TYPES OF HYDROPOWER

PLANTSPRESENTED BY:-

RAJ KUMAR BAIRWA

ENROLLMENT NO.- 13512026

M.TECH I YEAR

AHES (IIT ROORKEE)

CONTENTS

WHAT IS HYDROPOWER?

CLASSIFICATION OF HYDROPOWER PLANTS.

SOME FACTS ABOUT HYDRO POWER PLANTS.

AGENCIES RELATED TO HYDROPOWER.

HYDROPOWER

Hydropower transforms the potential energy of a mass of water flowing in a river or stream with a certain vertical fall (termed the “head”)

Hydroelectric power is the cheapest source of energy, renewable and environmentally benign during running.

The potential annual power generation of a hydropower project is proportional to the head and flow of water

CLASSIFICATION OF HYDROPOWER PLANTS :

Classification of hydropower plants

According to Capacity

Large

Medium

Small

Mini

Micro

Pico

According to head

High

Medium

Low

According to purpose

Single purpose

Multi purpose

According to facility types

Run-of-River

Reservoirs

In-stream

Pumped storage

According to hydrological

relation

Single

Cascade

According to transmission

system

Isolated

Connected to grid

CLASSIFICATION ACCORDING TO CAPACITY:

LARGE: >100 MWMEDIUM: 25 – 100 MWSMALL: 1-25 MWMINI: 100 KW - 1MWMICRO: 5 – 100 KW PICO: < 5 KW

SMALL HYDRO POWER DEFINITIONS IN DIFFERENT COUNTRIES:-COUNTRY NAME SHP (MW)

Mauritius ≤ 0.05

Italy ≤ 3

Dominican Republic, Guatemala, Macedonia ≤ 5

Marocco ≤ 8

Afghanistan, Burundi, Iran, Malaysia, Mali, Nepal, Norway, Sri Lanka, Tunisia, Kenya, Uganda, Zambia, Madagascar, Armenia, Austria, Croatia, Montenegro, Nigeria, Turkey, Serbia, Slovenia, Switzerland,

Azerbaijan, Cambodia, Philippines, Indonesia, Senegal≤ 10

Georgia ≤ 13

Bangladesh, Laos, Lesotho, Thailand ≤ 15

El Salvador, Peru ≤ 20

Bhutan, India, Mozambique ≤ 25

Argentina, Brazil, Mexico, Benin, United States ≤ 30

Canada, China, Pakistan, New Zealand ≤ 50

CLASSIFICATION ACCORDING TO HEADLOW HEAD: Low head hydro power applications use river current or tidal flows of 30 meters or less to produce energy. These applications do not need to dam or retain water to create hydraulic head, the head is only a few meters. Using the current of a river or the naturally occurring tidal flow to create electricity may provide a renewable

energy source that will have a minimal impact on the environment.

Figure-sectional view of low head hydropower plant

CLASSIFICATION ACCORDING TO HEADMEDIUM HEAD: A power station operating under heads from 30m to 300m.

Figure- sectional view of medium head hydropower plant

CLASSIFICATION ACCORDING TO HEADHIGH HEAD: A power station operating under heads above about 300m. A head of 200m/250m is considered as the limit between medium and high head power stations.

Figure- high head hydropower plant

Figure-(a) single stage hydropower development scheme (b) cascade or multistage hydropower system

CLASSIFICATION ACCORDING TO HDROLOGICAL RELATION

SINGLE STAGE- When the run off from a single hydropower plant is diverted back into river or for any other purpose other than power generation, the setup is known as Single Stage.

CASCADE SYSTEM- When two or more hydropower plants are used in series such that the runoff discharge of one hydro power plant is used as the is a intake discharge of the second hydro power plant such a system is known as CASCADE hydropower plant.

CLASSIFICATION ACCORDING TO PURPOSE:

SINGLE PURPOSE: When the whole soul purpose of a project is to produce electricity then such a project is known as a Single Purpose Hydro Power Project.

MULTIPURPOSE : When the water used in hydropower project is to be used for other purposes like irrigation, flood control or fisheries then such a project is known as Multi Purpose Hydro Power Project.

These are hydro power plants that utilize the stream flow as it comes , without any storage being provided.

CLASSIFICATION ACCORDING TO FACILITY TYPERUN-OF-RIVER TYPE

Figure-Run-of-River hydropower plant

Hydropower plants with storage are supplied with water from large storage reservoir that have been developed by constructing dams across rivers. Assured flow for hydro power generation is more certain for the storage schemes than the run-of-river schemes.

STORAGE (RESERVOIR) TYPE

Figure-pumped storage hydropower plant

CLASSIFICATION ACCORDING TO FACILITY TYPE

PUMPED STORAGE TYPE

Figure-pumped storage hydropower plant

Pumped storage type hydropower plants are those which utilize the flow of water from a reservoir at higher potential to one at lower potential.

During off-peak hours, the reversible units are supplied with the excess electricity available in the power grid which then pumps part of the water of the tail-water pond back into the head-water pond.

CLASSIFICATION ACCORDING TO FACILITY TYPE

IN-STREAM

When the velocity of water i.e kinetic energy flowing in the stream is used for conversion into electrical power, then the system is known as In-stream.

CLASSIFICATION ACCORDING TO FACILITY TYPE

Photograph of In-stream hydro power system

CLASSIFICATION ACCORDING TO TRANSMISSION SYSTEM:

ISOLATED: Whenever a hydropower plant is set up in a remote area in order to meet the local demands then such a hydropower plant is known as Isolated System.

CONNECTED TO GRID: Whenever the hydropower plant is set up to meet the demands of areas which are at a fair distance from the plant, then the transmission of power takes through the grid system. Such a setup is referred to as Connected to grid.

The two largest hydropower projects in the world are the 14 GW itaipu project in

brazil and the three gorges project in china with 22.4 GW. These two projects alone

produce 80 to 100 TWH/year (IPCC, 2011).

The three gorges dam in hubei,china  has the world's largest instantaneous generating

capacity (22,500 MW).

Tehri dam in india on the Bhagirathi 2,400 MW(Current 1,000).

FACTS ABOUT HYDROPOWER PROJECTS

Photograph of Itaipu Dam (Paraná River)  located on the border between Brazil and Paraguay

Photograph of Three Gorges Dam (Yangtze River, china)

HYDRO RESEARCH CENTERS• ALPS POWER TECHNOLOGIES (P) LIMITED

The company is manufacturing small turbines and genset up to 1000 KW, complete with microprocessor based static

excitor system,microprocessor based digital governor, remote operation and telemetry and telecontrol system, chartless

recorder for data etc. The company has its own manufacturing and testing facilities at its works, in ghunna industrial area,

saharanpur, india

• FLOVEL MECAMIDI

Flovel mecamidi energy private limited (FMEPL) is a joint venture between flovel MG holdings private limited, india and

mecamidi S.A., France. Promoters of flovel MG holdings private limited along with its core team have decades of

experience in marketing, design, manufacture, supply, erection, commissioning & servicing of hydro power projects of all

types both for local as well as export markets

Karshni Intertech Pvt.LtdKarshni Intertech Pvt.Ltd is a manufacturer, wholesale supplier, exporter of hydro energy products. Their range of products include hydro energy system components (small), hydroelectric turbines (small), solar charge controllers, water pumping windmills, wind energy system components (large), backup power systems, 100% renewable energy farming , fully integrated systems.

Multitek ConsortiumMultitek Consortium is a hydro energy based company located in Delhi, India. Their range of products hydro energy system components (small), water pumps, turbine machines, gates and hoists, penstock etc.

Nagalaxmi IndustriesNagalaxmi Industries are manufacturers of industrial structures for thermal, hydel, nuclear power station, food industries, pharmaceutical, chemical, cement etc.

SBA Hydro Systems Pvt. LtdSBA Hydro Systems Pvt. Ltd is a manufacturer, wholesale supplier, exporter of hydro energy products. Their range of products include hydro energy system components (small), hydro energy system components (large), hydro energy systems (large), hydro energy systems (small), hydroelectric turbines (small), hydroelectric turbines (large).

HYDRO RESEARCH CENTERS

APEX BODIES

1) Indian national hydropower association - Faridabad (Haryana)

2) Alternate hydro energy centre- Roorkee (uttarakhand)

REFERENCES

Www.Eai.In

• RENEWABLE ENERGY TECHNOLOGIES: COST ANALYSIS SERIES volume 1: power

sector ,issue 3/5, JUNE 2012

http://www.Irena.Org/menu/index.Aspx?Mnu=subcat&primenuid=36&catid=141&subcatid=232

NPTEL Module CE IIT Kharaghpur Chapter:5 Version 2.

HTTP://WWW.EAI.IN/REF/AE/HYD/HYD.HTML#STHASH.PVMI3H9C.DPUF

Thank You !!!