Manoj Chopra scite author profile

Abstract:Green roofs, which have been used for several decades in many parts of the world, offer a unique and sustainable approach to stormwater management. Within this paper, evidence is presented on water retention for an irrigated green roof system. The presented green roof design results in a water retention volume on site. A first principle mass balance computer model is introduced to assist with the design of these green roof systems which incorporate a cistern to capture and reuse runoff waters for irrigation of the green roof. The model is used to estimate yearly stormwater retention volume for different cistern storage volumes. Additionally, the Blaney and Criddle equation is evaluated for estimation of monthly evapotranspiration rates for irrigated systems and incorporated into the model. This is done so evapotranspiration rates can be calculated for regions where historical data does not exist, allowing the model to be used anywhere historical weather data are available. This model is developed and discussed within this paper as well as compared to experimental results.

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Performance evaluation of two silt fence geotextiles using a tilting test-bed with simulated rainfall

Gogo-Abite

Chopra

2013

Geotextiles and Geomembranes

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Monitoring for close proximity tunneling effects on an existing tunnel using principal component analysis technique with limited sensor data

Yun

Park²,

Mehdawi

et al. 2014

Tunnelling and Underground Space Technology

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Finite‐element analysis of time‐dependent large‐deformation problems

Chopra

Dargush

1992

Num Anal Meth Geomechanics

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SUMMARYAn updated Lagrangian finite-element formulation has been developed for time-dependent problems of soil consolidation involving finite deformations. Large plastic strains as well as rotations occur in such problems and nominal stress measures are introduced in the formulation to redefine stresses. This leads to corrective terms for equilibrium and yield violations in addition to geometric stiffening terms in the governing integral equations. The soil is considered to be either a linear elastic or an elastoplastic, critical-state material. Some simple numerical examples are studied to validate the formulation, followed by a detailed analysis of the problem of penetration of a pile into soil. The results of this problem are viewed with emphasis on the physical interpretation and practical significance.

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Manoj Chopra

Effect of Rejuvenation Methods on the Infiltration Rates of Pervious Concrete Pavements

A Mass Balance Model for Designing Green Roof Systems that Incorporate a Cistern for Re-Use

Performance evaluation of two silt fence geotextiles using a tilting test-bed with simulated rainfall

Monitoring for close proximity tunneling effects on an existing tunnel using principal component analysis technique with limited sensor data

Finite‐element analysis of time‐dependent large‐deformation problems

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