A System and method for fracking of shale rock using shock wave Date of filing in India: 15.10.2013; Patent Application no. 4633/CHE/2013.: Deferment filed for six months April 08, 2015 4633/CHE/2013 April  09, 2015 ; PCT/IN2015/000166. The proposed technique intents to produce new fractures in the oil bearing shale rock  formation using the shock waves. Shock tube is a tool which generates shock waves which can be placed either inside the wellbore or on the ground surface. Applicants:  G Jagadeesh, T G Sitharam; KPJ Reddy and KB Akhilesh (IISc, Bangalore).


  In-Vehicle Road Signs and Live Traffic Lights Using Direction Sensitive Short Range Wireless Communication, -RFID-IPA09120001 (Title: Direction Sensitive Wireless Communication Application No. 4873/CHE/2012; Date of filing: 23 November 2012;  Applicant: Indian Institute of Science, Bangalore; Our Ref: IPA09120001) Applicants:  Aritra Paul, T G SItharam, Venkatesh.


 A System And Method For Increasing Yield Of A Depleted Borewell By Using Shock Applicants:  KPJ Reddy, T G Sitharam and Vivek,P. Patent Application no: IP -1371-IN-10960-PPA-2014:   Many borewells get abandoned due to low yield or dry out.The efficiency of the wells gets reduced over time by indicating a low specific capacity or yield. It is economically not feasible and practically impossible to abandon them and start with a new borewell. It is possible that these borewells can be rejuvenated. A new technique is proposed here to increase the yield of a well with the application of shock waves. Shock waves are generated using a shock tube on the surface and directed into the borewell. The high pressure behind the shock wave travelling into the borewell acts normal to the walls of the borewell and helps in clearing the clogged up  water channels (fissures, fractures, etc.) present in rock formations and thereby allowing the  water to flow easily into the well. 

instruments developed

Advised Wadia Institute of Himalayan Geology

Development of piezo vibro cone system
State-of-the-art hydraulic servo controlled piezo vibro-cone equipment, has been developed jointly with M/s HEICO, New Delhi as part of DST funded Research Project. The proposed piezo vibro-cone consists of a cone penetrometer coupled with a hydraulic shaker to induce liquefaction locally in the vicinity of probe during penetration at desired depth. The piezo vibro-cone has been designed to have three built-in sensors: (1) Load cell for tip resistance, (2) load cell for skin resistance, (3) Piezo sensor for pore pressure measurement. This facility has been installed at Soil Mechanics Lab, IISc, Bangalore.
Development of cyclic triaxial testing facility
 The state-of-the-art cyclic triaxial testing facility installed in geotechnical engineering division was developed with the financial support from Department of Science and Technology (Seismology division), Govt. of India, New Delhi, which is used to study the behavior of soils subjected to dynamic loading, liquefaction behaviour and also to estimate the dynamic soil properties such as shear modulus (G) and damping (D) required for design of geotechnical structures subjected to earthquake loading. The system is completely automated and computerized, which consists of servo-controlled submersible load cell (with a capacity of 10 KN) and a hydraulic actuator with frequency range of 0.01Hz to 10 Hz for applying vertical dynamic loading on the sample. The validation of the system as well as majority of development of computer control software for the system was done by me.
Development and installation of Uni-axial shake table facility
Shake table facility, which has been indigenously fabricated by M/s BISS, Bangalore, has the following features. Usable Table size of� 1m x 1m, with a provision (i) to fix hydraulic actuators, velocity and acceleration transducers at the appropriate locations; and (ii) to have alternative top plates to represent different roughness of the table-model structure interface, iii)30 kN servo-actuator for horizontal motion. Hydraulic actuators along with a computer and software for the generation of the input signal; cyclic function generator with a frequency range of 0.001 to 100 Hz. My contribution particularly focuses on foundation system for the shake table, civil structures for the facility and development of lesser weight earth pressure cell, accelerometers and pore pressure sensors.
Development of state of the art Laminar Box
 A complete design and scaled drawing was provided to M/s Biomed Instruments, Bangalore for fabricating laminar box. A laminar box is a large sized shear box consisting of several horizontal layers, built such that the friction between the layers is minimum. Hence the layers move relative to one another in accordance with the deformation of the soil inside. The present laminar box which incorporates the idea of rotation of end plates is designed and the same was manufactured by M/s/ Biomed Instruments, Bangalore.
Advised Wadia Institute of Himalayan Geology for setting up a state-of-the-art Geotechnical testing laboratory at WIHG.
Responsible for establishing two new areas of research In the area of “Rock mechanics and Rock engineering “ and In the area of  “Geotechnical Earthquake Engineering”, at Department of Civil Engineering, IISc, Bangalore and developed new courses in these areas of post graduate teaching and organized several national conferences including one brain storming session on earthquake geotechnical engineering. Also he is the author of two books for undergraduate education (Applied elasticity and Geotechnical Engineering Vol I and II) and authored many web courses and edited several conference volumes.