SlideShare a Scribd company logo

J0363075081

T
theijes

The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.

EngineeringTechnology
1 of 7
Download to read offline
The International Journal Of Engineering And Science (IJES) || Volume || 3 || Issue || 6 || Pages || 75-81 || 2014 || ISSN (e): 2319 – 1813 ISSN (p): 2319 – 1805 www.theijes.com The IJES Page 75 Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations. 1, D.K.Khopade, 2, Prof. R.A. Oak 1, M.Tech. student of Hydraulics at Bharti Vidyapeeth University’s College of Engineering and Technology, Pune. and in charge HOD of Civil Engg. Dept. at Abhinav Education Society’s College of Engg.& Tech.(Poly.), Wadwadi, Dist- Satara. 2, Professor at Bharti Vidyapeeth University’s College of Engg. & Tech. Pune and Ex Research Officer, CWPRS Pune. -----------------------------------------------------------ABSTRACT------------------------------------------------------------- One of the major problems confronted by the hydrologists for many years is the prediction of runoff from a given basin for a known rainfall. This problem is so complex that its complete solution is practically impossible, as there are numerous factors which affect the runoff process. In this situation, development of a rainfall runoff model is important in Nira Deoghar Dam catchment located at latitudes of northern 18˚6’18” and longitudes of eastern 73˚43’36” in Pune District of Maharashtra. The proposed study on rainfall-runoff modeling over the Nira Deoghar Catchment is essential to explore the spatial and temporal distribution of excess water available in the catchment which has supposed to be harvested and can be utilized for irrigation. By considering the above said aspect the rainfall-runoff studies were carried out by using various rainfall- runoff empirical formulae. There are only two rain gauge stations located in the catchment namely Shirgaon and Deoghar and data available is only for 18 years (1981-1997). So due to limitations in available data the rainfall data from adjacent Dhom catchment can be taken for analysis with thirty one years of monthly and annual rainfall (1967-1997). . Keywords – Empirical formulae, Nira Deoghar catchment, Rainfall-Runoff relation, Runoff, Yield ------------------------------------------------------------------------------------------------------------------------------------------- Date of Submission: 07 June 2014 Date of Publication: 20 June 2014 ------------------------------------------------------------------------------------------------------------------------------------------- I. INTRODUCTION Water is the elixir of life and a precious gift of nature to the mankind. Water is a basis necessity for sustaining the life and development of society. It is fast becoming a scarce commodity in most parts of the world. The source of all water on the globe is precipitation. Proper estimation of run-off magnitude is required for efficient design, planning and management of river basin projects that deal with conservation & utilization of water for various purposes. To determine accurate quantity of surface run-off that in any river basin, understanding of the complex relationship between rainfall and run-off processes of particular basin is necessary. Determination of Runoff depends on many geo morphological and climate factors etc. The basic requirements in designing water projects, is the estimation of runoff resulted from precipitation. In order to achieve this purpose, various methods, empirical equations and rainfall-runoff models can be used. Determination of runoff resulted from precipitation is one of the most important factors in hydrologic problems analysis and water resources management. The relationship between precipitation and runoff is a complicated and non-linear relationship which is depended on several factors. 1.1 Yield The total quantity of surface water that can be expected in a given period from a stream at the outlet of its catchment is known as yield of the catchment in that period. The annual yield from a catchment is the end product of various processes such as precipitation, infiltration and evapotranspiration operating on the catchment. Due to the inherent nature of the various parameters involved in the processes, the yield is a random variable. A common practice is to assign a dependability value (say 75% dependable yield) to the yield. Thus, 75% dependable annual yield is the value that can be expected to be equaled to or exceeded 75% times (i.e. on
Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 76 an average 15 times in a span of 20 years). Similarly, 50% dependable yield is the annual yield value that is likely to be equaled or exceeded 50% of times (i.e. on an average 10 times in 20 years). The calculation of natural runoff volume is of fundamental importance in all surface water resources development studies. The most desirable basis for assessing the yield characteristics of a catchment is to analyze the actual flow records of the stream draining the catchment. However, in general, observed discharge data of sufficient length is unlikely to be available for many catchments. As such, other alternate methods such as the empirical equations and watershed simulations are often adopted. 1.2Empirical Equations The importance of estimating the water availability from the available hydrologic data for purposes of planning water-resource projects was recognized by engineers even in the last century. With a keen sense of observation in the region of their activity many engineers of the past have developed empirical runoff estimation formulae. However, these formulae are applicable only to the region in which they were derived. These formulae are essentially rainfall-runoff relations with additional third or fourth parameters to account for climatic or catchment characteristics. Some of these methods have more expanded domain and can be used for some same regions by applying some corrections and choosing proper coefficients. 1.3 Study Area Area of the studied region is 44.20 sq. miles located in western ghat area of Sahyadri hills and it is 15 Km.from Bhor City in Dist. - Pune. Geographically, the watershed is located between latitudes of northern 18˚6’18” and longitudes of eastern 73˚43’36”. There are small villages within the study area and a large part of watershed slopes is made by forests and Rangeland Topographically, the up-Slope part of watershed including stony and rocky heights with steep slopes and a few branches of water bodies and almost without soil. Fig.1 Nira river The Nira River basin has a tropical climate with a hot summer and a mild winter. Agro-Climatically the area falls under the group of semiarid regions. Nira Deoghar dam is mainly an irrigation earthen dam; receive its main source of water from ghat area of Sahyadri hills. In This paper, the rainfall-runoff process of Nira Deoghar catchment, one of the Sub-basin of Krisnha River is considered for the study. The Catchment area was predominantly influenced by North West Monsoon. The month of June to October accounts for major rainfall.
Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 77 Fig. 2 Nira Deoghar Dam 1.4 METHODOLOGY The purpose of this study is to apply various empirical methods of runoff estimation and to evaluate them with regard to available results in Nira Deoghar catchment. In this study, various rainfall-runoff models and empirical formulae are considered to estimate the runoff depth of Nira river basin of Nira Deoghar Dam catchment and the results were compared with available data. 1.4.1 Available Data The Shirgaon and Deoghar raingauge stations are located inside Nira Deoghar catchment and the monthly rainfall data is available for the period 1980 to 1997 (i.e. 18 years). Whereas Jambhali and Kelanje are the raingauge stations located in adjacent Dhom catchment and monthly rainfall data is available for the period 1967 to 1997 (i.e. 31 years). These four raingauge stations influence the Nira Deoghar catchment and the monthly and annual rainfall data of these stations are used for analysis purpose. 1.4.2 Test for Consistency of Data Before using the rainfall records of a station, it is necessary to first check the data for continuity and consistency. If the conditions to the relevant to the recording of a raingauge station undergone a significant change during the period of record, inconsistency would arise in the rainfall data of that station. The consistency check of rainfall data has to be done by checking one to one consistency of rainfall data of Jambhali and Kelanje station with Shirgaon and Deoghar station.The consistency is observed in rainfall data. Fig.3 Consistancy check of rainfall data 1.5 Results The analysis of data is done to estimate the annual runoff of the Nira Deoghar catchment by using different empirical formulae. Now, from these estimated annual runoff values the average yield of the catchment and dependable yield of the catchment are calculated. These yields are then compared with the available yield values of catchment by R-R relations of Dhom dam and Veer dam.
Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 78 Fig. 4 R-R Relationship using Barlow’s Method y = 0.45x + 3E-13 R² = 1 0.00 10.00 20.00 30.00 40.00 50.00 60.00 70.00 80.00 90.00 0 50 100 150 200 Runoff(inches) Rainfall (inches) Rainfall - Runoff Relation Rainfall - Runoff Relation Linear (Rainfall - Runoff Relation) Fig. 5 R-R Relationship using Inglis y = 0.849x - 12.00 R² = 1 0.00 50.00 100.00 150.00 200.00 0 50 100 150 200 250 Runoff(inches) Rainfall (inches) R-R Regression R-R Regressio n Fig. 6 R-R Relationship using Coutagine Formula y = 1.376x - 96.87 R² = 0.979 0.00 50.00 100.00 150.00 200.00 250.00 0 50 100 150 200 250 Runoff(inches) Rainfall (inches) RainfallRunoffRelationship Rainfall Runoff Relations hip Fig. 7 R-R Relationship using Laceys Formula
Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 79 Fig. 8 Comparision of Runoff values of Nira Deoghar catchment 1.5.1 Comparison of Yields The annual yield values obtained from various empirical equations are then compared with the average yield value, 50% dependable yield and 75% dependable yield as given in Table.
Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 80 Table 1 – Estimated Yield by using different methods Yield in Mcft By ann ual RR By mon thly By Veer RR Bar low s Ingl is Stra nge Kho slas SC S- CN Cou tagi ne De pt of irri .In dia Khos la by other Lace y Averag e 11.7 9 12.1 7 13.7 3 6.8 5 11.7 12.83 11.7 6 5.5 1 10.5 6 7.4 5 14.95 11.26 50% Depend able 11.6 1 11.5 7 14.3 8 6.8 5 11.5 12.03 11.3 5.3 7 10.2 5 7.3 3 14.72 11.05 75% Depend able 10.4 8 10.8 0 11.6 7 6.1 8 10.3 10.24 10.3 0 4.4 9 8.46 6.5 6 13.35 9.78 Fig. 9 Comparision of Yield values of Nira Deoghar catchment CONCLUSION During the course of the currently proposed research we investigated the appropriateness of 9 runoff estimation methods that are widely used in Indian hydrology were investigated for Nira Deoghar catchment. Also these models were evaluated using available rainfall-runoff relationships of the adjacent Dhom dam and downstream Veer dam. In general we claim that significant deviations were found between the measured and calculated yields for the catchment. The results plotted in a graph shows that, the runoff yield results obtained from Inglis Formula,Khosla’s Formula,Coutagine relationship, Lacey equation are relatively closer to the available results calculated by using R-R relationship of Dhom dam and Veer dam; whereas, the result of Stranges Table method are slightly higher than the available results. The results obtained from Barlow’s equation, SCS-CN method and equation developed by Dept. of Irrigation, India has very lower values of runoff yield. Also with regard to results from Khosla’s formula, Coutagine relationship and Lacey equation it can be concluded that the assumption made for average temperature of Nira Deoghar catchment (i.e. 33˚C) is quite correct. The Barlow’s equation has been derived from the study of small catchment in Uttar Pradesh. Therefore the results obtained by using this equation in Nira Deoghar Catchment are not matching. While using SCS-CN method for Nira Deoghar catchment some assumptions are made regarding soil type to decide CN number, due to this assumptions the yield obtained from the catchment is lower. The equation used by Dept. of Irrigation India is based on the data of river Reihand, hence this relation cannot be directly applicable for our study.
Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 81 REFRENCES [1] M.Rajendran, A. Murugappan, M.Latha and J.Mohamed Ashik Ali, “Comparison of Rainfall-Runoff Models – A Case Study”. 5 th Asian Regional Conference, 6-11 December 2009, New Delhi, India. [2] Khabat Khosravi , Haidar Mirzai and Iman Saleh, “Assessment of Empirical Methods of Runoff Estimation by Statistical test”(Case study: BanadakSadat Watershed, Yazd Province) International journal of Advanced Biological and Biomedical Research ISSN: 2322 - 4827, Volume 1, Issue 3, 2013: 285-301 [3] P .Sundar kumar, K.Hanuma.Rishi, “Simulation of Rainfall Runoff Using SCS &RRL (Case Study Tadepalli Mandal)” International Journal of Engineering Research and General Science Volume 1, Issue 1, August 2013 [4] S.D. Jadhav, D.G. Kanase, R.W. Jawale, M.S. Jadhav, Physico-Chemical Assessment of Nira River,Pune, (Maharashtra), A Case Study. [5] Methods for Estimating Stormwater Runoff Chapter 2 Section 2.1 Columbia County Stormwater Management Design Manual 2.1-1 [6] Ismail Abustan , Ahmad Husaini Sulaiman, Nabsiah Abdul Wahid and Fauzi Baharudin, “Determination of Rainfall-Runoff Characteristics in An UrbanArea: Sungai Kerayong Catchment, Kuala Lumpur” 11th International Conference on Urban Drainage, Edinburgh, Scotland, UK, 2008. [7] Ven Te Chow, David R. Maidment, Larry W. Mays, “Applied Hydrology” Mc-Graw Hill Book Comany. [8] K Subramanya, “Engineering Hydrology” Third Edition, Tata McGraw-Hill Publishing Company Limited, New Delhi. P-27, 59, 69, 80,148-159. [9] Celarity Power Private Ltd.Mumbai, Nira Deoghar Hydro Electric Project “Project Feasibility Report” August 2005. [10] Asmita Ramkrishna Murumkar, Dhyan Singh Arya, “Trend and Periodicity Analysis in Rainfall Pattern of Nira Basin,Central India” American Journal of Climate Change, 2014, 3, 60-70 [11] Md. Eahya Al Huda and Surendra Singh, “Assessment of Runoff in the High Humid Foot-hill Areas of Arunachal Himalayas Using Thornthwaite Equation” Int. Journal of GEOMATE, Dec., 2012, Vol. 3, No. 2 (Sl. No. 6), pp. 397- 401

Recommended

Ijetr042159
Ijetr042159Ijetr042159
Ijetr042159
Engineering Research Publication
 
Regression models for prediction of water quality in krishna river
Regression models for prediction of water quality in krishna riverRegression models for prediction of water quality in krishna river
Regression models for prediction of water quality in krishna river
Alexander Decker
 
Comparison of Spatial Interpolation Techniques - A Case Study of Anantnag Di...
Comparison of Spatial Interpolation Techniques - A Case Study of Anantnag Di...Comparison of Spatial Interpolation Techniques - A Case Study of Anantnag Di...
Comparison of Spatial Interpolation Techniques - A Case Study of Anantnag Di...
IJMER
 
J012415965
J012415965J012415965
J012415965
IOSR Journals
 
Download-manuals-surface water-software-processingofstreamflowdata
Download-manuals-surface water-software-processingofstreamflowdata Download-manuals-surface water-software-processingofstreamflowdata
Download-manuals-surface water-software-processingofstreamflowdata
hydrologyproject0
 
Real time reservoir operation (calibration phase) a case study
Real time reservoir operation (calibration phase) a case studyReal time reservoir operation (calibration phase) a case study
Real time reservoir operation (calibration phase) a case study
eSAT Publishing House
 
Assessing Water Demand And Supply For Srinagar City (J&K) India, Under Chang...
Assessing Water Demand And Supply For Srinagar City (J&K) India, Under Chang...Assessing Water Demand And Supply For Srinagar City (J&K) India, Under Chang...
Assessing Water Demand And Supply For Srinagar City (J&K) India, Under Chang...
IJMER
 
REMOTE SENSING DATA FOR HYDROLOGICAL MODELING
REMOTE SENSING DATA FOR HYDROLOGICAL MODELINGREMOTE SENSING DATA FOR HYDROLOGICAL MODELING
REMOTE SENSING DATA FOR HYDROLOGICAL MODELING
Shyam Mohan Chaudhary
 

Recommended

Ijetr042159
Ijetr042159Ijetr042159
Ijetr042159
Engineering Research Publication
 
Regression models for prediction of water quality in krishna river
Regression models for prediction of water quality in krishna riverRegression models for prediction of water quality in krishna river
Regression models for prediction of water quality in krishna river
Alexander Decker
 
Comparison of Spatial Interpolation Techniques - A Case Study of Anantnag Di...
Comparison of Spatial Interpolation Techniques - A Case Study of Anantnag Di...Comparison of Spatial Interpolation Techniques - A Case Study of Anantnag Di...
Comparison of Spatial Interpolation Techniques - A Case Study of Anantnag Di...
IJMER
 
J012415965
J012415965J012415965
J012415965
IOSR Journals
 
Download-manuals-surface water-software-processingofstreamflowdata
Download-manuals-surface water-software-processingofstreamflowdata Download-manuals-surface water-software-processingofstreamflowdata
Download-manuals-surface water-software-processingofstreamflowdata
hydrologyproject0
 
Real time reservoir operation (calibration phase) a case study
Real time reservoir operation (calibration phase) a case studyReal time reservoir operation (calibration phase) a case study
Real time reservoir operation (calibration phase) a case study
eSAT Publishing House
 
Assessing Water Demand And Supply For Srinagar City (J&K) India, Under Chang...
Assessing Water Demand And Supply For Srinagar City (J&K) India, Under Chang...Assessing Water Demand And Supply For Srinagar City (J&K) India, Under Chang...
Assessing Water Demand And Supply For Srinagar City (J&K) India, Under Chang...
IJMER
 
REMOTE SENSING DATA FOR HYDROLOGICAL MODELING
REMOTE SENSING DATA FOR HYDROLOGICAL MODELINGREMOTE SENSING DATA FOR HYDROLOGICAL MODELING
REMOTE SENSING DATA FOR HYDROLOGICAL MODELING
Shyam Mohan Chaudhary
 
Rainfall Runoff Modelling on the Lower Tapi Basin using HEC-HMS
Rainfall Runoff Modelling on the Lower Tapi Basin using HEC-HMSRainfall Runoff Modelling on the Lower Tapi Basin using HEC-HMS
Rainfall Runoff Modelling on the Lower Tapi Basin using HEC-HMS
Ankit Balyan MBA, B.Tech.
 
IRJET- A Review Paper on Flood Controlling System by using Super Levees &...
IRJET- A Review Paper on Flood Controlling System by using Super Levees &...IRJET- A Review Paper on Flood Controlling System by using Super Levees &...
IRJET- A Review Paper on Flood Controlling System by using Super Levees &...
IRJET Journal
 
Weap final
Weap finalWeap final
Weap final
Iqura Malik
 
Optimal operation of a multi reservoir system and performance evaluation
Optimal operation of a multi reservoir system and performance evaluationOptimal operation of a multi reservoir system and performance evaluation
Optimal operation of a multi reservoir system and performance evaluation
IAEME Publication
 
Runoff estimation and water management for Holetta River, Awash subbasin, Eth...
Runoff estimation and water management for Holetta River, Awash subbasin, Eth...Runoff estimation and water management for Holetta River, Awash subbasin, Eth...
Runoff estimation and water management for Holetta River, Awash subbasin, Eth...
International Water Management Institute (IWMI)
 
Assessment of Water Supply–Demand for a Watershed using WEAP Model
Assessment of Water Supply–Demand for a Watershed using WEAP Model Assessment of Water Supply–Demand for a Watershed using WEAP Model
Assessment of Water Supply–Demand for a Watershed using WEAP Model
dipesh thakur
 
WATER RESOURCES MODELING OF THE GANGES-BRAHMAPUTRA-MEGHNA RIVER BASINS USING ...
WATER RESOURCES MODELING OF THE GANGES-BRAHMAPUTRA-MEGHNA RIVER BASINS USING ...WATER RESOURCES MODELING OF THE GANGES-BRAHMAPUTRA-MEGHNA RIVER BASINS USING ...
WATER RESOURCES MODELING OF THE GANGES-BRAHMAPUTRA-MEGHNA RIVER BASINS USING ...
Moudud Hasan
 
Sufficiency of water distributory(hlbc)
Sufficiency of water distributory(hlbc)Sufficiency of water distributory(hlbc)
Sufficiency of water distributory(hlbc)
eSAT Journals
 
Rainfall-Runoff Modelling
Rainfall-Runoff ModellingRainfall-Runoff Modelling
Rainfall-Runoff Modelling
Cobain Schofield
 
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
BRNSS Publication Hub
 
International Journal of Computational Engineering Research(IJCER)
International Journal of Computational Engineering Research(IJCER)International Journal of Computational Engineering Research(IJCER)
International Journal of Computational Engineering Research(IJCER)
ijceronline
 
Understanding impacts of sustainable land management interventions using SWAT...
Understanding impacts of sustainable land management interventions using SWAT...Understanding impacts of sustainable land management interventions using SWAT...
Understanding impacts of sustainable land management interventions using SWAT...
International Water Management Institute (IWMI)
 
RUNOFF AND SEDIMENT YIELD
RUNOFF AND SEDIMENT YIELDRUNOFF AND SEDIMENT YIELD
RUNOFF AND SEDIMENT YIELD
Shyam Mohan Chaudhary
 
Determination of homogenous regions in the Tensift basin (Morocco).
Determination of homogenous regions in the Tensift basin (Morocco).Determination of homogenous regions in the Tensift basin (Morocco).
Determination of homogenous regions in the Tensift basin (Morocco).
IJERA Editor
 
Hydrological modelling
Hydrological modellingHydrological modelling
Hydrological modelling
Bharath Viswakarma
 
Ijciet 10 01_046
Ijciet 10 01_046Ijciet 10 01_046
Ijciet 10 01_046
IAEME Publication
 
Water quality index for groundwater of southern part of bangalore city
Water quality index for groundwater of southern part of bangalore cityWater quality index for groundwater of southern part of bangalore city
Water quality index for groundwater of southern part of bangalore city
eSAT Journals
 
L03502062069
L03502062069L03502062069
L03502062069
theijes
 
E0363040045
E0363040045E0363040045
E0363040045
theijes
 
H0363059067
H0363059067H0363059067
H0363059067
theijes
 
Behavior pattern crosscheck in the revival of cultural environment identity ...
Behavior pattern crosscheck in the revival of cultural environment identity ... Behavior pattern crosscheck in the revival of cultural environment identity ...
Behavior pattern crosscheck in the revival of cultural environment identity ...
theijes
 
J0366068078
J0366068078J0366068078
J0366068078
theijes
 

More Related Content

What's hot

Assessment of Water Supply–Demand for a Watershed using WEAP Model
Assessment of Water Supply–Demand for a Watershed using WEAP Model Assessment of Water Supply–Demand for a Watershed using WEAP Model
Assessment of Water Supply–Demand for a Watershed using WEAP Model
dipesh thakur
 
Sufficiency of water distributory(hlbc)
Sufficiency of water distributory(hlbc)Sufficiency of water distributory(hlbc)
Sufficiency of water distributory(hlbc)
eSAT Journals
 
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
BRNSS Publication Hub
 
Determination of homogenous regions in the Tensift basin (Morocco).
Determination of homogenous regions in the Tensift basin (Morocco).Determination of homogenous regions in the Tensift basin (Morocco).
Determination of homogenous regions in the Tensift basin (Morocco).
IJERA Editor
 
Ijciet 10 01_046
Ijciet 10 01_046Ijciet 10 01_046
Ijciet 10 01_046
IAEME Publication
 
Water quality index for groundwater of southern part of bangalore city
Water quality index for groundwater of southern part of bangalore cityWater quality index for groundwater of southern part of bangalore city
Water quality index for groundwater of southern part of bangalore city
eSAT Journals
 

What's hot (17)

Rainfall Runoff Modelling on the Lower Tapi Basin using HEC-HMS
Rainfall Runoff Modelling on the Lower Tapi Basin using HEC-HMSRainfall Runoff Modelling on the Lower Tapi Basin using HEC-HMS
Rainfall Runoff Modelling on the Lower Tapi Basin using HEC-HMS
 
IRJET- A Review Paper on Flood Controlling System by using Super Levees &...
IRJET- A Review Paper on Flood Controlling System by using Super Levees &...IRJET- A Review Paper on Flood Controlling System by using Super Levees &...
IRJET- A Review Paper on Flood Controlling System by using Super Levees &...
 
Weap final
Weap finalWeap final
Weap final
 
Optimal operation of a multi reservoir system and performance evaluation
Optimal operation of a multi reservoir system and performance evaluationOptimal operation of a multi reservoir system and performance evaluation
Optimal operation of a multi reservoir system and performance evaluation
 
Runoff estimation and water management for Holetta River, Awash subbasin, Eth...
Runoff estimation and water management for Holetta River, Awash subbasin, Eth...Runoff estimation and water management for Holetta River, Awash subbasin, Eth...
Runoff estimation and water management for Holetta River, Awash subbasin, Eth...
 
Assessment of Water Supply–Demand for a Watershed using WEAP Model
Assessment of Water Supply–Demand for a Watershed using WEAP Model Assessment of Water Supply–Demand for a Watershed using WEAP Model
Assessment of Water Supply–Demand for a Watershed using WEAP Model
 
WATER RESOURCES MODELING OF THE GANGES-BRAHMAPUTRA-MEGHNA RIVER BASINS USING ...
WATER RESOURCES MODELING OF THE GANGES-BRAHMAPUTRA-MEGHNA RIVER BASINS USING ...WATER RESOURCES MODELING OF THE GANGES-BRAHMAPUTRA-MEGHNA RIVER BASINS USING ...
WATER RESOURCES MODELING OF THE GANGES-BRAHMAPUTRA-MEGHNA RIVER BASINS USING ...
 
Sufficiency of water distributory(hlbc)
Sufficiency of water distributory(hlbc)Sufficiency of water distributory(hlbc)
Sufficiency of water distributory(hlbc)
 
Rainfall-Runoff Modelling
Rainfall-Runoff ModellingRainfall-Runoff Modelling
Rainfall-Runoff Modelling
 
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
Selection of Optimal Parameters of Impulse Sprinkling Systems of Self-oscilla...
 
International Journal of Computational Engineering Research(IJCER)
International Journal of Computational Engineering Research(IJCER)International Journal of Computational Engineering Research(IJCER)
International Journal of Computational Engineering Research(IJCER)
 
Understanding impacts of sustainable land management interventions using SWAT...
Understanding impacts of sustainable land management interventions using SWAT...Understanding impacts of sustainable land management interventions using SWAT...
Understanding impacts of sustainable land management interventions using SWAT...
 
RUNOFF AND SEDIMENT YIELD
RUNOFF AND SEDIMENT YIELDRUNOFF AND SEDIMENT YIELD
RUNOFF AND SEDIMENT YIELD
 
Determination of homogenous regions in the Tensift basin (Morocco).
Determination of homogenous regions in the Tensift basin (Morocco).Determination of homogenous regions in the Tensift basin (Morocco).
Determination of homogenous regions in the Tensift basin (Morocco).
 
Hydrological modelling
Hydrological modellingHydrological modelling
Hydrological modelling
 
Ijciet 10 01_046
Ijciet 10 01_046Ijciet 10 01_046
Ijciet 10 01_046
 
Water quality index for groundwater of southern part of bangalore city
Water quality index for groundwater of southern part of bangalore cityWater quality index for groundwater of southern part of bangalore city
Water quality index for groundwater of southern part of bangalore city
 

Viewers also liked

Behavior pattern crosscheck in the revival of cultural environment identity ...
Behavior pattern crosscheck in the revival of cultural environment identity ... Behavior pattern crosscheck in the revival of cultural environment identity ...
Behavior pattern crosscheck in the revival of cultural environment identity ...
theijes
 
A model for power losses reduction in low voltage distribution network of re...
A model for power losses reduction in low voltage distribution network of re... A model for power losses reduction in low voltage distribution network of re...
A model for power losses reduction in low voltage distribution network of re...
theijes
 
Performance Evaluation of Domestic Refrigerator Using Hc-12a Refrigerant as a...
Performance Evaluation of Domestic Refrigerator Using Hc-12a Refrigerant as a...Performance Evaluation of Domestic Refrigerator Using Hc-12a Refrigerant as a...
Performance Evaluation of Domestic Refrigerator Using Hc-12a Refrigerant as a...
theijes
 
An Efficient Queuing Model for Resource Sharing in Cloud Computing
An Efficient Queuing Model for Resource Sharing in Cloud Computing An Efficient Queuing Model for Resource Sharing in Cloud Computing
An Efficient Queuing Model for Resource Sharing in Cloud Computing
theijes
 

Viewers also liked (19)

L03502062069
L03502062069L03502062069
L03502062069
 
E0363040045
E0363040045E0363040045
E0363040045
 
H0363059067
H0363059067H0363059067
H0363059067
 
Behavior pattern crosscheck in the revival of cultural environment identity ...
Behavior pattern crosscheck in the revival of cultural environment identity ... Behavior pattern crosscheck in the revival of cultural environment identity ...
Behavior pattern crosscheck in the revival of cultural environment identity ...
 
J0366068078
J0366068078J0366068078
J0366068078
 
B0363010015
B0363010015B0363010015
B0363010015
 
B036407011
B036407011B036407011
B036407011
 
I0362058068
I0362058068I0362058068
I0362058068
 
A model for power losses reduction in low voltage distribution network of re...
A model for power losses reduction in low voltage distribution network of re... A model for power losses reduction in low voltage distribution network of re...
A model for power losses reduction in low voltage distribution network of re...
 
K0364062067
K0364062067K0364062067
K0364062067
 
C0363016021
C0363016021C0363016021
C0363016021
 
Experimental Study On Rice Husk As Fine Aggregates In Concrete
Experimental Study On Rice Husk As Fine Aggregates In ConcreteExperimental Study On Rice Husk As Fine Aggregates In Concrete
Experimental Study On Rice Husk As Fine Aggregates In Concrete
 
D03601023026
D03601023026D03601023026
D03601023026
 
G0363052058
G0363052058G0363052058
G0363052058
 
A Comparative Study on the Properties of Al-7% Si-Rice Husk Ash and Al-7% Si-...
A Comparative Study on the Properties of Al-7% Si-Rice Husk Ash and Al-7% Si-...A Comparative Study on the Properties of Al-7% Si-Rice Husk Ash and Al-7% Si-...
A Comparative Study on the Properties of Al-7% Si-Rice Husk Ash and Al-7% Si-...
 
Performance Evaluation of Domestic Refrigerator Using Hc-12a Refrigerant as a...
Performance Evaluation of Domestic Refrigerator Using Hc-12a Refrigerant as a...Performance Evaluation of Domestic Refrigerator Using Hc-12a Refrigerant as a...
Performance Evaluation of Domestic Refrigerator Using Hc-12a Refrigerant as a...
 
A03501001006
A03501001006A03501001006
A03501001006
 
Geotechnical Investigation for Design and Construction of Civil Infrastructur...
Geotechnical Investigation for Design and Construction of Civil Infrastructur...Geotechnical Investigation for Design and Construction of Civil Infrastructur...
Geotechnical Investigation for Design and Construction of Civil Infrastructur...
 
An Efficient Queuing Model for Resource Sharing in Cloud Computing
An Efficient Queuing Model for Resource Sharing in Cloud Computing An Efficient Queuing Model for Resource Sharing in Cloud Computing
An Efficient Queuing Model for Resource Sharing in Cloud Computing
 

Similar to J0363075081

Runoff Prediction of Gharni River Catchment of Maharashtra by Regressional An...
Runoff Prediction of Gharni River Catchment of Maharashtra by Regressional An...Runoff Prediction of Gharni River Catchment of Maharashtra by Regressional An...
Runoff Prediction of Gharni River Catchment of Maharashtra by Regressional An...
ijtsrd
 
ASSESSING THE EFFECTS OF SPATIAL INTERPOLATION OF RAINFALL ON THE STREAMFLOW ...
ASSESSING THE EFFECTS OF SPATIAL INTERPOLATION OF RAINFALL ON THE STREAMFLOW ...ASSESSING THE EFFECTS OF SPATIAL INTERPOLATION OF RAINFALL ON THE STREAMFLOW ...
ASSESSING THE EFFECTS OF SPATIAL INTERPOLATION OF RAINFALL ON THE STREAMFLOW ...
civej
 
Groundwater Data Requirement and Analysis
Groundwater Data Requirement and AnalysisGroundwater Data Requirement and Analysis
Groundwater Data Requirement and Analysis
C. P. Kumar
 
Intensity-Duration-Frequency Curves and Regionalisation
Intensity-Duration-Frequency Curves and RegionalisationIntensity-Duration-Frequency Curves and Regionalisation
Intensity-Duration-Frequency Curves and Regionalisation
AM Publications
 

Similar to J0363075081 (20)

Flood modeling of river godavari using hec ras
Flood modeling of river godavari using hec rasFlood modeling of river godavari using hec ras
Flood modeling of river godavari using hec ras
 
IRJET- Rainfall-Runoff Analysis of the Watershed for River AIE
IRJET- Rainfall-Runoff Analysis of the Watershed for River AIEIRJET- Rainfall-Runoff Analysis of the Watershed for River AIE
IRJET- Rainfall-Runoff Analysis of the Watershed for River AIE
 
Statistical Model to Analyze the Impact of Land use Activity for District Lud...
Statistical Model to Analyze the Impact of Land use Activity for District Lud...Statistical Model to Analyze the Impact of Land use Activity for District Lud...
Statistical Model to Analyze the Impact of Land use Activity for District Lud...
 
Runoff Prediction of Gharni River Catchment of Maharashtra by Regressional An...
Runoff Prediction of Gharni River Catchment of Maharashtra by Regressional An...Runoff Prediction of Gharni River Catchment of Maharashtra by Regressional An...
Runoff Prediction of Gharni River Catchment of Maharashtra by Regressional An...
 
IRJET- Flood Frequency Analysis of Flood Flow in Periyar River Basin
IRJET- Flood Frequency Analysis of Flood Flow in Periyar River BasinIRJET- Flood Frequency Analysis of Flood Flow in Periyar River Basin
IRJET- Flood Frequency Analysis of Flood Flow in Periyar River Basin
 
Application of Swat Model for Generating Surface Runoff and Estimation of Wat...
Application of Swat Model for Generating Surface Runoff and Estimation of Wat...Application of Swat Model for Generating Surface Runoff and Estimation of Wat...
Application of Swat Model for Generating Surface Runoff and Estimation of Wat...
 
ASSESSING THE EFFECTS OF SPATIAL INTERPOLATION OF RAINFALL ON THE STREAMFLOW ...
ASSESSING THE EFFECTS OF SPATIAL INTERPOLATION OF RAINFALL ON THE STREAMFLOW ...ASSESSING THE EFFECTS OF SPATIAL INTERPOLATION OF RAINFALL ON THE STREAMFLOW ...
ASSESSING THE EFFECTS OF SPATIAL INTERPOLATION OF RAINFALL ON THE STREAMFLOW ...
 
E012662431
E012662431E012662431
E012662431
 
Determining The Coefficient Of Tr, Α And River Length (L) Of Flood Runoff Mod...
Determining The Coefficient Of Tr, Α And River Length (L) Of Flood Runoff Mod...Determining The Coefficient Of Tr, Α And River Length (L) Of Flood Runoff Mod...
Determining The Coefficient Of Tr, Α And River Length (L) Of Flood Runoff Mod...
 
DEM GENERATION AND RIVER ANALYSIS USING HEC-RAS MODEL, HARIDWAR DISTRICT, UTT...
DEM GENERATION AND RIVER ANALYSIS USING HEC-RAS MODEL, HARIDWAR DISTRICT, UTT...DEM GENERATION AND RIVER ANALYSIS USING HEC-RAS MODEL, HARIDWAR DISTRICT, UTT...
DEM GENERATION AND RIVER ANALYSIS USING HEC-RAS MODEL, HARIDWAR DISTRICT, UTT...
 
HYDROLOGICAL AND WATER QUALITY MODELLING USING SWAT FOR DONI RIVER
HYDROLOGICAL AND WATER QUALITY MODELLING USING SWAT FOR DONI RIVERHYDROLOGICAL AND WATER QUALITY MODELLING USING SWAT FOR DONI RIVER
HYDROLOGICAL AND WATER QUALITY MODELLING USING SWAT FOR DONI RIVER
 
DETERMINATION OF NET FLOWS INTO ALMATTI RESERVOIR FROM CWC GAUGE DATA AND RES...
DETERMINATION OF NET FLOWS INTO ALMATTI RESERVOIR FROM CWC GAUGE DATA AND RES...DETERMINATION OF NET FLOWS INTO ALMATTI RESERVOIR FROM CWC GAUGE DATA AND RES...
DETERMINATION OF NET FLOWS INTO ALMATTI RESERVOIR FROM CWC GAUGE DATA AND RES...
 
Ijciet 08 02_001
Ijciet 08 02_001Ijciet 08 02_001
Ijciet 08 02_001
 
Performance Evaluation of Sambalpur Distributary and Parmanpur Distributary u...
Performance Evaluation of Sambalpur Distributary and Parmanpur Distributary u...Performance Evaluation of Sambalpur Distributary and Parmanpur Distributary u...
Performance Evaluation of Sambalpur Distributary and Parmanpur Distributary u...
 
Groundwater Data Requirement and Analysis
Groundwater Data Requirement and AnalysisGroundwater Data Requirement and Analysis
Groundwater Data Requirement and Analysis
 
A study on comparision of runoff estimated by Empirical formulae with Measure...
A study on comparision of runoff estimated by Empirical formulae with Measure...A study on comparision of runoff estimated by Empirical formulae with Measure...
A study on comparision of runoff estimated by Empirical formulae with Measure...
 
ANALYSIS AND OPTIMIZATION OF WATER DISTRIBUTION SYSTEM AT AMBAJI
ANALYSIS AND OPTIMIZATION OF WATER DISTRIBUTION SYSTEM AT AMBAJIANALYSIS AND OPTIMIZATION OF WATER DISTRIBUTION SYSTEM AT AMBAJI
ANALYSIS AND OPTIMIZATION OF WATER DISTRIBUTION SYSTEM AT AMBAJI
 
Intensity-Duration-Frequency Curves and Regionalisation
Intensity-Duration-Frequency Curves and RegionalisationIntensity-Duration-Frequency Curves and Regionalisation
Intensity-Duration-Frequency Curves and Regionalisation
 
Swat model
Swat model Swat model
Swat model
 
C-039.pdf
C-039.pdfC-039.pdf
C-039.pdf
 

Recently uploaded

Bhubaneswar🌹Call Girls Bhubaneswar ❤Komal 9777949614 💟 Full Trusted CALL GIRL...
Bhubaneswar🌹Call Girls Bhubaneswar ❤Komal 9777949614 💟 Full Trusted CALL GIRL...Bhubaneswar🌹Call Girls Bhubaneswar ❤Komal 9777949614 💟 Full Trusted CALL GIRL...
Bhubaneswar🌹Call Girls Bhubaneswar ❤Komal 9777949614 💟 Full Trusted CALL GIRL...
Call Girls Mumbai
 
DeepFakes presentation : brief idea of DeepFakes
DeepFakes presentation : brief idea of DeepFakesDeepFakes presentation : brief idea of DeepFakes
DeepFakes presentation : brief idea of DeepFakes
MayuraD1
 
School management system project Report.pdf
School management system project Report.pdfSchool management system project Report.pdf
School management system project Report.pdf
Kamal Acharya
 
Call Girls in South Ex (delhi) call me [🔝9953056974🔝] escort service 24X7
Call Girls in South Ex (delhi) call me [🔝9953056974🔝] escort service 24X7Call Girls in South Ex (delhi) call me [🔝9953056974🔝] escort service 24X7
Call Girls in South Ex (delhi) call me [🔝9953056974🔝] escort service 24X7
9953056974 Low Rate Call Girls In Saket, Delhi NCR
 
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
AldoGarca30
 
"Lesotho Leaps Forward: A Chronicle of Transformative Developments"
"Lesotho Leaps Forward: A Chronicle of Transformative Developments""Lesotho Leaps Forward: A Chronicle of Transformative Developments"
"Lesotho Leaps Forward: A Chronicle of Transformative Developments"
mphochane1998
 

Recently uploaded (20)

Bhubaneswar🌹Call Girls Bhubaneswar ❤Komal 9777949614 💟 Full Trusted CALL GIRL...
Bhubaneswar🌹Call Girls Bhubaneswar ❤Komal 9777949614 💟 Full Trusted CALL GIRL...Bhubaneswar🌹Call Girls Bhubaneswar ❤Komal 9777949614 💟 Full Trusted CALL GIRL...
Bhubaneswar🌹Call Girls Bhubaneswar ❤Komal 9777949614 💟 Full Trusted CALL GIRL...
 
HAND TOOLS USED AT ELECTRONICS WORK PRESENTED BY KOUSTAV SARKAR
HAND TOOLS USED AT ELECTRONICS WORK PRESENTED BY KOUSTAV SARKARHAND TOOLS USED AT ELECTRONICS WORK PRESENTED BY KOUSTAV SARKAR
HAND TOOLS USED AT ELECTRONICS WORK PRESENTED BY KOUSTAV SARKAR
 
Thermal Engineering Unit - I & II . ppt
Thermal Engineering Unit - I & II . pptThermal Engineering Unit - I & II . ppt
Thermal Engineering Unit - I & II . ppt
 
DeepFakes presentation : brief idea of DeepFakes
DeepFakes presentation : brief idea of DeepFakesDeepFakes presentation : brief idea of DeepFakes
DeepFakes presentation : brief idea of DeepFakes
 
School management system project Report.pdf
School management system project Report.pdfSchool management system project Report.pdf
School management system project Report.pdf
 
Call Girls in South Ex (delhi) call me [🔝9953056974🔝] escort service 24X7
Call Girls in South Ex (delhi) call me [🔝9953056974🔝] escort service 24X7Call Girls in South Ex (delhi) call me [🔝9953056974🔝] escort service 24X7
Call Girls in South Ex (delhi) call me [🔝9953056974🔝] escort service 24X7
 
Introduction to Serverless with AWS Lambda
Introduction to Serverless with AWS LambdaIntroduction to Serverless with AWS Lambda
Introduction to Serverless with AWS Lambda
 
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
 
DC MACHINE-Motoring and generation, Armature circuit equation
DC MACHINE-Motoring and generation, Armature circuit equationDC MACHINE-Motoring and generation, Armature circuit equation
DC MACHINE-Motoring and generation, Armature circuit equation
 
Wadi Rum luxhotel lodge Analysis case study.pptx
Wadi Rum luxhotel lodge Analysis case study.pptxWadi Rum luxhotel lodge Analysis case study.pptx
Wadi Rum luxhotel lodge Analysis case study.pptx
 
Block diagram reduction techniques in control systems.ppt
Block diagram reduction techniques in control systems.pptBlock diagram reduction techniques in control systems.ppt
Block diagram reduction techniques in control systems.ppt
 
Employee leave management system project.
Employee leave management system project.Employee leave management system project.
Employee leave management system project.
 
Thermal Engineering -unit - III & IV.ppt
Thermal Engineering -unit - III & IV.pptThermal Engineering -unit - III & IV.ppt
Thermal Engineering -unit - III & IV.ppt
 
Thermal Engineering-R & A / C - unit - V
Thermal Engineering-R & A / C - unit - VThermal Engineering-R & A / C - unit - V
Thermal Engineering-R & A / C - unit - V
 
Generative AI or GenAI technology based PPT
Generative AI or GenAI technology based PPTGenerative AI or GenAI technology based PPT
Generative AI or GenAI technology based PPT
 
Unit 4_Part 1 CSE2001 Exception Handling and Function Template and Class Temp...
Unit 4_Part 1 CSE2001 Exception Handling and Function Template and Class Temp...Unit 4_Part 1 CSE2001 Exception Handling and Function Template and Class Temp...
Unit 4_Part 1 CSE2001 Exception Handling and Function Template and Class Temp...
 
A Study of Urban Area Plan for Pabna Municipality
A Study of Urban Area Plan for Pabna MunicipalityA Study of Urban Area Plan for Pabna Municipality
A Study of Urban Area Plan for Pabna Municipality
 
Computer Lecture 01.pptxIntroduction to Computers
Computer Lecture 01.pptxIntroduction to ComputersComputer Lecture 01.pptxIntroduction to Computers
Computer Lecture 01.pptxIntroduction to Computers
 
"Lesotho Leaps Forward: A Chronicle of Transformative Developments"
"Lesotho Leaps Forward: A Chronicle of Transformative Developments""Lesotho Leaps Forward: A Chronicle of Transformative Developments"
"Lesotho Leaps Forward: A Chronicle of Transformative Developments"
 
Work-Permit-Receiver-in-Saudi-Aramco.pptx
Work-Permit-Receiver-in-Saudi-Aramco.pptxWork-Permit-Receiver-in-Saudi-Aramco.pptx
Work-Permit-Receiver-in-Saudi-Aramco.pptx
 

J0363075081

  • 1. The International Journal Of Engineering And Science (IJES) || Volume || 3 || Issue || 6 || Pages || 75-81 || 2014 || ISSN (e): 2319 – 1813 ISSN (p): 2319 – 1805 www.theijes.com The IJES Page 75 Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations. 1, D.K.Khopade, 2, Prof. R.A. Oak 1, M.Tech. student of Hydraulics at Bharti Vidyapeeth University’s College of Engineering and Technology, Pune. and in charge HOD of Civil Engg. Dept. at Abhinav Education Society’s College of Engg.& Tech.(Poly.), Wadwadi, Dist- Satara. 2, Professor at Bharti Vidyapeeth University’s College of Engg. & Tech. Pune and Ex Research Officer, CWPRS Pune. -----------------------------------------------------------ABSTRACT------------------------------------------------------------- One of the major problems confronted by the hydrologists for many years is the prediction of runoff from a given basin for a known rainfall. This problem is so complex that its complete solution is practically impossible, as there are numerous factors which affect the runoff process. In this situation, development of a rainfall runoff model is important in Nira Deoghar Dam catchment located at latitudes of northern 18˚6’18” and longitudes of eastern 73˚43’36” in Pune District of Maharashtra. The proposed study on rainfall-runoff modeling over the Nira Deoghar Catchment is essential to explore the spatial and temporal distribution of excess water available in the catchment which has supposed to be harvested and can be utilized for irrigation. By considering the above said aspect the rainfall-runoff studies were carried out by using various rainfall- runoff empirical formulae. There are only two rain gauge stations located in the catchment namely Shirgaon and Deoghar and data available is only for 18 years (1981-1997). So due to limitations in available data the rainfall data from adjacent Dhom catchment can be taken for analysis with thirty one years of monthly and annual rainfall (1967-1997). . Keywords – Empirical formulae, Nira Deoghar catchment, Rainfall-Runoff relation, Runoff, Yield ------------------------------------------------------------------------------------------------------------------------------------------- Date of Submission: 07 June 2014 Date of Publication: 20 June 2014 ------------------------------------------------------------------------------------------------------------------------------------------- I. INTRODUCTION Water is the elixir of life and a precious gift of nature to the mankind. Water is a basis necessity for sustaining the life and development of society. It is fast becoming a scarce commodity in most parts of the world. The source of all water on the globe is precipitation. Proper estimation of run-off magnitude is required for efficient design, planning and management of river basin projects that deal with conservation & utilization of water for various purposes. To determine accurate quantity of surface run-off that in any river basin, understanding of the complex relationship between rainfall and run-off processes of particular basin is necessary. Determination of Runoff depends on many geo morphological and climate factors etc. The basic requirements in designing water projects, is the estimation of runoff resulted from precipitation. In order to achieve this purpose, various methods, empirical equations and rainfall-runoff models can be used. Determination of runoff resulted from precipitation is one of the most important factors in hydrologic problems analysis and water resources management. The relationship between precipitation and runoff is a complicated and non-linear relationship which is depended on several factors. 1.1 Yield The total quantity of surface water that can be expected in a given period from a stream at the outlet of its catchment is known as yield of the catchment in that period. The annual yield from a catchment is the end product of various processes such as precipitation, infiltration and evapotranspiration operating on the catchment. Due to the inherent nature of the various parameters involved in the processes, the yield is a random variable. A common practice is to assign a dependability value (say 75% dependable yield) to the yield. Thus, 75% dependable annual yield is the value that can be expected to be equaled to or exceeded 75% times (i.e. on
  • 2. Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 76 an average 15 times in a span of 20 years). Similarly, 50% dependable yield is the annual yield value that is likely to be equaled or exceeded 50% of times (i.e. on an average 10 times in 20 years). The calculation of natural runoff volume is of fundamental importance in all surface water resources development studies. The most desirable basis for assessing the yield characteristics of a catchment is to analyze the actual flow records of the stream draining the catchment. However, in general, observed discharge data of sufficient length is unlikely to be available for many catchments. As such, other alternate methods such as the empirical equations and watershed simulations are often adopted. 1.2Empirical Equations The importance of estimating the water availability from the available hydrologic data for purposes of planning water-resource projects was recognized by engineers even in the last century. With a keen sense of observation in the region of their activity many engineers of the past have developed empirical runoff estimation formulae. However, these formulae are applicable only to the region in which they were derived. These formulae are essentially rainfall-runoff relations with additional third or fourth parameters to account for climatic or catchment characteristics. Some of these methods have more expanded domain and can be used for some same regions by applying some corrections and choosing proper coefficients. 1.3 Study Area Area of the studied region is 44.20 sq. miles located in western ghat area of Sahyadri hills and it is 15 Km.from Bhor City in Dist. - Pune. Geographically, the watershed is located between latitudes of northern 18˚6’18” and longitudes of eastern 73˚43’36”. There are small villages within the study area and a large part of watershed slopes is made by forests and Rangeland Topographically, the up-Slope part of watershed including stony and rocky heights with steep slopes and a few branches of water bodies and almost without soil. Fig.1 Nira river The Nira River basin has a tropical climate with a hot summer and a mild winter. Agro-Climatically the area falls under the group of semiarid regions. Nira Deoghar dam is mainly an irrigation earthen dam; receive its main source of water from ghat area of Sahyadri hills. In This paper, the rainfall-runoff process of Nira Deoghar catchment, one of the Sub-basin of Krisnha River is considered for the study. The Catchment area was predominantly influenced by North West Monsoon. The month of June to October accounts for major rainfall.
  • 3. Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 77 Fig. 2 Nira Deoghar Dam 1.4 METHODOLOGY The purpose of this study is to apply various empirical methods of runoff estimation and to evaluate them with regard to available results in Nira Deoghar catchment. In this study, various rainfall-runoff models and empirical formulae are considered to estimate the runoff depth of Nira river basin of Nira Deoghar Dam catchment and the results were compared with available data. 1.4.1 Available Data The Shirgaon and Deoghar raingauge stations are located inside Nira Deoghar catchment and the monthly rainfall data is available for the period 1980 to 1997 (i.e. 18 years). Whereas Jambhali and Kelanje are the raingauge stations located in adjacent Dhom catchment and monthly rainfall data is available for the period 1967 to 1997 (i.e. 31 years). These four raingauge stations influence the Nira Deoghar catchment and the monthly and annual rainfall data of these stations are used for analysis purpose. 1.4.2 Test for Consistency of Data Before using the rainfall records of a station, it is necessary to first check the data for continuity and consistency. If the conditions to the relevant to the recording of a raingauge station undergone a significant change during the period of record, inconsistency would arise in the rainfall data of that station. The consistency check of rainfall data has to be done by checking one to one consistency of rainfall data of Jambhali and Kelanje station with Shirgaon and Deoghar station.The consistency is observed in rainfall data. Fig.3 Consistancy check of rainfall data 1.5 Results The analysis of data is done to estimate the annual runoff of the Nira Deoghar catchment by using different empirical formulae. Now, from these estimated annual runoff values the average yield of the catchment and dependable yield of the catchment are calculated. These yields are then compared with the available yield values of catchment by R-R relations of Dhom dam and Veer dam.
  • 4. Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 78 Fig. 4 R-R Relationship using Barlow’s Method y = 0.45x + 3E-13 R² = 1 0.00 10.00 20.00 30.00 40.00 50.00 60.00 70.00 80.00 90.00 0 50 100 150 200 Runoff(inches) Rainfall (inches) Rainfall - Runoff Relation Rainfall - Runoff Relation Linear (Rainfall - Runoff Relation) Fig. 5 R-R Relationship using Inglis y = 0.849x - 12.00 R² = 1 0.00 50.00 100.00 150.00 200.00 0 50 100 150 200 250 Runoff(inches) Rainfall (inches) R-R Regression R-R Regressio n Fig. 6 R-R Relationship using Coutagine Formula y = 1.376x - 96.87 R² = 0.979 0.00 50.00 100.00 150.00 200.00 250.00 0 50 100 150 200 250 Runoff(inches) Rainfall (inches) RainfallRunoffRelationship Rainfall Runoff Relations hip Fig. 7 R-R Relationship using Laceys Formula
  • 5. Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 79 Fig. 8 Comparision of Runoff values of Nira Deoghar catchment 1.5.1 Comparison of Yields The annual yield values obtained from various empirical equations are then compared with the average yield value, 50% dependable yield and 75% dependable yield as given in Table.
  • 6. Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 80 Table 1 – Estimated Yield by using different methods Yield in Mcft By ann ual RR By mon thly By Veer RR Bar low s Ingl is Stra nge Kho slas SC S- CN Cou tagi ne De pt of irri .In dia Khos la by other Lace y Averag e 11.7 9 12.1 7 13.7 3 6.8 5 11.7 12.83 11.7 6 5.5 1 10.5 6 7.4 5 14.95 11.26 50% Depend able 11.6 1 11.5 7 14.3 8 6.8 5 11.5 12.03 11.3 5.3 7 10.2 5 7.3 3 14.72 11.05 75% Depend able 10.4 8 10.8 0 11.6 7 6.1 8 10.3 10.24 10.3 0 4.4 9 8.46 6.5 6 13.35 9.78 Fig. 9 Comparision of Yield values of Nira Deoghar catchment CONCLUSION During the course of the currently proposed research we investigated the appropriateness of 9 runoff estimation methods that are widely used in Indian hydrology were investigated for Nira Deoghar catchment. Also these models were evaluated using available rainfall-runoff relationships of the adjacent Dhom dam and downstream Veer dam. In general we claim that significant deviations were found between the measured and calculated yields for the catchment. The results plotted in a graph shows that, the runoff yield results obtained from Inglis Formula,Khosla’s Formula,Coutagine relationship, Lacey equation are relatively closer to the available results calculated by using R-R relationship of Dhom dam and Veer dam; whereas, the result of Stranges Table method are slightly higher than the available results. The results obtained from Barlow’s equation, SCS-CN method and equation developed by Dept. of Irrigation, India has very lower values of runoff yield. Also with regard to results from Khosla’s formula, Coutagine relationship and Lacey equation it can be concluded that the assumption made for average temperature of Nira Deoghar catchment (i.e. 33˚C) is quite correct. The Barlow’s equation has been derived from the study of small catchment in Uttar Pradesh. Therefore the results obtained by using this equation in Nira Deoghar Catchment are not matching. While using SCS-CN method for Nira Deoghar catchment some assumptions are made regarding soil type to decide CN number, due to this assumptions the yield obtained from the catchment is lower. The equation used by Dept. of Irrigation India is based on the data of river Reihand, hence this relation cannot be directly applicable for our study.
  • 7. Estimation of Runoff Yield for Nira Deoghar Catchment Using Different Empirical Equations www.theijes.com The IJES Page 81 REFRENCES [1] M.Rajendran, A. Murugappan, M.Latha and J.Mohamed Ashik Ali, “Comparison of Rainfall-Runoff Models – A Case Study”. 5 th Asian Regional Conference, 6-11 December 2009, New Delhi, India. [2] Khabat Khosravi , Haidar Mirzai and Iman Saleh, “Assessment of Empirical Methods of Runoff Estimation by Statistical test”(Case study: BanadakSadat Watershed, Yazd Province) International journal of Advanced Biological and Biomedical Research ISSN: 2322 - 4827, Volume 1, Issue 3, 2013: 285-301 [3] P .Sundar kumar, K.Hanuma.Rishi, “Simulation of Rainfall Runoff Using SCS &RRL (Case Study Tadepalli Mandal)” International Journal of Engineering Research and General Science Volume 1, Issue 1, August 2013 [4] S.D. Jadhav, D.G. Kanase, R.W. Jawale, M.S. Jadhav, Physico-Chemical Assessment of Nira River,Pune, (Maharashtra), A Case Study. [5] Methods for Estimating Stormwater Runoff Chapter 2 Section 2.1 Columbia County Stormwater Management Design Manual 2.1-1 [6] Ismail Abustan , Ahmad Husaini Sulaiman, Nabsiah Abdul Wahid and Fauzi Baharudin, “Determination of Rainfall-Runoff Characteristics in An UrbanArea: Sungai Kerayong Catchment, Kuala Lumpur” 11th International Conference on Urban Drainage, Edinburgh, Scotland, UK, 2008. [7] Ven Te Chow, David R. Maidment, Larry W. Mays, “Applied Hydrology” Mc-Graw Hill Book Comany. [8] K Subramanya, “Engineering Hydrology” Third Edition, Tata McGraw-Hill Publishing Company Limited, New Delhi. P-27, 59, 69, 80,148-159. [9] Celarity Power Private Ltd.Mumbai, Nira Deoghar Hydro Electric Project “Project Feasibility Report” August 2005. [10] Asmita Ramkrishna Murumkar, Dhyan Singh Arya, “Trend and Periodicity Analysis in Rainfall Pattern of Nira Basin,Central India” American Journal of Climate Change, 2014, 3, 60-70 [11] Md. Eahya Al Huda and Surendra Singh, “Assessment of Runoff in the High Humid Foot-hill Areas of Arunachal Himalayas Using Thornthwaite Equation” Int. Journal of GEOMATE, Dec., 2012, Vol. 3, No. 2 (Sl. No. 6), pp. 397- 401