the 30%
to 90% power range and much less efficient at the
low end of their power range
• Typically inverters perform reliably for 15 years,
but they perform less reliably in large power plants,
46.
47. Pusad, Maharashtra Solar Power
Plant Data Acquisition &
Monitoring
The following data will be continuously logged
and monitored during the life of the
power plant :
• Solar insolation
• Ambient temperature
• Wind speed
• Humidity
• DC power generated
• AC power generated
48. Pusad, Maharashtra Solar
Power Plant Local Advantage
• Local Ownership – we own the Land
• Local Relationships
• Indian Policy Expertise
• Excellent Execution Capability
• Local Risk Mitigation
• New York and Silicon Valley Business
Experience
• Engineering Expertise
• Finance Expertise
• Operations Expertise
49. Our Project Partners – Come Join
Us !
• International/Indian Module Manufacturers
• International/Indian System Integrators/EPCs
• International/Indian BOS
Manufacturers/Suppliers
• Maharashtra State Electricity – State
Transmission Utility Company
Potential Project Financiers
• Private Equity Investors
• International Foundations
• Entrepreneurs
• Venture Capitalists
50. Challenges ? We Plan Proactively !
• Land acquisition is the single biggest challenge for
solar developers in India ! – we already have secured the
land
• Potential conflicting policies between Federal and
State Governments ? - no problem
• Difficulties regarding requirements & permissions for
land use, power evacuation, water linkage, town
planning ?
– no problem
• Grid parity and power fluctuations, grid quality
problems ?
no problem – we know electricity
• Lack of experience: Absence of trained technicians,
engineers and managers ? – we have experience