Issues and Examples of Solutions of Small Hydropower Plants at Very Low Head Conditions

Similar documents

Analytical Approach for Cost Estimation of Low Head Small Hydro Power Schemes

Institut für Energietechnik Department of Energy Systems. Hydroelectric power. Elias Bartos 2/7 2010

Mini & Micro Hydro Power Generation. EBARA Hatakeyama Memorial Fund Tokyo, Japan

MICRO-HYDRO POWER. Technical

What are the Benefits?

Hydropower: A closer look at Archimedes Screws. Dr Peter Walker APEM Senior Aquatic Scientist

KEYWORDS Micro hydro turbine, Turbine testing, Cross flow turbine

This contribution is dedicated to the memory of late Prof. Maciej Zarzycki, Technical University of Silesia, having passed this week in Gliwice,

MICRO-HYDROPOWER NEED FOR ENERGY FOR RURAL DEVELOPMENT. By: Payman Hassan Rashed

with engineered reliability

FOCUS: ENERGY & ENVIRONMENT

Design and manufacturing of Crossflow, Pelton, Kaplan and Francis turbines

Technology Fact Sheet for Mitigation B. Small Hydropower Technology i 1. Introduction 1.1. Historical - All over the World, hydropower sector is

Compact - Effi cient - Reliable. DIVE-Turbine An innovative turbine concept for small hydro power plants.

IEA ETSAP - Technology Brief E12 - May Hydropower

Indonesian Microhydro Power Development

Development of Market and Cost of Small Hydropower Plants in Germany (up to 5 MW)

Harnessing the power of water with engineered reliability

An Introduction to. Micro- Hydropower. Systems. Natural Resources Canada. Ressources naturelles Canada

Micro-Hydro. Module Introduction. Tokyo Electric Power Co. (TEPCO)

AN ECONOMICAL AND TECHNICAL CASE STUDY FOR A SMALL HYDROPOWER SYSTEM

Sample Micro Hydro Initial Report

Harnessing the power of water

TURBINE SELECTION RANGE

MICRO-GRIDS FOR RURAL ELECTRIFICATION Case Study from Zambia on the Zengamina Micro-Hydro Power Grid

DET SIGMA PUMPY HRANICE PUMP TURBINES

T1-40 T1-40BF T1-40V T1-38 T1-38BF T1-38V

Pico Power: A Boon for Rural Electrification

ENVIRONMENTAL MITIGATION AT HYDROELECTRIC PROJECTS Volume 1. Current Practices for Instream Flow Needs, Dissolved Oxygen, and Fish Passage

Small-Micro Hydro Facilitation & Innovative Technologies in Japan

HYDROMATRIX Jebel Aulia - Sudan

Utah. Medicare Cuts to Skilled Nursing Facility Care

How To Make A Kamperdine Turbine

Guide on how to refurbish low head small hydro sites

HYDRO POWER GENERATION

Performance of Gangrel Hydroelectric Power Plant A Case Study

S.1 Introduction to the Case Study on Micro-Hydro Power Plants

HYDROPOWER SYSTEMS BY APPOINTMENT TO H.M. THE QUEEN WATER TURBINE ENGINEERS, GILBERT GILKES & GORDON LTD, KENDAL

Frequently Asked Questions (FAQs) on Hydropower

PERFORMANCE TESTING OF A LOW HEAD SMALL HYDRO POWER (SHP) PLANT-ZHO SUWEI (TAIWAN) A CASE STUDY

Sensitivity Analysis for Small Hydropower Plant (SHP)

Scientific and Technological References. Energy Technology Indicators

USAID ENERGY POLICY PROGRAM SITE VISIT REPORT STATUS OF 4 RUN OF RIVER HYDROPOWER PROJECTS. October 2013

Operating instructions for Electrode sharpening machine WIG 4

OPERATING INSTRUCTIONS FOR ELECTRODE SHARPENING MACHINE WIG 4

NOT SEARCHING, BUT FINDING

Piping Systems for Nuclear Power Industry. Prague, October 2011

DESIGN OF SMALL HYDRO ELECTRIC PROJECT USING TAILRACE EXTENSION SCHEME

STENSEA. Stored Energy in Sea. The Feasibility of an Underwater Pumped Hydro Storage System. Dr. Andreas Garg Christoph Lay Robert Füllmann

D 4.4 Report on the feasibility analysis for most technically acceptable locations

Metalworking to go. Discover direct on-site mobile machining!

Investors G u i d e Investors Guide 2011

Hydropower in Rwanda: Ongoing Initiatives & New Investment Opportunities. Yves Muyange Director General Energy Water & Sanitation Authority

Low Head Hydro Techologies and the need for greater uptake and implementation in the UK

Dr. Lidija Globevnik Luka Snoj, Neven Verdnik, Peter Muck. Meta Povž

Skoda Supercritical Steam Turbine 660 MW

SIGMA PUMPY HRANICE CENTRIFUGAL MULTISTAGE HORIZONTAL PUMPS

SVA SIGMA PUMPY HRANICE SELF PRIMING PUMPS

Systems and services for small hydro power plants

Micro Hydro Feasibility Study

Small-Scale Hydroelectric Power Generation Potential: A case study of Washpen Falls Brendan Grayson-Wallace

8.1 HPC for improved efficiency on standard machine tools by using new fluid-driven spindles

IEA Workshop Copenhagen Small scale biomass co-generation with modern steam engines

Design of Micro-Hydro-Electric Power Station

WEIR AMERICAN HYDRO. Excellent Engineering Solutions

Hydroelectric Power (3 Semester Hours)

SMALL HYDRO PROJECT ANALYSIS

PRODUCTION CATALOGUE OF THE LINEAR HYDRAULIC MOTORS

The original OSSBERGER Crossflow Turbine

TAKING ENERGY IMPROVEMENTS TO THE NEXT LEVEL: MICRO-HYDRO

HydroHelp 1 AN EXCEL PROGRAM DEVELOPED FOR TURBINE-GENERATOR SELECTION FOR HYDROELECTRIC SITES

Amir Bashirzadeh Tabrizi, Nassir Gifani. TOOSSAB Consulting Engineers Company

Customer connection enquiry form (For the connection of loads and generators)

A LAYMAN S GUIDE TO SMALL HYDRO SCHEMES IN SCOTLAND

Performance Improvement of Pump-turbine for Large Capacity Pumped Storage Power Plant in USA

Decision Method for Unit Rehabilitation. John Yale Hydro Plant Engineering Manager Chelan County PUD

Swiss Resource Centre and Consultancies for Development

Hydro Power. Chapter 4. Mohammed Taih Gatte and Rasim Azeez Kadhim. 1. Introduction

HYDRAULICS. H91.8D/C - Computerized Open Surface Tilting Flow Channel - 10, 12.5, 15 and 20 m long

Resource Assessment Handbook APCTT

GUIDELINESFORMICRO HYDROPOWERDEVELOPMENT... Spatial Plans and Local Arrangement for Small Hydro

Clean Development Mechanism Project Opportunities in Indonesia

RECYCLED MICRO HYDROPOWER GENERATION USING HYDRAULIC RAM PUMP (HYDRAM)

Micro Hydro Electricity Potential in County Clare

APPENDIX F. Baker County. Mason Dam Hydroelectric Project FERC No. P Turbidity Monitoring Plan

CHARACTERISTIC EQUATIONS FOR HYDROPOWER STATIONS OF MAIN BARRAGES IN EGYPT

Energy Technology. Marco Ordonez

REVIEW OF CURRENT DEVELOPMENTS IN LOW HEAD, SMALL HYDROPOWER

1.1 DIMENSIONS AND WEIGHT PAG LOAD CENTRE FOR LIFTING PAG STORAGE CONDITIONS PAG. 2

Sheet 5:Chapter 5 5 1C Name four physical quantities that are conserved and two quantities that are not conserved during a process.

Sustainable Energy Sources By: Sue Peterson

Nordex SE. Capital Markets Day Products & Sales - Lars Bondo Krogsgaard

INFLUENCE ANALYSIS OF SMALL REPOWERED WIND POWER PLANTS ON THE RELIABILITY OF THE LOCAL GRID

Electricity Demand and Supply in Myanmar

Assessment of hydropower resources

How To Build A Road Into A Lake In The North Of The Korean Island Of Hongkoon

Transcription:

Issues and Examples of Solutions of Small Hydropower Plants at Very Low Head Conditions RENEXPO Warsaw 27 October 2011

Hydropower in the CR In 1930 17,000 power plants, mills, sawmills and other facilities utilizing water energy were recorded in Czechoslovakia. In 2009 only 1,354 SHPs up to the output of 1MW were recorded in the CR. Technically utilizable potential of flows exploitable in SHPs is estimated at 1.4 billion kwh/year. Nowadays 2/3 of this potential is used It is estimated that unutilized potential in SHPs is about 30%, that is 500 mil. kwh/year

Archimedean Screw Use: Low head with considerable fluctuation in flow Idle overflows Advantages : Low costs on structural part of SHP Lower acquisition costs comparing with traditional turbines Simplicity of the structure, long lifespan High efficiency (74% at 20% of plant capacity flow) Possibility of assembly to weir body No need of fine racks Oxygenizes water and is aquatic animals friendly Disadvantages : Demanding adjustment Freezing

Archimedean Screw

Archimedean Screw Comparison of efficiency dependence on a flow of single water motors

S Turbine (Semi - Kaplan) Use: At construction of new and revitalization of old small low-head hydropower plants Suitable for localities with a rather constant flow Advantages: Regulation of runner only more simple structure Lower price comparing with standard Kaplan turbine Greater plant capacity flow = output comparing with standard Kaplan turbine (while retaining the runner diameter) Disadvantages : Smaller control range Flow through the machine cannot be stopped completely

S Turbine (Semi - Kaplan)

Direct-flow Turbine (Kaplan) Use : At construction of new and revitalization of old small low-head hydropower plants Suitable for localities with an average flow Advantages: Regulated runner and diffuser Great control range Flow through the machine can be stopped completely Disadvantage: Higher price thanks to the complexity of the structure

S Turbine (Kaplan)

Direct-flow Turbine (Kaplan)

SHP Goryň (Poland) Construction of new SHP at weir. SHP composed as evacuatable Parameters : Locality: Goryň, Polsko Execution: GESS Hranice Screw: diameter: 3,400 mm, length: 6,350 mm, angle: 19 Output: 78 kw Head: 1.9 m Flow: 6 m 3 /s

SHP Goryň (Poland)

SHP Goryň (Poland)

SHP Červený potok Utilization of idle overflow of SHP at river Morava using Archimedean screw Parameters : Locality: Červený potok, district of Šumperk Execution: GESS Hranice Screw: diameter: 1,300 mm, length: 8,000 mm, angle: 35 Output: 18 kw Head: 4.6 m Flow: 0.6 m 3 /s

SHP Červený potok

SHP Vranov Revitalization of old mill with water wheel to SHP Parameters : Locality: Vranov nad Dyjí Execution: Elzaco spol. s r.o. Turbine: 2 x ELZA 750 Output: 2 x 16 kw Head: 1.9 m Flow: 2 x 1.16 m 3 /s Investor: EON-Trend Cost: CZK 8.5 mil.

SHP Vranov Year:1920 Year:2011

SHP Vranov

SHP Vranov

SHP Lobkovice Revitalization of SHP at Lobkovice mill at site of former carbide Three originally mounted Francis turbines were replaced by one Semi Kaplan unit Parameters: Locality: Lobkovice u Neratovic Execution: P&S Praha Turbine: 1 x Semi-Kaplan turbine VC 1220 Output: 75 kw Head: 2.5 m Flow: 4 m 3 /s Annual output: 544 MWh Costs: CZK 11mil. incl. VAT Returnability : cca 9 years Grant : CZK 3 mil.

SHP Lobkovice

SHP Jindřichov Construction of new SHP at watercourse Branná SHP composed for two Semi-Kaplan turbine, one has been mounted so far Parameters: Locality: Jindřichov, district of Šumperk Execution: Elzaco spol. s r.o. P&S Praha Turbine: 1 x Semi-Kaplan turbine 3Th 500 Output: 55 kw Head: 6 m Flow: 1.3 m 3 /s Costs: CZK 5.5 mil. Returnability : unknown Grant: CZK 1.65 mil.

SHP Jindřichov

SHP Prosenice Revitalization of SHP at canal Strhanec, river Bečva Parameters: Locality: Prosenice, okres Přerov Execution: Elzaco spol. s r.o P&S Praha Turbine: 1 x Semi-Kaplan turbine 3Th 1130 Output: 75 kw Head: 2.4 m Flow: 4.2 m3/s Cost: CZK 3.4 mil. Returnability: 6.9 years Grant: unknown

SHP Prosenice

SHP Termesivy Construction of new SHP Parameters: Locality: Termesivy, district of Havličkův Brod Execution: Ziromont s.r.o. Turbine: 1 x Kaplan turbine ZR 110-3L-3M Output: 53 kw Head: 1.9 m Flow: 4.5 m 3 /s Cost: CZK 8.5mil. Returnability: unknown Grant: CZK 2.9mil.

SHP Termesivy

SHP Horná Streda Rebuilding of old SHP Parameters: Locality: Horná Streda, Slovensko Execution: Sigma Výzkumný a vývojový ústav Lutín Operator: Pravoslavná akademie Vilémov Turbine: 2 x pump-turbine Sigma AL340-T Output: 2 x 22 kw Head: 6,2 m Flow: 2 x 320 l/s Costs: unknown Returnability: unknown Grant: unknown

SHP Horná Streda

Thank you for your attention Lectured by: Jiří Vénos, Elzaco spol. s r.o., Šumperk www.elzaco.cz