Merry Christmas and a Happy New Year to all Project Finance Modelers
To all my readers of my power generation technology and project finance modeling (deterministic or fixed inputs and probabilistic or randomly varying inputs using Monte Carlo Simulation), I wish you a Merry Christmas and a Happy New Year.
This November 1 till midnight of December 31, 2016, you can avail of great opportunities and huge discounts when you download my sample power generation technology briefs and project finance models.
Learn how to do the following:
Power Generation and Fuel Cycle Technologies - a mini-lecture series with power point presentation and excel project finance models
Your energy technology selection expert is beginning a lecture series on power generation and fuel cycle technologies. This will involve a discussion on the principles of the technology, its history, capital and operating costs, benefits and risks.
Objectives
1) To provide the participants a basic understanding of the following commercially available:
- fuel cycle technologies
- power generation technologies, and
- energy storage technologies
2) To know the basic principles, costs, environmental impact, risks and applicability of each of these technologies, and
3) To present the technology roadmap of each of these technologies to guide us in the near term (next 20 years – up to 2020) and in the long term (next 50 years – up to 2050)
The Past
o Introduction - what-is-electricity
o How is Electricity Generated - generation-of-electricity
o History of Power Generation - history-of-power-generation
o The Complete Electric Power System (base load, intermediate & peaking loads)
The Present
o Commercially Available Fuel Technologies, Power Generation Technologies, and Energy Storage Technologies -
commercially-available-fuel-cycle-technologies
o Primary Energy Sources - primary-energy-sources
o Fuel Properties - fuel-properties
o For the commercially available technologies:
- Basic Principles
- Costs
- Environmental Impact
- Associated Risks
- Applicability
COMMERCIALLY AVAILABLE POWER GENERATION TECHNOLOGIES:
Cost of power generation technologies - Cost of power generation technologies
Oil Thermal - oil-thermal
Piston Engine - piston-engine
Nuclear Energy - nuclear-energy
Simple GT - simple-gas-turbine-gt
Combined Cycle GT- combined-cycle-gas-turbine-ccgt
Combined Heat and Power - combined-heat-and-power-cogeneration
Pulverized Coal - pulverized-coal
Advanced Coal - advanced-coal
Renewable Energy Sources - renewable-energy-sources
Geothermal Energy - geothermal-energy
Hydro Power - hydro-power
Solar Energy - solar-energy
Wind Energy - wind-energy
Biomass Energy - biomass-energy
Ocean & Tidal Energy - ocean-energy
Hydrogen Energy - hydrogen-energy
Fuel Cells - fuel-cells
Storage Technologies - storage-technologies
Advanced Storage - advanced-energy-storage
Oil Price Calculation Model - Oil Price Calculation Model
The Future
o The Technology Roadmap: Vision, Portfolio, Approach, Global Drivers of Change, Cost of Not Yet Commercially Available Tech -
technology-roadmap
o The Near Term Fuel, Power Generation, and Energy Storage Technologies (up to 2020) -
near-term-energy-sources
o The Long Fuel, Power Generation, and Energy Storage Technologies (up to 2050) -
long-term-energy-sources
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The project finance models of the power generation technology selection expert are based on one model template; hence, the results are unique for the technology's capital and operating costs, fuel properties and costs, energy conversion efficiency or heat rate, and energy resource availability and reliability.
The financial models are denominated in Philippine Pesos (PhP 47.00 = USD). You can easily convert to your own local currency by changing the base and forward fixed exchange rate (e.g. XXX 100.00 = USD, USD 1.00 = USD) and do a global replacement of all PhP with XXX currency.
SAMPLE PROJECT FINANCE MODELS:
RENEWABLE ENERGY
adv-biomass-cogeneration-model3-demo5 - process heat (steam) and power
adv-biomass-direct-combustion-model3-demo5 - bagasse, rice husk or wood waste fired boiler steam turbine generator
adv-biomass-gasification-model3-demo5 - gasification (thermal conversion in high temperature without oxygen or air, pyrolysis)
adv-biomass-igcc-model3-demo5 - integrated gasification combined cycle (IGCC) technology
adv-biomass-wte-model3-demo5 - waste-to-energy (WTE) technology for municipal solid waste (MSW) disposal and treatment
adv-biomass-wte-model3-pyrolysis-demo5 - waste-to-energy (WTE) pyrolysis technology
adv-mini-hydro-model3-demo5 - run-of-river (mini-hydro) power plant
adv-concentrating-solar-power-csp-model3-demo5 - concentrating solar power (CSP) 400 MW
adv-solar-pv-1-mw-model3-demo5 - solar PV technology 1 MW Chinese
adv-solar-pv-25-mw-model3-demo5 - solar PV technology 25 MW European and Non-Chinese (Korean, Japanese, US)
adv-wind-onshore-model3-demo5 - includes 81 wind turbine power curves from onshore WTG manufacturers
adv-wind-offshore-model3-demo5 - includes 81 wind turbine power curves from offshore WTG manufacturers
adv-ocean-thermal-model3_10-mw-demo5 - ocean thermal energy conversion (OTEC) technology 10 MW
adv-ocean-thermal-model3_50-mw-demo5 - ocean thermal energy conversion (OTEC) technology 50 MW
CONVENTIONAL, FOSSIL AND NUCLEAR ENERGY
adv-geo-thermal-model3-demo5 - geothermal power plant 100 MW
adv-large-hydro-model3-demo5 - large hydro power plant 500 MW
adv-coal-fired-cfb-thermal-model3_50-mw-demo5 - subcritical circulating fluidized bed (CFB) technology 50 MW
adv-coal-fired-cfb-thermal-model3_135-mw-demo5 - subcritical circulating fluidized bed (CFB) technology 135 MW
adv-coal-fired-pc-subcritical-thermal-model3-demo5 - subcritical pulverized coal (PC) technology 400 MW
adv-coal-fired-pc-supercritical-thermal-model3-demo5 - supercritical pulverized coal (PC) technology 500 MW
adv-coal-fired-pc-ultrasupercritical-thermal-model3-demo5 - ultrasupercritical pulverized coal (PC) technology 650 MW
adv-diesel-genset-model3-demo5 - diesel-fueled genset (compression ignition engine) technology 50 MW
adv-fuel-oil-genset-model3-demo5 - fuel oil (bunker oil) fired genset (compression ignition engine) technology 100 MW
adv-fuel-oil-thermal-model3-demo5 - fuel oil (bunker oil) fired oil thermal technology 600 MW
adv-natgas-combined-cycle-model3-demo5 - natural gas combined cycle gas turbine (CCGT) 500 MW
adv-natgas-simple-cycle-model3-demo5 - natural gas simple cycle (open cycle) gas turbine (OCGT) 70 MW
adv-natgas-thermal-model3-demo5 - natural gas thermal 200 MW
adv-petcoke-fired-pc-subcritical-thermal-model3-demo5 - petroleum coke (petcoke) fired subcritical thermal 220 MW
adv-nuclear-phwr-model3-demo5 - nuclear (uranium) pressurized heavy water reactor (PHWR) technology 1330 MW
WASTE HEAT RECOVERY BOILER (DIESEL genset; GASOLINE genset; PROPANE, LPG or NATURAL GAS simple cycle)
adv-coal-fired-cfb-thermal-model3_50-mw-chp-demo5 - combined heat and power (CHP) circulating fluidized bed (CFB) technology 50 MW
adv-diesel-genset-and-waste-heat-boiler-model3-demo5 - diesel genset (diesel, gas oil) and waste heat recovery boiler 3 MW
adv-fuel-oil-genset-and-waste-heat-boiler-model3-demo5 - fuel oil (bunker) genset and waste heat recovery boiler 3 MW
adv-gasoline-genset-and-waste-heat-boiler-model3-demo5 - gasoline genset (gasoline, land fill gas) and waste heat recovery boiler 3 MW
adv-propane-simple-cycle-and-waste-heat-boiler-model3-demo5 - simple cycle GT (propane) and waste heat recovery boiler 3 MW (e.g. Capstone)
adv-simple-cycle-and-waste-heat-boiler-model3-demo5 - simple cycle GT (natural gas, land fill gas, LPG) and waste heat recovery boiler 3 MW (e.g. Capstone)
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December 31, 2016