Green Energy Hydro Power

1. Green EnergyHydro Power (Hydroelectric Inflow Dam System) By IP Management Pte Ltd www.LamTengChoy.com

2. Hydroelectric Inflow Dam SystemScope • Introduction • Concept • Video • Q & A • End

3. Hydroelectric Inflow Dam System Introduction • Hydropower – Produced 20% of all electricity globally Advantage • a) The technology is proven Disadvantage • a) Large and involve huge capital investments. • b) Design and build • c) Affect the local ecology Micro hydroelectric power system • Between 1kW-1MW is more cost effective to produce renewable energy in the remote areas.

4. Hydroelectric Inflow Dam System Concept • M/S IP Management Pte Ltd has invented a Hydroelectric Inflow Dam System This invention relates to a hydroelectric power generating dam system by channeling hydraulic flow from a water catchment area into a hollow inflow column to generate hydroelectric power. • Water downstream of the turbine flows into a discharge channel before it is released to a lower ground by gravity.

5. Hydroelectric Inflow Dam System Concept • An innovative design comprising modular hydroelectric energy production units, each being characterized by an enclosed column partially immersed in water. • The upper portion of the inflow dam above the water level houses the generator, converter, transformer and control system. • One or several turbines at the bottom end of the column receive water jets from nozzles to rotate the turbine(s) to produce electricity. • Evacuation pipe discharges water downstream of the turbine(s) to a lower ground by gravity.

6. Hydroelectric Inflow Dam System Network System • This system is modular, portable and scalable and can be deployed individually or connected in a network according to the designed power capacity.

7. Reference - Data source from Natural Resources Canada – Micro Hydropower system – A Buyer’s Guidehttp://www.oregon.gov/ENERGY/RENEW/Hydro/docs/MicroHydroGuide.pdf Equation: Where power is measured in Watts, head in metres, flow in litres per second, and acceleration due to gravity in 9.81 metres per second. • h - Gross head (height) in meter • g - Gravitational constant (9.8m/s2) • q - Flow rate in m3/s • p - Power output (in watts) • e - Efficiency • Power output (P) = h x q x g x e

8. Data source from Natural Resources Canada – Micro Hydropower system – A Buyer’s Guidehttp://www.oregon.gov/ENERGY/RENEW/Hydro/docs/MicroHydroGuide.pdf Example • A site has a head of 10 m (33 ft) with flow of 0.3m3/s (636 cfm or 4755 gpm) • Power - P = Q x H x g x e • P = Q (0.3) x H (10) x g (9.8) x e (0.5) = 14.7kw. • e = Efficiency factor 0.5 – 0.7 percent. • Produce green electricity per year = (14.7kW) x (24 hrs) x (365 days) = 128,772KW.

9. Data source from Natural Resources Canada – Micro Hydropower system – A Buyer’s Guidehttp://www.oregon.gov/ENERGY/RENEW/Hydro/docs/MicroHydroGuide.pdfFlow Duration Curve and Energy Calculations Flow duration curve for river with a high flow for a short time Flow duration curve for river with more steady flow

10. Hydroelectric Inflow Dam System Est: Expected performance for a single column size : Example 5m Height x 1.5m Width a) P = Q (0.3) x H (5) x g (9.8) x e (0.7) = 10.29 kw. b) 30 kW to 100 kW for water heads of 5m or more. c) Optimal designs capacity up to 100kW per column unit and over 2MW in a network. Main applications: Works well in two or more cascading reservoirs. Install at location where water containment can be still water, rivers, basins, channels, tidal reservoirs, and so on.

11. Hydroelectric Inflow Dam System Comparative advantages • No need for a conventional dam. • Simple design • Suitable for still water catchment • Easy maintenance • Modular and portable • Suitable for mass production • High power density per water surface area • No technological incertitude.

12. Hydroelectric Inflow Dam Systemhttp://www.lamtengchoy.com/main/?item-videolist/show/41/Video

13. Hydroelectric Inflow Dam System Q & A

14. Hydroelectric Inflow Dam System The End By IP Management Pte Ltd www.LamTengChoy.com