Transesterified Hingan (Balanites) oil as a fuel for compression ignition engines

Deshmukh, Samir J.; Bhuyar, Lalit B.

doi:10.1016/j.biombioe.2008.04.017

Cited by 59 publications

(19 citation statements)

References 9 publications

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“…With increase in the value of exhaust gas temperature, NO x emission also increased. Thats why, biodiesel fuel has the potential to emit more NO x as compared to that of diesel fueled engines [19][20][21][22].…”

Section: Nitrogen Oxide (No X ) Emissionsmentioning

confidence: 99%

Performance evaluation of a diesel engine fueled with methyl ester of castor seed oil

Panwar

Shrirame

Rathore

et al. 2010

Applied Thermal Engineering

165

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Section: Nitrogen Oxide (No X ) Emissionsmentioning

confidence: 99%

Performance evaluation of a diesel engine fueled with methyl ester of castor seed oil

Panwar

Shrirame

Rathore

et al. 2010

Applied Thermal Engineering

165

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“…As the load increases, the overall fuel/air ratio also increases which results in an increase in the average in-cylinder temperature. Consequently, the NO x formation also increases (Deshmukh and Bhuyar 2009;Godiganur et al 2010;Raheman and Ghadge 2007;Zhu et al 2010). On the other hand, measurements on a single-cylinder, 4-stroke, naturally aspirated DI diesel outboard engine, performed during the ISO C-3 test cycle, have shown that NO x emission decreases as the load is increased (Murillo et al 2007).…”

Section: Influence Of Engine Operating Regimementioning

confidence: 94%

Effects of Biodiesel Usage on Engine Performance, Economy, Tribology, and Ecology

Kegl

Pehan

2013

Lecture Notes in Energy

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“…Ester developed from balanites oil by the transesterification process, which has been investigated for its properties and engine performance (Deshmukh and Bhuyar 2009). Also, it has been used as a model for the utilization of bioresources in the Israeli Arava desert and potentially other similar areas for cost-effective biodiesel production (Chapagain et al 2009).…”

Section: Medicinal Properties and Usesmentioning

confidence: 99%

Introduction

Varshney¹,

Anis²

2014

Trees: Propagation and Conservation

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Biodiversity, as this assemblage of life-forms is referred to, has now been acknowledged as the foundation for sustainable livelihood and food security. Forests are one of the most valuable ecosystems in the world, containing more than 60 % of the world's biodiversity. Forest trees are recognized as a raw-material base for industrial and domestic wood products, which perpetually provide renewable energy, fiber, and timber. Besides other valuable products, several trees are recognized for their medicinal and pharmaceutical importance. The economic benefits of planted forests have led to their widespread adoption throughout the world. To maintain and sustain forest vegetation, conventional approaches have been exploited for propagation and improvement, but tree-breeding efforts are restricted to the most valuable and fast-growing species. However, such methods are limited by several inherent bottlenecks because trees are generally slowgrowing, long-lived, sexually self-incompatible, and highly heterozygous plants. Tissue culture and other biotechnological approaches offer tremendous scope towards the desired objectives. This chapter deals with a brief introduction about global and national status of forests and applications and limitations of plant tissue culture for trees with a special reference to a semiarid tree, Balanites aegyptiaca (L.) Del.

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Transesterified Hingan (Balanites) oil as a fuel for compression ignition engines

Cited by 59 publications

References 9 publications

Performance evaluation of a diesel engine fueled with methyl ester of castor seed oil

Performance evaluation of a diesel engine fueled with methyl ester of castor seed oil

Effects of Biodiesel Usage on Engine Performance, Economy, Tribology, and Ecology

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