How to use the advanced (regulator) large hydro power plant project finance model

July 25th, 2017 No Comments   Posted in financial models

How to use the advanced (regulator) large hydro power plant project finance model

Finding an easy-to-use project finance model for a large hydro power plant with built-in data is sometimes difficult as some models don’t have the sophistication of a regulator template model as well as the ease of using the model and viewing immediately the results of a sensitivity change in the inputs to the model.

This is now made easy because the Input & Assumptions worksheet (tab) has combined all the input and output information in a single worksheet and placing the reports in other worksheets such as Tariff Breakdown, Construction Period, Operating Period, Financial Reports and Levelized Tariff.

Following is a sample case study on a large hydro power plant. From the preliminary design and cost estimates, the top management would want to know if the business idea of going into large hydro power development, construction and operation is worth the effort – is it feasible and what are the economic and financial returns for risking capital.

Here are the inputs and outputs of the advanced template model from OMT ENERGY ENTERPRISES:

——————————————————————————————-

Here are the summary of inputs:

all-in capital cost (overnight cost) = 2,936 $/kW (target cost)

EPC cost portion = 2,109 $/kW (computed by model)

refurbishment cost = 5% of EPC cost on the 15th year (overhaul)

fixed O&M cost = 14.13 $/kW/year (target cost) = 4,728.61 ‘000$/unit/year (computed by goal seek)

variable O&M cost = 2.00 $/MWh (target cost) = 8.61 ‘000$/MW/year (computed by goal seek)

general admin cost = 100.00 ‘000$/year (target cost)

 

Thermal power plant inputs: (no applicable to large hydro)

Gross heating value of large hydro fuel = 5,198 Btu/lb

Plant heat rate = 13,500 Btu/kWh (25.28% thermal efficiency)

Cost of biomass fuel = 1.299 PhP/kg = 1,299 PhP/MT

 

Lube oil consumption rate = 5.4 gram/kWh

Density of lube oil = 0.980 kg/Liter

Cost of lube oil = 200.00 PhP/Liter

 

capacity = 500.00 MW/unit x 1 unit = 500.00 MW

 

Plant Availability Factor, %                                    57.68% (computed by goal seek)

Load Factor, %                                                     92.00% (assumed)

allowance for losses & own use, %                         2.00% (assumed)

Net Capacity Factor after losses & own use, %    52.00% (target net capacity factor)

Degradation rate, %                                               0.5%

 

construction period = 36 months (start 2014)

operating period = 30 years (start 2017)

 

Capital cost estimation assumptions and % local cost (LC):

Power plant footprint (ha)                                   40.00

Cost of purchased land (PhP/sqm)                    25.00 (no land lease)

Land cost, $000 $198.82 100.0%
Equipment Cost ex BOP, Transport ($000/MW) $1,842.20 43.0%
Insurance, Ocean Freight, Local Transport, % of Equipment Cost 4.5% 100.0%
Balance of Plant (BOP), % of Equipment Cost 10.0% 80.0%
Transmission Line Distance (km) 25.00
T/L Cost per km, 69 kV ($000/km) $84.00 100.0%
Switchyard & Transformers ($000) $500.00 100.0%
Access Roads ($000/km) $20.00 100.0%
Distance of Access Road (km) 15.00
Dev’t & Other Costs (land, permits, etc) (% of EPC) 2.5% 100.0%
VAT on importation (70% recoverable) 12% 100.0%
Customs Duty 3% 100.0%
Initial Working Capital (% of EPC) 5.0% 100.0%
Contingency (% of Total Cost) 7.5% 55.7%

 

Capital cost breakdown (‘000$): (computed values)

Uses of Fund:
   Land Cost $199
   EPC (Equipment, Balance of Plant, Transport) $1,054,662
   Transmission Line Interconnection Facility $2,100
   Sub-Station Facility $500
   Development & Other Costs (Civil Works, Customs Duty) $47,263
   Construction Contingency $81,295
   Value Added Tax $69,536
   Financing Costs $159,156
   Initial Working Capital $52,733
Total Uses of Fund – $000 $1,467,443
                                 – PhP 000 73,808,108
Sources of Fund:
   Debt $1,027,210
   Equity $440,233
Total Sources of Fund $1,467,443

 

Local and Foreign Cost Components (from individual cost item):

Local Capital = 56 %

Foreign Capital = 44 %

 

Balance Sheet Accounts:

Receivables = 30 days of revenue

Payables    = 30 days of expenses

Inventory    = 60 days of consumables

 

Imported Capital Equipment:

Customs duty = 3%

Value added tax (VAT) = 12%

VAT recovery = 0% on 5th year of operation

 

Type of input / output VAT = 1 (with VAT)

Type of incentives = 1 (NO incentives)

 

Tax Assumptions:

Income Tax Holiday (yrs) 0
Income Tax Rate % (after ITH) 30%
Property tax (from COD) 2.0%
Property tax valuation rate (% of NBV) 80%
Local Business Tax 1.0%
Government Share (from COD) 0.0%
ER 1-94 Contribution (PhP/kWh) 0.01
Withholding Tax on Interest (Foreign Currency) – WHT 10%
Gross Receipts Tax on Interest (Local Currency) – GRT 1%
Documentary Stamps Tax (DST) 0.5%
PEZA Incentives (% of gross income) – 0% / 5% 0%
Royalty 0%

 

Capital Structure:

Equity Share = 30% at 14.00% p.a. target equity returns (IRR)

Debt Share = 70% (56% local, 44% foreign)

 

Debt Terms:

Local & Foreign Upfront & Financing Fees 2.00%
Local & Foreign Commitment Fees 0.50%
Local All-in Interest Rate excluding tax 10.00%
Local Debt Payment Period (from end of GP) (yrs) 10
Foreign All-in Interest Rate excluding tax 8.00%
Foreign Debt Payment Period (from end of GP) (yrs) 10
Local and Foreign Grace Period from COD (mos) 6
Local and Foreign debt Service Reserve (mos) 6

 

Foreign Exchange Rate:

Base Foreign Exchange Rate (PhP/US$) – 2013            48.0000 (construction)

Forward Fixed Exchange Rate (PhP/US$) – 2014           50.2971 (operating)

 

Escalation (CPI):

Annual Local CPI – for OPEX      0.0%            4.0%     for CAPEX (to model construction delay)

Annual US CPI – for OPEX           0.0%            2.0%     for CAPEX (to model construction delay)

 

Weighted Average Cost of Capital:

WACC = 10.58% p.a.

WACC pre-tax = 12.11% p.a.

WACC after-tax = 8.48% p.a.

 

Results of Financial Analysis:

 

First year tariff (Feed-in-Tariff) = 6.19949 P/kWh = 0.12326 USD/kWh

(at zero equity NPV)

 

Short run marginal cost (SRMC) and Long run marginal cost (LRMC):

Item PhP 000 PhP/kWh
Fuel                      – 0.00000
Lubes                7,127 0.00011
Var O&M          6,496,970 0.10252
Total          6,504,097 0.10263
MWh net        63,374,220
SRMC          6,504,097 0.10263
Fix O&M        33,657,041 0.53108
Capital Cost      352,726,856 5.56578
LRMC      392,887,994 6.19949

 

SRMC = 0.10263 PHP/kWh (variable O&M + fuel + lubes)

LRMC = 6.19949 PHP/kWh (capital cost + fixed O&M + regulatory + SRMC)

 

Equity Returns: (30% equity, 70% debt)

IRR          = 14.00    % p.a. (target returns)

NPV        = 0.00     ‘000$

PAYBACK = 10.02    years

 

Project Returns: (100% equity, 0% debt)

IRR          = 11.65          % p.a.

NPV        = (9,394,578)  ‘000$ (negative since IRR < 14.00%)

PAYBACK = 7.08           years

——————————————————————————————-

The above runs were based on goal-seek to make equity NPV = 0 (to meet equity IRR target of 14.00% p.a.).

You can perform sensitivity analysis and save the results in a case column (copy paste value).

You can breakdown the tariff ($/kWh) into its capital ($/kW-month) and variable cost recovery ($/kWh) portions.

You can prepare all-in capital cost breakdown showing interest cost during construction and does model the impact of project construction delays.

You can show the evolution of capacity and generation (degradation) during the operating period and show other revenues, expenses and balance sheet accounts as they change over time during operation years.

You can show the income & expense statement.

You can show the cash flow statement.

You can show the balance sheet.

You can show the debt service cover ratio (DSCR) as it computes the cash flow available for debt service.

It also computes the benefits to cost ratio (B/C) of the project.

Finally, it computes the other financial ratios such as:

LIQUIDITY RATIOS

SOLVENCY RATIOS

EFFICIENCY RATIOS

PROFITABILITY RATIOS

MARKET PROSPECT RATIOS

 

Download the sample file below:

Model Inputs and Results – Large Hydro

Download the complete demo model for a large hydro power plant in PHP and USD currencies are shown below:

 ADV Large Hydro Model3 – demo5b

ADV Large Hydro Model3 (USD) – demo5b

 

If you have actual data from your OEM and EPC suppliers, kindly share the data with me or simply enter your live data into the above models and see how the results will change immediately before your eyes. Please email me back the updated demo model with your new data so you may share it will all our readers of this blog.

 

To purchase the PHP and USD models at a discount, click the link below:

Large Hydro 500 mw Power Project Finance Model Ver. 3 – in USD and PHP Currency

 

You may place your order now and avail of a package for the unlocked model and I will give you one-hour free for assistance in putting your input data into the model (via telephone or email or FB messenger).

 

Your energy technology selection expert.

Email me for more details and how to order off-line:

energydataexpert@gmail.com

Visit our on-line digital store to order on-line

www.energydataexpert.com

www.energytechnologyexpert.com

 

Hydro Project Finance Model Template (Financials Tab) – free demo

April 17th, 2016 No Comments   Posted in hydro power

Hydro Project Finance Model Template (Financials Tab) – free demo

This is the latest project finance model template (financials tab or worksheet) that your energy technology selection expert has developed for hydro electric power. Familiarize with the template and if interested, get the full unlocked version for your immediate use. I can also provide data input service or customize further the model.

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How to Design a Mini-Hydro Power Plant

November 13th, 2015 No Comments   Posted in hydro power

How to Design a Mini-Hydro Power Plant

 

Excel programs to help you automate your design, optimize penstock diameter and determine economic viability and prepare feasibility studies

Take advantage of the Christmas Holiday Big Discount Sale.

Order now your top-of-the-line this December your advanced Excel programs for designing a mini-hydro to develop a number of design alternatives and run the project finance models at various exceedance (% of the time a given flow is exceeded) in order to optimize hydro plant capacity and configuration as well as determine the optimal penstock diameters.

Mini-hydro Power Plant Design Toolkit.xlsm

ADV Mini-hydro Power Plant Project Finance Model.xlsm

Sample Feasibility Study for a Mini-Hydro Power Project.pdf

To order, email me at my Gmail account:

energydataexpert@gmail.com

To remit payment, use my PayPal account:

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To download the complete article with the tables, pictures and graphs – please download the file below (click the link below):

How to Design a Mini-Hydro Power Plant – Copy

Here is the article (minus the tables, pictures and graphs):

Since time immemorial, the earth has been blessed with an endless cycle of rain falling from the sky, onto the watershed, flowing as run-off into the rivers, lakes, groundwater, and finally into the oceans where it picks up the Sun’s limitless energy to evaporate again and join the clouds, only to be cooled by the shadow of the earth as cold winds precipitate the saturated vapors that falls again to repeat the cycle. More »

Project Finance Models for CLEAN DEVELOPMENT MECHANISM (CDM EDITION)

June 27th, 2012 No Comments   Posted in renewable energy

Project Finance Models for CLEAN DEVELOPMENT MECHANISM (CDM EDITION)

Yes, your energy technology selection and business development expert has developed a low-cost set of project finance models for CDM professionals (engineers, business development, investment bankers, managers) and novice professionals who want to learn and start their career in financial modeling of renewable energy projects.

Just follow this link to order, pay and download your favorite renewable energy project finance model – CLEAN DEVELOPMENT MECHANISM EDITION. More »

Project Finance Models for FEED-IN-TARIFF REGULATOR

June 27th, 2012 1 Comment   Posted in renewable energy

Project Finance Models for FEED-IN-TARIFF REGULATOR

Yes, your energy technology selection and business development expert has developed a low-cost set of project finance models for government feed-in-tariff regulators and novice professionals who want to learn and start their career in financial modeling of renewable energy projects.

Just follow this link to order, pay and download your favorite renewable energy project finance model – FEED-IN-TARIFF REGULATOR EDITION. More »

Project Finance Models for PROFESSIONALS

June 27th, 2012 No Comments   Posted in renewable energy

Project Finance Models for PROFESSIONALS

Yes, your energy technology selection and business development expert has developed a low-cost set of project finance models for professionals (engineers, business development, investment bankers, managers) and novice professionals who want to learn and start their career in financial modeling of renewable energy projects.

Just follow this link to order, pay and download your favorite renewable energy project finance model – PROFESSIONAL EDITION. More »

Project Finance Models for STUDENTS

June 27th, 2012 No Comments   Posted in renewable energy

 Project Finance Models for STUDENTS

Yes, your energy technology selection and business development expert has developed a low-cost set of project finance models for students (college, masteral, PhD) and novice professionals who want to learn and start their career in financial modeling of renewable energy projects.

Just follow this link to order, pay and download your favorite renewable energy project finance model – STUDENT EDITION. More »

CDM Mini-Hydro Model2.xls

June 25th, 2012 No Comments   Posted in renewable energy

CDM Mini-Hydro Model2.xls

In addition to the worksheets found in the ADV models of the regulator, 5 additional tabs or worksheets have been added (Capex, Opex, Revenues, Project IRR and Sensitivity) into the CDM model which is a financial evaluation without taxes (that distort the economic and technical performance) and debt (pure equity investment). For the RE project to benefit from CDM credits, the project IRR should not be more than 15% p.a.

Mini-hydro or run-of-river system is carried out mostly in the mountains where a slowly snaking terrain will lend itself to conveying the water via a canal headrace with minimal head loss and then dropping the water head thru the penstock to the power turbines and exiting to the tailrace to rejoin the river flow. As such, it does not need a dam but rather a diversion weir to divert water to the canal headrace. More »

MTO Mini-Hydro Model.xls

June 24th, 2012 No Comments   Posted in renewable energy

MTO Mini-Hydro Model.xls

Mini-hydro or run-of-river system is carried out mostly in the mountains where a slowly snaking terrain will lend itself to conveying the water via a canal headrace with minimal head loss and then dropping the water head thru the penstock to the power turbines and exiting to the tailrace to rejoin the river flow. As such, it does not need a dam but rather a diversion weir to divert water to the canal headrace.

This MTO first-year tariff model for mini-hydro makes use of the basic assumptions of the country’s RE regulator for rated capacity (0.9 MW), capacity factor (80%), plant own use (2.9%), and transmission line loss (0.061%). More »

ADV Mini-Hydro Model.xls

June 24th, 2012 No Comments   Posted in renewable energy

ADV Mini-Hydro Model.xls

Mini-hydro or run-of-river system is carried out mostly in the mountains where a slowly snaking terrain will lend itself to conveying the water via a canal headrace with minimal head loss and then dropping the water head thru the penstock to the power turbines and exiting to the tailrace to rejoin the river flow. As such, it does not need a dam but rather a diversion weir to divert water to the canal headrace.

This advanced feed-in-tariff model for mini-hydro makes use of the basic assumptions of the country’s RE regulator for rated capacity (1 x 6.0 MW), capacity factor (48%), plant own use (2%), and 0.50% plant degradation rate. More »

Get Your Energy Technology Articles the Easy Way – Shopping Cart

June 19th, 2012 No Comments   Posted in energy technology expert

Get Your Energy Technology Articles the Easy Way – Shopping Cart

You can now order on-line your energy technology articles the easy way – via the Shopping Cart.

Once you have decided to purchase, proceed to order via the shopping cart and pay thru PayPal thru your bank account or your credit card and download immediately the models. More »

Get Your Project Finance Models the Easy Way – Shopping Cart

Get Your Project Finance Models the Easy Way – Shopping Cart

You can now order on-line your project finance models the easy way – via the Shopping Cart.

Once you have decided to purchase, proceed to order via the shopping cart and pay thru PayPal thru your bank account or your credit card and download immediately the models. More »

Mini-Hydro Power Feed-In Tariff, Levelized Generation Cost and Financial Model with CDM Carbon Credits

November 26th, 2009 20 Comments   Posted in financial models

Mini-Hydro Power Feed-In Tariff, Levelized Generation Cost and Financial Model with CDM Carbon Credits

The following is a snippet of my state-of-the-art project finance model for calculating feed-in tariff, levelized cost of energy, and financial model (generation, fuel requirement, income statement, cash flow statement, balance sheet and financial ratios).  To secure a copy of the spreadsheet, click the ENERGY DATA page for arrangements.

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Hydro Power

The file (633 KB) will cover the following topics:

Hydro Power

Flowing water creates energy that can be stored, captured and turned into electricity. Hydropower is the world’s most important renewable energy source. It provides 7.2% of world’s primary energy and 18.5% of electric power generation.

Price: 26 USD