Special Sale on Power Plant Project Finance Models (Deterministic and Stochastic) – Renewable, Conventional, Fossil, Nuclear and Waste Heat Recovery Technologies

January 7th, 2018 No Comments   Posted in financial models

Special Sale on Power Plant Project Finance Models (Deterministic and Stochastic) – Renewable, Conventional, Fossil, Nuclear and Waste Heat Recovery

=============================================

NEWS FLASH JUST NOW.

YOU CAN NOW ORDER AND PURCHASE DETERMINISTIC AND STOCHASTIC (MCS) PROJECT FINANCE MODELS IN UNITED STATES DOLLAR (USD).

HERE ARE SOME EXAMPLE DEMO (LOCKED) MODELS:

ADV Biomass Cogeneration Model3 (demo) – in PHP

ADV Biomass Cogeneration Model3 (demo) (USD)

ADV Biomass Cogeneration Model3_MCS (demo) – in PHP

ADV Biomass Cogeneration Model3_MCS (demo) (USD)

ADV Biomass Direct Combustion Model3 (demo) – in PHP

ADV Biomass Direct Combustion Model3 (demo) (USD)

ADV Biomass Direct Combustion Model3_MCS (demo) – in PHP

ADV Biomass Direct Combustion Model3_MCS (demo) (USD)

FOR OTHER POWER GENERATION TECHNOLOGIES, YOU MAY ORDER AND PURCHASE BY EMAIL AT:

energydataexpert@gmail.com

AND SPECIFY YOUR TYPE OF MODEL. YOU MAY ALSO INCLUDE IN YOUR EMAIL YOUR SAMPLE INPUTS SO I CAN IMMEDIATELY CUSTOMIZE YOUR MODEL FOR FREE.

=============================================

This is a special offer for the entire year of 2018. For the price of a deterministic model, you get a free copy of a stochastic model.

Our company (OMT Energy Enterprises) can also provide customization services to provide you with power plant project finance models with fixed inputs (deterministic models) as well as random inputs (stochastic models).

If you have an existing model which you want to be audited or upgraded to have stochastic modeling capability, you may also avail of our services at an hourly rate of USD200 per hour for a maximum of 5 hours of charge for customization services.

Use the deterministic model to determine project feasibility, e.g. given first year tariff, determine the equity and project returns (NPV, IRR, PAYBACK), or given the equity or project target returns, determine the first year tariff.

Use the stochastic model to determine project risks during the project development stage. By varying the estimation error on the independent variable (+10% and -10%) and conducting 1,000 random trials, this model will show the upper limit of the estimation error so that the dependent variables will converge to a real value (no error).

A pre-feasibility study has a +/- 15-20% estimation error on the independent variables using rule-of-thumb values.

A detailed feasibility study has a +/- 10-15% estimation error on the independent variables using reasonable estimates guided by internet research on suppliers of equipment.

A final bankable feasibility study has a +/- 5-10% estimation error on the independent variables using EPC contractor and OEM supplier bids.

In the case of fuel oil (bunker) genset, for instance, the estimation error on the independent variables should be less than +3% and -3% so that the dependent variables will converge to a real value.

The model inputs consist of the fixed inputs (independent variables) plus a random component as shown below (based on +/- 10% range, which you can edit in the Sensitivity worksheet):

1) Plant availability factor (% of time) = 94.52% x ( 90% + (110% – 90%) * RAND() )

2) Fuel heating value (GHV) = 5,198 Btu/lb x ( 90% + (110% – 90%) * RAND() )

3) Plant capacity per unit = 12.00 MW/unit x ( 90% + (110% – 90%) * RAND() )

4) Variable O&M cost (at 5.26 $/MWh) = 30.05 $000/MW/year x ( 90% + (110% – 90%) * RAND() )

5) Fixed O&M cost (at 105.63 $/kW/year) = 1,227.64 $000/unit/year x ( 90% + (110% – 90%) * RAND() )

6) Fixed G&A cost = 10.00 $000/year x ( 90% + (110% – 90%) * RAND() )

7) Cost of fuel = 1.299 PHP/kg x ( 90% + (110% – 90%) * RAND() )

8) Plant heat rate = 12,186 Btu/kWh x ( 90% + (110% – 90%) * RAND() )

9) Exchange rate = 43.00 PHP/USD x ( 90% + (110% – 90%) * RAND() )

10) Capital cost = 1,935 $/kW x ( 90% + (110% – 90%) * RAND() )

The dependent variables that will be simulated using Monte Carlo Simulation and which a distribution curve (when you make bold font the number of random trials) may be generated are as follows:

1) Equity Returns (NPV, IRR, PAYBACK) at 30% equity, 70% debt

2) Project Returns (NPV, IRR, PAYBACK) at 100% equity, 0% debt

3) Net Profit After Tax

4) Pre-Tax WACC

5) Electricity Tariff (Feed-in-Tariff)

The following deterministic (fixed inputs) and stochastic (random inputs using Monte Carlo Simulation) models may be downloaded for only USD1,400.

Before you can run the MCS model, you need to download first the Monte Carlo Simulation add-in and run it before running the MCS model:

MonteCarlito_v1_10

The models for renewable, conventional, fossil, nuclear, energy storage, and combined heat and power (CHP) project finance models are based on a single template so that you can prioritize which power generation technology to apply in a given application for more detailed design and economic study.

The models below are in Philippine Pesos (PHP) and may be converted to any foreign currency by inputting the appropriate exchange rate (e.g. 1 USD = 1.0000 USD; 1 USD = 50.000 PHP, 1 USD = 3.800 MYR, etc.). Then do a global replacement in all worksheets of ‘PHP’ with ‘XXX’, where ‘XXX’ is the foreign currency of the model.

RENEWABLE ENERGY

process heat (steam) and power

http://energydataexpert.com/shop/power-generation-technologies/advanced-biomass-cogeneration-project-finance-model-ver-3/

bagasse, rice husk or wood waste fired boiler steam turbine generator

http://energydataexpert.com/shop/power-generation-technologies/advanced-biomass-direct-combustion-project-finance-model-ver-3/

gasification (thermal conversion in high temperature without oxygen or air)

http://energydataexpert.com/shop/power-generation-technologies/advanced-biomass-gasification-project-finance-model-ver-3/

integrated gasification combined cycle (IGCC) technology

http://energydataexpert.com/shop/power-generation-technologies/advanced-biomass-igcc-project-finance-model-ver-3/

waste-to-energy (WTE) technology for municipal solid waste (MSW) disposal and treatment

http://energydataexpert.com/shop/power-generation-technologies/advanced-biomass-waste-to-energy-wte-project-finance-model-ver-3-2/

waste-to-energy (WTE) pyrolysis technology

http://energydataexpert.com/shop/power-generation-technologies/advanced-biomass-waste-to-energy-wte-pyrolysis-project-finance-model-ver-3/

run-of-river (mini-hydro) power plant

http://energydataexpert.com/shop/power-generation-technologies/advanced-mini-hydro-run-of-river-project-finance-model-ver-3/

concentrating solar power (CSP) 400 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-concentrating-solar-power-csp-project-finance-model-ver-3/

solar PV technology 1 MW Chinese

http://energydataexpert.com/shop/power-generation-technologies/advanced-solar-photo-voltaic-pv-project-finance-model-ver-3-1-mw/

solar PV technology 25 MW European and Non-Chinese (Korean, Japanese, US)

http://energydataexpert.com/shop/power-generation-technologies/advanced-solar-photo-voltaic-pv-project-finance-model-ver-3-25-mw/

includes 81 wind turbine power curves from onshore WTG manufacturers

http://energydataexpert.com/shop/power-generation-technologies/advanced-onshore-wind-energy-project-finance-model-ver-3-copy/

includes 81 wind turbine power curves from offshore WTG manufacturers

http://energydataexpert.com/shop/power-generation-technologies/advanced-offshore-wind-project-finance-model-ver-3/

ocean thermal energy conversion (OTEC) technology 10 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-ocean-thermal-energy-conversion-otec-10-mw-project-finance-model-ver-3/

ocean thermal energy conversion (OTEC) technology 50 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-ocean-thermal-energy-conversion-otec-project-finance-model-ver-3-50-mw/

CONVENTIONAL, FOSSIL AND NUCLEAR ENERGY

geothermal power plant 100 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-geo-thermal-project-finance-model-ver-3/

large hydro power plant 500 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-large-hydro-impoundment-project-finance-model-ver-3/

subcritical circulating fluidized bed (CFB) technology 50 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-coal-fired-circulating-fluidized-cfb-project-finance-model-ver-3-50-mw/

subcritical circulating fluidized bed (CFB) technology 135 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-coal-fired-circulating-fluidized-bed-cfb-project-finance-model-ver-3-135-mw/

subcritical pulverized coal (PC) technology 400 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-pulverized-coal-pc-subcritical-project-finance-model-ver-3/

supercritical pulverized coal (PC) technology 500 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-pulverized-coal-pc-supercritical-project-finance-model-ver-3/

ultra-supercritical pulverized coal (PC) technology 650 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-pulverized-coal-pc-ultrasupercritical-project-finance-model-ver-3/

diesel-fueled genset (compression ignition engine) technology 50 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-diesel-genset-project-finance-model-ver-3-copy/

fuel oil (bunker oil) fired genset (compression ignition engine) technology 100 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-fuel-oil-genset-project-finance-model-ver-3-copy-2/

fuel oil (bunker oil) fired oil thermal technology 600 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-fuel-oil-thermal-project-finance-model-ver-3/

natural gas combined cycle gas turbine (CCGT) 500 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-natgas-fired-combined-cycle-gas-turbine-ccgt-project-finance-model-ver-3/

natural gas simple cycle (open cycle) gas turbine (OCGT) 70 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-natgas-fired-open-cycle-gas-turbine-ocgt-project-finance-model-ver-3/

natural gas thermal 200 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-natgas-fired-thermal-project-finance-model-ver-3/

petroleum coke (petcoke) fired subcritical thermal 220 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-petcoke-thermal-power-plant-project-finance-model-ver-3/

nuclear (uranium) pressurized heavy water reactor (PHWR) technology 1330 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-nuclear-power-phwr-project-finance-model-ver-3/

WASTE HEAT RECOVERY BOILER (DIESEL genset; GASOLINE genset; PROPANE, LPG or NATURAL GAS simple cycle)

combined heat and power (CHP) circulating fluidized bed (CFB) technology 50 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-coal-fired-cfb-combined-heat-and-power-chp-project-finance-model-ver-3/

diesel genset (diesel, gas oil) and waste heat recovery boiler 3 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-diesel-fired-genset-combined-heat-and-power-chp-project-finance-model-ver-3/

fuel oil (bunker) genset and waste heat recovery boiler 3 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-bunker-fired-genset-combined-heat-and-power-chp-project-finance-model-ver-3/

gasoline genset (gasoline, land fill gas) and waste heat recovery boiler 3 MW

http://energydataexpert.com/shop/power-generation-technologies/advanced-gasoline-fired-genset-combined-heat-and-power-chp-project-finance-model-ver-3/

simple cycle GT (propane, LPG) and waste heat recovery boiler 3 MW (e.g. Capstone)

http://energydataexpert.com/shop/power-generation-technologies/advanced-lpg-fired-genset-combined-heat-and-power-chp-project-finance-model-ver-3/

simple cycle GT (natural gas, land fill gas) and waste heat recovery boiler 3 MW (e.g. Capstone)

http://energydataexpert.com/shop/power-generation-technologies/advanced-natgas-fired-genset-combined-heat-and-power-chp-project-finance-model-ver-3/

Cheers,

Your energy technology selection and project finance modeling expert

 

Complete List of Deterministic and Stochastic Project Finance Models

January 5th, 2018 No Comments   Posted in financial models

Complete List of Deterministic (fixed inputs) and Stochastic (random inputs) Project Finance Models

=============================================

NEWS FLASH JUST NOW.

YOU CAN NOW ORDER AND PURCHASE DETERMINISTIC AND STOCHASTIC (MCS) PROJECT FINANCE MODELS IN UNITED STATES DOLLAR (USD).

HERE ARE SOME EXAMPLE DEMO (LOCKED) MODELS:

ADV Biomass Cogeneration Model3 (demo) – in PHP

ADV Biomass Cogeneration Model3 (demo) (USD)

ADV Biomass Cogeneration Model3_MCS (demo) – in PHP

ADV Biomass Cogeneration Model3_MCS (demo) (USD)

ADV Biomass Direct Combustion Model3 (demo) – in PHP

ADV Biomass Direct Combustion Model3 (demo) (USD)

ADV Biomass Direct Combustion Model3_MCS (demo) – in PHP

ADV Biomass Direct Combustion Model3_MCS (demo) (USD)

FOR OTHER POWER GENERATION TECHNOLOGIES, YOU MAY ORDER AND PURCHASE BY EMAIL AT:

energydataexpert@gmail.com

AND SPECIFY YOUR TYPE OF MODEL. YOU MAY ALSO INCLUDE IN YOUR EMAIL YOUR SAMPLE INPUTS SO I CAN IMMEDIATELY CUSTOMIZE YOUR MODEL FOR FREE.

=============================================

Your energy technology selection expert is pleased to announce that deterministic (fixed inputs) and stochastic (random inputs from Monte Carlo Simulation) are now available for all power generation technologies (renewable energy such as biomass, solar PV and CSP, wind, mini-hydro, ocean thermal and ocean tidal/current, and conventional energy such as large hydro, geothermal, and fossil energy such as oil diesel and oil thermal, natural gas simple cycle and combined cycle, coal thermal and clean coal technologies, nuclear energy, and energy storage and waste heat recovery and combined heat and power technologies).

You may download the following samples to try the advanced features of using fixed inputs and random inputs in order to manage your project risks:

Deterministic (fixed inputs) model: (USD 700):

Stochastic (random inputs from Monte Carlo Simulation) model (USD 1400):

Before you can run the MCS model, you need to download first the Monte Carlo Simulation add-in and run it before running the MCS model:

MonteCarlito_v1_10

Here is the complete list of deterministic and stochastic project finance models.

RENEWABLE ENERGY

1) process heat (steam) and power (cogeneration)

ADV Biomass Cogeneration Model3 (demo)

ADV Biomass Cogeneration Model3_MCS (demo)

2) bagasse, rice husk or wood waste fired boiler steam turbine generator

ADV Biomass Direct Combustion Model3 (demo)

ADV Biomass Direct Combustion Model3_MCS (demo)

3) gasification (thermal conversion in high temperature without oxygen or air

ADV Biomass Gasification Model3 (demo)

ADV Biomass Gasification Model3_MCS (demo)

4) integrated gasification combined cycle (IGCC) technology

ADV Biomass IGCC Model3 (demo)

ADV Biomass IGCC Model3_MCS (demo)

5) waste-to-energy (WTE) technology for municipal solid waste (MSW) disposal and treatment

ADV Biomass WTE Model3 (demo)

ADV Biomass WTE Model3_MCS (demo)

6) waste-to-energy (WTE) pyrolysis technology

ADV Biomass WTE Model3 – pyrolysis (demo)

ADV Biomass WTE Model3 – pyrolysis_MCS (demo)

7) run-of-river (mini-hydro) power plant

ADV Mini-Hydro Model3_NIA (demo)

ADV Mini-Hydro Model3_NIA_MCS (demo)

8) concentrating solar power (CSP) 400 MW

ADV Concentrating Solar Power (CSP) Model3 (demo)

ADV Concentrating Solar Power (CSP) Model3_MCS (demo)

9) solar PV technology 1 MW Chinese

ADV Solar PV 1 mw Model3 (demo)

ADV Solar PV 1 mw Model3_MCS (demo)

10) solar PV technology 25 MW European and Non-Chinese (Korean, Japanese, US)

ADV Solar PV 25 mw Model3 (demo)

ADV Solar PV 25 mw Model3_MCS (demo)

11) includes 81 wind turbine power curves from onshore WTG manufacturers

ADV Wind Onshore Model3 (demo)

ADV Wind Onshore Model3_MCS (demo)

12) includes 81 wind turbine power curves from offshore WTG manufacturers

ADV Wind Offshore Model3 (demo)

ADV Wind Offshore Model3_MCS (demo)

13) ocean thermal energy conversion (OTEC) technology 10 MW

ADV Ocean Thermal Model3_10 MW (demo)

ADV Ocean Thermal Model3_10 MW_MCS (demo)

14) ocean thermal energy conversion (OTEC) technology 50 MW

ADV Ocean Thermal Model3_50 MW (demo)

ADV Ocean Thermal Model3_50 MW_MCS (demo)

14) ocean current and tidal technology (30 MW) – this is a similar to an air wind turbine but under water with a turbine propeller (Taiwan has an operating prototype in Kuroshio and PNOC-EC is venturing into ocean current at the Tablas Strait).

ADV Tidal Current Model3_30 MW (demo)

ADV Tidal Current Model3_30 MW_MCS (demo)

 

CONVENTIONAL, FOSSIL AND NUCLEAR ENERGY

1) geothermal power plant 100 MW

ADV Geo Thermal Model3 (demo)

ADV Geo Thermal Model3_MCS (demo)

2) large hydro power plant 500 MW

ADV Large Hydro Model3 (demo)

ADV Large Hydro Model3_MCS (demo)

3) subcritical circulating fluidized bed (CFB) technology 50 MW

ADV Coal-Fired CFB Thermal Model3_50 MW (demo)

ADV Coal-Fired CFB Thermal Model3_50 MW_MCS (demo)

4) subcritical circulating fluidized bed (CFB) technology 135 MW

ADV Coal-Fired CFB Thermal Model3_135 MW (demo)

ADV Coal-Fired CFB Thermal Model3_135 MW_MCS (demo)

5) subcritical pulverized coal (PC) technology 400 MW

ADV Coal-Fired PC Subcritical Thermal Model3 (demo)

ADV Coal-Fired PC Subcritical Thermal Model3_MCS (demo)

6) supercritical pulverized coal (PC) technology 500 MW

ADV Coal-Fired PC Supercritical Thermal Model3 (demo)

ADV Coal-Fired PC Supercritical Thermal Model3_MCS (demo)

7) ultra-supercritical pulverized coal (PC) technology 650 MW

ADV Coal-Fired PC Ultrasupercritical Thermal Model3 (demo)

ADV Coal-Fired PC Ultrasupercritical Thermal Model3_MCS (demo)

8) diesel-fueled genset (compression ignition engine) technology 50 MW

ADV Diesel Genset Model3 (demo)

ADV Diesel Genset Model3_MCS (demo)

9) fuel oil (bunker oil) fired genset (compression ignition engine) technology 100 MW

ADV Fuel Oil Genset Model3 (demo)

ADV Fuel Oil Genset Model3_MCS (demo)

10) fuel oil (bunker oil) fired oil thermal technology 600 MW

ADV Fuel Oil Thermal Model3 (demo)

ADV Fuel Oil Thermal Model3_MCS (demo)

11) natural gas combined cycle gas turbine (CCGT) 500 MW

ADV Natgas Combined Cycle Model3 (demo)

ADV Natgas Combined Cycle Model3_MCS (demo)

12) natural gas simple cycle (open cycle) gas turbine (OCGT) 70 MW

ADV Natgas Simple Cycle Model3 (demo)

ADV Natgas Simple Cycle Model3_MCS (demo)

13) natural gas thermal 200 MW

ADV Natgas Thermal Model3 (demo)

ADV Natgas Thermal Model3_MCS (demo)

14) petroleum coke (petcoke) fired subcritical thermal 220 MW

ADV Petcoke-Fired PC Subcritical Thermal Model3 (demo)

ADV Petcoke-Fired PC Subcritical Thermal Model3_MCS (demo)

15) nuclear (uranium) pressurized heavy water reactor (PHWR) technology 1330 MW

ADV Nuclear PHWR Model3 (demo)

ADV Nuclear PHWR Model3_MCS (demo)

 

WASTE HEAT RECOVERY BOILER (DIESEL genset; GASOLINE genset; PROPANE, LPG or NATURAL GAS simple cycle)

1) combined heat and power (CHP) circulating fluidized bed (CFB) technology 50 MW

ADV Coal-Fired CFB Thermal Model3_50 MW CHP (demo)

2) diesel genset (diesel, gas oil) and waste heat recovery boiler 3 MW

ADV Diesel Genset and Waste Heat Boiler Model3 (demo)

3) fuel oil (bunker) genset and waste heat recovery boiler 3 MW

ADV Fuel Oil Genset and Waste Heat Boiler Model3 (demo)

4) gasoline genset (gasoline, land fill gas) and waste heat recovery boiler 3 MW

ADV Gasoline Genset and Waste Heat Boiler Model3 (demo)

5) simple cycle GT (propane, LPG) and waste heat recovery boiler 3 MW (e.g. Capstone)

ADV Propane Simple Cycle and Waste Heat Boiler Model3 (demo)

6) simple cycle GT (natural gas, land fill gas) and waste heat recovery boiler 3 MW (e.g. Capstone)

ADV Simple Cycle and Waste Heat Boiler Model3 (demo)

 

A simple user manual on how to use the deterministic and stochastic project finance models and user license information are found in the files below:

_How to run the Advanced Project Finance Models of OMT (ver 2)

_DISCLAIMER, CONTACT INFORMATION, PAYMENT DETAILS and NON-DISCLOSURE

Our company (OMT Energy Enterprises) can also provide customization services to provide you with power plant project finance models with fixed inputs (deterministic models) as well as random inputs (stochastic models).

If you have an existing model which you want to be audited or upgraded to have stochastic modeling capability, you may also avail of our services at an hourly rate of USD200 per hour for a maximum of 5 hours of charge for customization services.

Use the deterministic model to determine project feasibility, e.g. given first year tariff, determine the equity and project returns (NPV, IRR, PAYBACK), or given the equity or project target returns, determine the first year tariff.

Use the stochastic model to determine project risks during the project development stage. By varying the estimation error on the independent variable (+10% and -10%) and conducting 1,000 random trials, this model will show the upper limit of the estimation error so that the dependent variables will converge to a real value (no error).

A pre-feasibility study has a +/- 15-20% estimation error on the independent variables using rule-of-thumb values.

A detailed feasibility study has a +/- 10-15% estimation error on the independent variables using reasonable estimates guided by internet research on suppliers of equipment.

A final bankable feasibility study has a +/- 5-10% estimation error on the independent variables using EPC contractor and OEM supplier bids.

In the case of fuel oil (bunker) genset, for instance, the estimation error on the independent variables should be less than +3% and -3% so that the dependent variables will converge to a real value.

The model inputs consist of the fixed inputs (independent variables) plus a random component as shown below (based on +/- 10% range, which you can edit in the Sensitivity worksheet):

1) Plant availability factor (% of time) = 94.52% x ( 90% + (110% – 90%) * RAND() )

2) Fuel heating value (GHV) = 5,198 Btu/lb x ( 90% + (110% – 90%) * RAND() )

3) Plant capacity per unit = 12.00 MW/unit x ( 90% + (110% – 90%) * RAND() )

4) Variable O&M cost (at 5.26 $/MWh) = 30.05 $000/MW/year x ( 90% + (110% – 90%) * RAND() )

5) Fixed O&M cost (at 105.63 $/kW/year) = 1,227.64 $000/unit/year x ( 90% + (110% – 90%) * RAND() )

6) Fixed G&A cost = 10.00 $000/year x ( 90% + (110% – 90%) * RAND() )

7) Cost of fuel = 1.299 PHP/kg x ( 90% + (110% – 90%) * RAND() )

8) Plant heat rate = 12,186 Btu/kWh x ( 90% + (110% – 90%) * RAND() )

9) Exchange rate = 43.00 PHP/USD x ( 90% + (110% – 90%) * RAND() )

10) Capital cost = 1,935 $/kW x ( 90% + (110% – 90%) * RAND() )

The dependent variables that will be simulated using Monte Carlo Simulation and which a distribution curve (when you make bold font the number of random trials) may be generated are as follows:

1) Equity Returns (NPV, IRR, PAYBACK) at 30% equity, 70% debt

2) Project Returns (NPV, IRR, PAYBACK) at 100% equity, 0% debt

3) Net Profit After Tax

4) Pre-Tax WACC

5) Electricity Tariff (Feed-in-Tariff)

The models are in Philippine Pesos (PHP) and may be converted to any foreign currency by inputting the appropriate exchange rate (e.g. 1 USD = 1.0000 USD; 1 USD = 50.000 PHP, 1 USD = 3.800 MYR, etc.). Then do a global replacement in all worksheets of ‘PHP’ with ‘XXX’, where ‘XXX’ is the foreign currency of the model.

 

To purchase, email me at:

energydataexpert@gmail.com

 

You may pay using PayPal:

energydataexpert@gmail.com

or via bank/wire transfer:

====================

1) Name of Bank Branch & Address:

The Bank of the Philippine Islands (BPI)

Pasig Ortigas Branch

G/F Benpres Building, Exchange Road corner Meralco Avenue

Ortigas Center, PASIG CITY 1605

METRO MANILA, PHILIPPINES

2) Account Name:

Marcial T. Ocampo

3) Account Number:

Current Account = 0205-5062-41

4) SWIFT ID Number = BOPIPHMM

====================

Once I confirm with PayPal or with my BPI current account that the payment has been made, I will then email you the real (un-locked) model to replace the demo model you have downloaded.

Hurry and order now, this offer is only good until January 31, 2018.

Regards,

Your Energy Technology Selection and Project Finance Expert

 

 

Biomass Direct Combustion (steam boiler + turbine) Project Finance Models (Deterministic and Stochastic)

January 4th, 2018 No Comments   Posted in financial models

Biomass Direct Combustion (steam boiler + turbine) Project Finance Models (Deterministic and Stochastic)

Your energy technology selection expert is pleased to announce that deterministic (fixed inputs) and stochastic (random inputs from Monte Carlo Simulation) are now available for all power generation technologies (renewable energy such as biomass, solar PV and CSP, wind, mini-hydro, ocean thermal and ocean tidal/current, and conventional energy such as large hydro, geothermal, and fossil energy such as oil diesel and oil thermal, natural gas simple cycle and combined cycle, coal thermal and clean coal technologies, nuclear energy, and energy storage and waste heat recovery and combined heat and power technologies).

In the case of biomass direct combustion (steam boiler + turbine), the following samples may be purchased at 50% discount.

You may download the following samples to try the advanced features of using fixed inputs and random inputs in order to manage your project risks:

Deterministic (fixed inputs) model: (USD 700):

ADV Biomass Direct Combustion Model3 (demo) – in PHP

ADV Biomass Direct Combustion Model3 (demo) (USD)

Stochastic (random inputs from Monte Carlo Simulation) model (USD 1400):

ADV Biomass Direct Combustion Model3_MCS (demo) – in PHP

ADV Biomass Direct Combustion Model3_MCS (demo) (USD)

Before you can run the MCS model, you need to download first the Monte Carlo Simulation add-in and run it before running the above MCS model:

MonteCarlito_v1_10

The model inputs consist of the fixed inputs (independent variables) plus a random component as shown below (based on +/- 10% range, which you can edit in the Sensitivity worksheet):

1) Plant availability factor (% of time) = 94.52% x ( 90% + (110% – 90%) * RAND() )

2) Fuel heating value (GHV) = 5,198 Btu/lb x ( 90% + (110% – 90%) * RAND() )

3) Plant capacity per unit = 12.00 MW/unit x ( 90% + (110% – 90%) * RAND() )

4) Variable O&M cost (at 5.26 $/MWh) = 30.05 $000/MW/year x ( 90% + (110% – 90%) * RAND() )

5) Fixed O&M cost (at 105.63 $/kW/year) = 1,227.64 $000/unit/year x ( 90% + (110% – 90%) * RAND() )

6) Fixed G&A cost = 10.00 $000/year x ( 90% + (110% – 90%) * RAND() )

7) Cost of fuel = 1.299 PHP/kg x ( 90% + (110% – 90%) * RAND() )

8) Plant heat rate = 12,186 Btu/kWh x ( 90% + (110% – 90%) * RAND() )

9) Exchange rate = 43.00 PHP/USD x ( 90% + (110% – 90%) * RAND() )

10) Capital cost = 1,935 $/kW x ( 90% + (110% – 90%) * RAND() )

The dependent variables that will be simulated using Monte Carlo Simulation and which a distribution curve (when you make bold font the number of random trials) may be generated are as follows:

1) Equity Returns (NPV, IRR, PAYBACK) at 30% equity, 70% debt

2) Project Returns (NPV, IRR, PAYBACK) at 100% equity, 0% debt

3) Net Profit After Tax

4) Pre-Tax WACC

5) Electricity Tariff (Feed-in-Tariff)

The models are in Philippine Pesos (PHP) and may be converted to any foreign currency by inputting the appropriate exchange rate (e.g. 1 USD = 1.0000 USD; 1 USD = 50.000 PHP, 1 USD = 3.800 MYR, etc.). Then do a global replacement in all worksheets of ‘PHP’ with ‘XXX’, where ‘XXX’ is the foreign currency of the model.

To purchase, email me at:

energydataexpert@gmail.com

You may pay using PayPal:

energydataexpert@gmail.com

or via bank/wire transfer:

====================

1) Name of Bank Branch & Address:

The Bank of the Philippine Islands (BPI)

Pasig Ortigas Branch

G/F Benpres Building, Exchange Road corner Meralco Avenue

Ortigas Center, PASIG CITY 1605

METRO MANILA, PHILIPPINES

2) Account Name:

Marcial T. Ocampo

3) Account Number:

Current Account = 0205-5062-41

4) SWIFT ID Number = BOPIPHMM

====================

Once I confirm with PayPal or with my BPI current account that the payment has been made, I will then email you the real (un-locked) model to replace the demo model you have downloaded.

Hurry and order now, this offer is only good until January 31, 2018.

Regards,

Your Energy Technology Selection and Project Finance Expert