# Items where Author is "Kumar, Lokendra"

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**8**.

## Article

Kumar, Lokendra and Bhargava, Rama and Takhar, Harmindar S.
(2006)
**Finite element solution of mixed convection on a moving vertical cylinder with suction in a moving micropolar fluid medium.**
Meccanica, 41 (1).
pp. 63-78.
ISSN 0025-6455

Kumar, Lokendra and Bhargava, Rama and Bhargava, Pradeep and Takhar, Harmindar S.
(2005)
**Finite element solution of mixed convection micropolar fluid flow between two vertical plates with varying temperature.**
Archives of mechanics, 57 (4).
pp. 251-264.
ISSN 0373-2029

Bhargava, Rama and Agarwal, R. S. and Kumar, Lokendra and Takhar, Harmindar S.
(2004)
**Finite element study of mixed convection micropolar flow in a vertical circular pipe with variable surface conditions.**
International journal of engineering science, 42 (1).
pp. 13-27.
ISSN 0020-7225

Bhargava, Rama and Kumar, Lokendra and Takhar, Harmindar S. and Agarwal, R. S.
(2004)
**Quasi linearization of mixed convection micropolar flow near stagnation point with suction.**
International journal of heat and technology, 22 (1).
pp. 103-111.
ISSN 0392-8764

Bhargava, Rama and Kumar, Lokendra and Takhar, Harmindar S.
(2003)
**Finite element solution of mixed convection micropolar flow driven by a porous stretching sheet.**
International journal of engineering science, 41 (18).
pp. 2161-2178.
ISSN 0020-7225

Bhargava, Rama and Kumar, Lokendra and Takhar, Harmindar S.
(2003)
**Mixed convection from a continuous surface in a parallel moving stream of a micropolar fluid.**
ISSN 0947-7411

Bhargava, Rama and Kumar, Lokendra and Takhar, Harmindar S.
(2003)
**Numerical solution of free convection MHD micropolar fluid flow between two parallel porous vertical plates.**
International journal of engineering science, 21 (2).
pp. 123-136.
ISSN 0020-7225

Bhargava, Rama and Agarwal, R. S. and Kumar, Lokendra and Takhar, Harmindar S.
(2002)
**Numerical solution for the mixed convection flow of a micropolar fluid past a continuously moving plate.**
International journal of heat and technology, 20 (2).
pp. 23-30.
ISSN 0392-8764