Summary of inputs and results for project finance models for various power generation technologies – up to Sep 30, 2014 only

September 14th, 2014 No Comments   Posted in cost of power generation

Summary of inputs and results for project finance models for various power generation technologies – up to Sep 30, 2014 only

Dear Friends,

You only have up to September 30, 2014 to purchase the advanced project finance models for conventional, fossil, nuclear and renewable energy power generation technologies.

Beginning Oct 1, 2014, I will be working full-time with a major IPP in the country and I will take a leave in providing project finance models and Feasibility Study and Market Study preparations for a while.

So don’t dilly dally. Order now before I shut down this website for selling such models.

Cheers,

Energy Technology Selection Expert 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 »

CDM Biomass Gasification Model2.xls

June 25th, 2012 1 Comment   Posted in renewable energy

CDM Biomass Gasification 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.

Biomass gasification system is carried out mostly in the countryside where biomass is abundant from agricultural activity such as paddy rice, corn fields, cotton fields, sugar cane fields, tree plantation and municipal solid waste (MSW). A 400 mt/day of MSW could support around 28.5 MW of biomass gasification power plant. More »

CDM Biomass Cogeneration Model2.xls

June 25th, 2012 No Comments   Posted in renewable energy

CDM Biomass Cogeneration 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.

Biomass cogeneration system is carried out mostly in the countryside where biomass is abundant from agricultural activity such as sugar cane fields. More »

CDM Biomass Direct Combustion Model2.xls

June 25th, 2012 No Comments   Posted in renewable energy

CDM Biomass Direct Combustion 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.

Direct combustion of biomass system (furnace, boiler, steam turbine, generator) is carried out mostly in the countryside where biomass is abundant from agricultural activity such as paddy rice, corn fields, cotton fields, sugar cane fields, tree plantation and municipal solid waste (MSW). A 50-km radius of agricultural land can support around 6-12 MW of biomass power plant as in the case of India. 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 »

MTO Biomass Gasification Model.xls

June 24th, 2012 1 Comment   Posted in renewable energy

MTO Biomass Gasification Model.xls

Biomass gasification system is carried out mostly in the countryside where biomass is abundant from agricultural activity such as paddy rice, corn fields, cotton fields, sugar cane fields, tree plantation and municipal solid waste (MSW). A 400 mt/day of MSW could support around 28.5 MW of biomass gasification power plant.

This MTO first-year tariff model for biomass gasification makes use of the basic assumptions of the country’s RE regulator for rated capacity (28.5 MW), capacity factor (75%), plant own use (7.85%), and transmission line loss (0.648%). More »

MTO Biomass Direct Combustion Model.xls

June 24th, 2012 No Comments   Posted in renewable energy

MTO Biomass Direct Combustion Model.xls

Direct combustion of biomass system (furnace, boiler, steam turbine, generator) is carried out mostly in the countryside where biomass is abundant from agricultural activity such as paddy rice, corn fields, cotton fields, sugar cane fields, tree plantation and municipal solid waste (MSW). A 50-km radius of agricultural land can support around 6-12 MW of biomass power plant as in the case of India.

This MTO first-year tariff model for biomass direct combustion makes use of the basic assumptions of the country’s RE regulator for rated capacity (8.3 MW), capacity factor (75%), plant own use (10%), and transmission line loss (3%). More »

MTO Biomass Cogeneration Model.xls

June 24th, 2012 No Comments   Posted in renewable energy

MTO Biomass Cogeneration Model.xls

Biomass cogeneration system is carried out mostly in the countryside where biomass is abundant from agricultural activity such as sugar cane fields.

This MTO first-year tariff model for biomass cogeneration makes use of the basic assumptions of the country’s RE regulator for rated capacity (34 MW), capacity factor (75%), plant own use (10%), and transmission line loss (3%). 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 »

ADV Biomass Gasification Model.xls

June 24th, 2012 No Comments   Posted in renewable energy

ADV Biomass Gasification Model.xls

Biomass gasification system is carried out mostly in the countryside where biomass is abundant from agricultural activity such as paddy rice, corn fields, cotton fields, sugar cane fields, tree plantation and municipal solid waste (MSW). A 400 mt/day of MSW could support around 28.5 MW of biomass gasification power plant.

This advanced feed-in-tariff model for biomass gasification makes use of the basic assumptions of the country’s RE regulator for rated capacity (2 x 14.25 MW), capacity factor (75%), plant own use (7.85%), and 0.20% plant degradation rate. More »

ADV Biomass Direct Combustion Model.xls

June 24th, 2012 No Comments   Posted in renewable energy

ADV Biomass Direct Combustion Model.xls

Direct combustion of biomass system (furnace, boiler, steam turbine, generator) is carried out mostly in the countryside where biomass is abundant from agricultural activity such as paddy rice, corn fields, cotton fields, sugar cane fields, tree plantation and municipal solid waste (MSW). A 50-km radius of agricultural land can support around 6-12 MW of biomass power plant as in the case of India.

This advanced feed-in-tariff model for biomass direct combustion makes use of the basic assumptions of the country’s RE regulator for rated capacity (1 x 8.3 MW), capacity factor (80%), plant own use (10%), and 0.20% plant degradation rate. More »

ADV Biomass Cogeneration Model.xls

June 24th, 2012 No Comments   Posted in renewable energy

ADV Biomass Cogeneration Model.xls

Biomass cogeneration system is carried out mostly in the countryside where biomass is abundant from agricultural activity such as sugar cane fields.

This advanced feed-in-tariff model for biomass cogeneration makes use of the basic assumptions of the country’s RE regulator for rated capacity (2 x 17 MW), capacity factor (80%), plant own use (10%), and 0.20% plant degradation rate. More »