Project Finance Modeling for Renewable Energy



Free Download Project Finance Modeling for Renewable Energy
Last updated 3/2024
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 9.46 GB | Duration: 15h 36m
Learn Financial Modeling for wind and solar projects


What you’ll learn
How to build project finance model from scratch in excel for wind and solar projects;
Learn how renewable energy projects get developed and financed;
How to create best practice macro’s and Excel VBA codes to break circularities;
Learn how to size debt based on multiple covenants for wind and solar projects;
How to model Debt Service Reserve Account;
How to model unlevered project returns and blended equity returns;
Learn to integrate multiple probability exceedance generation profiles (P50, P99) into the financial model;
Learn basics of GP/LP flip structures and tax equity for project financing;
Gain insights into financial model development process, step-by-step – for a renewable energy model.
Requirements
You will need previous exposure to Excel in a financial modelling context and basic knowledge of investment concepts such as NPV, IRR and cash flows.
Description
Project Finance Modeling for Renewable Energy course will give you the skills to develop and analyze financial models for wind and solar projects. The course covers essential topics including debt sizing and funding, wind and solar project operations, and investment returns, and will provide you with a robust financial modeling skillset for analysis of renewable projects in the most sophisticated environments.In an online environment you will go from a blank Excel workbook to a financial model suitable for investment analysis, debt structuring and operational scenario evaluation. This course will provide step-by-step instructions on how to build financial model suitable for analyzing wind and solar projects.What this course is about?Project finance models for renewable energy are used to assess the risk-reward of lending to and investing in renewable project (wind and solar). The project’s debt capacity, investment returns and financial feasibility depend on expected future cash flows generated by the renewable energy project itself and a financial model is built to analyze this.In the Project Finance Modeling for Renewable Energy course we will model complex wind and solar project finance transactions from scratch in excel.You will learn about:- How to build a project finance model from scratch in excel for wind and solar projects;- Learn how renewable energy projects get developed and financed;- How to create best practice macro’s and Excel VBA codes to break circularities;- Learn how to size debt based on multiple covenants for wind and solar projects;- How to model Debt Service Reserve Account;- How to model unlevered project returns and blended equity returns;- Learn to integrate multiple probability exceedance generation profiles (P50, P99) into the financial model;- Learn basics of GP/LP flip structures and tax equity for project financing;- Gain insights into financial model development process, step-by-step – for a renewable energy model;- Optimize the model to achieve the requirements of lenders and investors.Why you should enroll in the Project Finance Modeling for Renewable Energy course? Realistic project finance training – The Project Finance Modeling for Renewable Energy course includes over 10 hours of instructor-led video content to learn at your own pace. After completing this course you will be able to build complex, real-life project finance model for wind and solar projects.Affordability – a similar course, which provides realistic project finance modeling training will cost you anywhere from US$1000 to US$3,000 per course.Learn anytime and anywhere – The Project Finance Modeling course is 100% online so you can learn the modeling when it is convenient for you.How does it work?The course length is over 10 hours. First, we will review the basics of wind and solar projects development, so we understand all essential components of project finance transactions in the context of renewable energy.Then, in the second part, we will review financial modeling methods and excel functions that we will use often in this course, to improve our productivity in excel. We will begin financial modeling in the third part, where we will build a financial model for wind and solar projects for the case when SPV pays taxes. And, finally, In the fourth part, we will review the peculiarities of the US renewable projects and build a financial model that takes into account the tax credits available in the US, and introduce to the new source of financing called tax equity. Is this course for you?Yes, if you need to build, review or analyse project finance models within the renewable energy sectors. Typical students include analysts, managers, senior managers, associate directors, financial advisors, financiers and CFOs from project companies, investment banks, private equity and infrastructure funds.This course prerequisites:You will need previous exposure to Excel in a financial modelling context and basic knowledge of investment concepts such as NPV and cash flows.
Overview
Section 1: Introduction to the Course
Lecture 1 Intro to the Course
Section 2: Part 1 – Basics of Wind and Solar Projects Development
Lecture 2 Renewable Energy Overview
Lecture 3 Wind and Solar Equipment
Lecture 4 Energy Generation
Lecture 5 Wind and Solar Resources
Lecture 6 P-Value, Probability and Excel
Lecture 7 Selling Energy under the PPA
Lecture 8 Risk Allocation under the PPA
Lecture 9 PPA terms
Lecture 10 Construction Contracts in Renewable Energy Development
Lecture 11 Construction Risks
Lecture 12 Operating costs
Lecture 13 Financing of Renewable Energy Project
Lecture 14 Role of the SPV in Financing
Lecture 15 Sources of Financing for Renewable Energy Projects
Lecture 16 Loan Agreement
Lecture 17 Debt Sizing
Lecture 18 Debt Sizing Example
Lecture 19 Control Accounts & Cash Flow Waterfall
Lecture 20 Covenants in Project Finance
Section 3: Part 2 – Excel Refresher
Lecture 21 Calculations In Blocks
Lecture 22 Paste Forward Link
Lecture 23 Daisy Chains and Link Formatting
Lecture 24 Using Placeholders
Lecture 25 Excel Shortcut Keys
Lecture 26 Understanding Anchoring
Lecture 27 Understanding Dates
Lecture 28 Understanding IF Statements
Lecture 29 Understanding SUMIF function
Lecture 30 Understanding LOOKUP function
Lecture 31 Understanding MIN MAX functions
Section 4: Part 3 – Financial Modeling For Wind and Solar Projects (SPV pays taxes)
Lecture 32 Introduction to the Financial Model and Case Study
Lecture 33 Timing and Flags
Lecture 34 Modeling Dates
Lecture 35 Modeling Flags 1
Lecture 36 Modeling Flags 2
Lecture 37 Modeling Flags 3
Section 5: Modeling Energy Generation
Lecture 38 Energy Generation Recap
Lecture 39 Modeling Energy Generation
Lecture 40 Modeling Energy Generation with Seasonality Factor
Section 6: Selling Energy
Lecture 41 Selling Energy Recap
Lecture 42 Modelling Revenue
Section 7: Operating Costs
Lecture 43 Operating Costs Recap
Lecture 44 Modeling Operating Costs
Section 8: Working Capital
Lecture 45 Understanding Working Capital
Lecture 46 Modeling Working Capital
Section 9: PP&E and Depreciation
Lecture 47 Understanding PP&E and Depreciation
Lecture 48 Modeling PP& and Depreciation
Section 10: Tax Expense and Tax Paid
Lecture 49 Understanding Taxes
Lecture 50 Net Operating Losses
Lecture 51 Modeling Taxes 1
Lecture 52 Modeling Taxes 2
Section 11: Equity, Dividends and Cash
Lecture 53 Understanding Equity
Lecture 54 Modeling Equity, Dividends and Cash – 1
Lecture 55 Modeling Equity, Dividends and Cash – 2
Section 12: Sizing the Debt for Wind and Solar Projects
Lecture 56 Debt Sizing for Renewable Projects
Lecture 57 Sizing the Debt -1
Lecture 58 Sizing the Debt – 2
Section 13: Modeling Construction Phase
Lecture 59 Construction Timing
Lecture 60 Modeling Construction Costs
Lecture 61 Understanding Construction Funding
Lecture 62 Construction Funding Overview
Lecture 63 Modeling Construction Funding 1
Lecture 64 Modeling Construction Funding 2
Lecture 65 Financing costs 1
Lecture 66 Financing costs 2
Lecture 67 Linking Funding Sheet to Operations 1
Lecture 68 Linking Funding Sheet to Operations 2
Section 14: Term Loan
Lecture 69 Modeling Term Loan
Section 15: Project Finance Debt Ratios
Lecture 70 Understanding DSCR
Lecture 71 Modeling DSCR
Lecture 72 Understanding LLCR & PLCR
Lecture 73 Modeling LLCR
Lecture 74 Modeling LLCR based on effective interest rate
Section 16: Debt Service Reserve Account ("DSRA")
Lecture 75 Understanding DRSA – 1
Lecture 76 Understanding DSRA – 2
Lecture 77 Modeling DSRA 1
Lecture 78 Modeling DSRA 2
Lecture 79 Modeling DSRA 3
Lecture 80 Modeling DSRA 4
Section 17: Shareholder Loan
Lecture 81 Understanding Shareholder Loan – 1
Lecture 82 Understanding Shareholder Loan – 2
Lecture 83 Modeling Shareholder Loan – 1
Lecture 84 Modeling Shareholder Loan – 2
Lecture 85 Modeling Shareholder Loan – 3
Section 18: Project Returns
Lecture 86 Project Returns Overview
Lecture 87 Modeling Project Returns – 1
Lecture 88 Modeling Project Returns – 2
Lecture 89 Project Optimization
Section 19: Model Checks and Scenario Manager
Lecture 90 Modeling Checks
Lecture 91 Modeling Scenario Manager
Lecture 92 Construction Funding Macro
Section 20: Summary Sheet
Lecture 93 Summary
Section 21: Part – 4 Financial Modeling For Wind and Solar in US
Lecture 94 Investment Structuring
Lecture 95 Tax Efficiency
Lecture 96 Production Tax Credits
Lecture 97 Investment Tax Credit
Lecture 98 Modeling PTC
Lecture 99 Modeling ITC
Lecture 100 Modeling Tax Benefits for Efficient Taxpayer
Lecture 101 Modeling Tax Benefits for Inefficient Taxpayer
Lecture 102 NPV of Tax Benefits
Lecture 103 Modeling Returns of the Efficient and Inefficient Taxpayer
Lecture 104 Understanding Tax Equity – 1
Lecture 105 Understanding Tax Equity – 2
Lecture 106 Intro into Tax Equity Modeling
Lecture 107 Tax Equity Modeling 1 – Sizing Tax Equity
Lecture 108 Tax Equity Modeling 2 – Sizing Back Leverage Debt
Lecture 109 Tax Equity Modeling 3 – Construction Funding
Lecture 110 Tax Equity Modeling 4 – Sponsor’s Tax Credits and EBT
Lecture 111 Tax Equity Modeling 5 – Sponsor’s Tax Liability
Lecture 112 Tax Equity Modeling 6 – Sponsor IRR
Lecture 113 Tax Equity Modeling 7 – Summary
Section 22: Part 5 – Final Task
Lecture 114 Final Task
Lecture 115 Final Task – Instructions
Typical students include finance students, recent graduates, analysts, managers, senior managers, associate directors, advisers, financiers and CFOs from financial and infrastructure companies.
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