Search Results - "Sahoo, Sridhar"

Performance assessment of direct injection stoichiometric and lean burn compressed natural gas engine over port fuel gasoline and compressed natural gas engine by Sahoo, Sridhar, Srivastava, Dhananjay Kumar

“…A direct injection (DI) CNG engine was developed and evaluated under stoichiometric and lean burn conditions, emphasising high compression ratios (CRs). A…”
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Effect of compression ratio on engine knock, performance, combustion and emission characteristics of a bi-fuel CNG engine by Sahoo, Sridhar, Srivastava, Dhananjay Kumar

“…Compressed natural gas (CNG) is considered one of the most promising alternative fuel used in the transport sector. CNG has high octane number, wide…”
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Numerical analysis of performance, combustion, and emission characteristics of PFI gasoline, PFI CNG, and DI CNG engine by Sahoo, Sridhar, Srivastava, Dhananjay Kumar

“…Compressed natural gas (CNG) has gained widespread acceptance in the automobile industry due to its clean-burning properties, lower emissions, and superior…”
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Dosimetry of indigenously developed 192Ir high-dose rate brachytherapy source: An EGSnrc Monte Carlo study by Sahoo, Sridhar, Selvam, T, Sharma, S, Das, Trupti, Dey, A, Patil, B, Sastri, K.V.S

“…Clinical application using high-dose rate (HDR) 192Ir sources in remote afterloading technique is a well-established treatment method. In this direction, Board…”
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Monte Carlo-based dose calculation for 32 P patch source for superficial brachytherapy applications by Sahoo, Sridhar, Palani, Selvam, Saxena, S, Babu, D A R, Dash, A

“…Skin cancer treatment involving 32 P source is an easy, less expensive method of treatment limited to small and superficial lesions of approximately 1 mm deep…”
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Effect of injection timing on combustion and IMEP variation of a bi‐fuel compressed natural gas SI engine by Sahoo, Sridhar, Srivastava, Dhananjay Kumar

“…Compressed natural gas (CNG) is a gaseous fuel stored under high pressure in a cylindrical tank. When the CNG is injected into the intake manifold, it expands…”
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Quantitative and qualitative analysis of thermodynamic process of a bi‐fuel compressed natural gas spark ignition engine by Sahoo, Sridhar, Srivastava, Dhananjay Kumar

“…A comparative energy and exergy analysis was experimentally performed using a bi‐fuel compressed natural gas (CNG) spark ignition engine. The experiments were…”
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An analytic approach to the dosimetry of a new BEBIG 60 Co high-dose-rate brachytherapy source by Bhola, Subhalaxmi, Selvam, T, Sridhar, Sahoo, Vishwakarma, Ramkrishna

“…We present a simple analytic tool for calculating the dose rate distribution in water for a new BEBIG high-dose-rate (HDR) 60 Co brachytherapy source. In the…”
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Quantitative analysis of engine parameters of a variable compression ratio CNG engine using machine learning by Sahoo, Sridhar, Kumar, Valluri Naga Sai Pavan, Srivastava, Dhananjay Kumar

“…•Quantification of performance, combustion, and emissions of a high CR CNG engine.•A maximum of 35.86% ITE was achieved using CNG engine at compression ratio…”
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An EGSnrc investigation of the air-kerma strength, dose rate constant, and radial dose function of 125I brachytherapy sources by Sahoo, Sridhar, Palani Selvam, T.

“…Titanium-encapsulated 125 I brachytherapy sources are in use for treatment of the eye, brain, and head and neck region, and for early stage prostate cancer…”
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Monte Carlo‐based dosimetry of proposed bi‐radionuclide (125I and 106Ru/106Rh) eye plaque: A feasibility study by Mishra, Subhalaxmi, Selvam, T. Palani, Sahoo, Sridhar, Saxena, Sanjay Kumar, Kumar, Yogendra, Sapra, Balvinder K.

“…Background Combining the sharp dose fall off feature of beta‐emitting 106Ru/106Rh radionuclide with larger penetration depth feature of photon‐emitting125I…”
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Comment on “Design and bioevaluation of a 32P-patch for brachytherapy of skin diseases” [Appl. Radiat. Isot. 66 (2008) 303–309] by Sahoo, Sridhar, Palani Selvam, T.

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Comment on ''Monte Carlo dosimetry of {sup 60}Co HDR brachytherapy sources'' [Med. Phys. 30, 712-721 (2003)] by Selvam, T. Palani, Sahoo, Sridhar, Vishwakarma, R. S.

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Comment on “Monte Carlo dosimetry of C 60 o HDR brachytherapy sources” [ Med. Phys. 30, 712–721 (2003)] by Selvam, T. Palani, Sahoo, Sridhar, Vishwakarma, R. S.

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Comment on "Monte Carlo dosimetry of 60Co HDR brachytherapy sources" [Med. Phys. 30, 712-721 (2003)] by Selvam, T Palani, Sahoo, Sridhar, Vishwakarma, R S

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Comment on “Monte Carlo dosimetry of C60o HDR brachytherapy sources” [Med. Phys. 30, 712–721 (2003)] by Selvam, T. Palani, Sahoo, Sridhar, Vishwakarma, R. S.

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Comment on “Monte Carlo dosimetry of HDR brachytherapy sources” [Med. Phys. 30, 712–721 (2003)] by Selvam, T. Palani, Sahoo, Sridhar, Vishwakarma, R. S.

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Dosimetry of indigenously developed 192 Ir high-dose rate brachytherapy source: An EGSnrc Monte Carlo study by Sahoo, Sridhar, Selvam, TPalani, Sharma, SD, Das, Trupti, Dey, AC, Patil, BN, Sastri, K.V.S.

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Monte Carlo-based dose calculation for 32P patch source for superficial brachytherapy applications by Sahoo, Sridhar, Palani, Selvam T., Saxena, S. K., Babu, D. A. R., Dash, A.

“…Skin cancer treatment involving 32 P source is an easy, less expensive method of treatment limited to small and superficial lesions of approximately 1 mm deep…”
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Dosimetry of indigenously developed (192)Ir high-dose rate brachytherapy source: An EGSnrc Monte Carlo study by Sahoo, Sridhar, Selvam, T Palani, Sharma, S D, Das, Trupti, Dey, A C, Patil, B N, Sastri, K V S

“…Clinical application using high-dose rate (HDR) (192)Ir sources in remote afterloading technique is a well-established treatment method. In this direction,…”
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