Sentence examples for membrane reactor modules from inspiring English sources

A hydrogen production plant with integrated catalytic membrane reactor modules (HP-CMR) represents a new technology option with potentially enhanced environmental performance characteristics.

In this work, the combined role of mass and heat dispersion effects on the performance of adiabatic large-scale membrane reactor modules is investigated.

In particular, the economic viability of Pd/Au-based membrane reactor modules incorporated into Integrated Gasification Combined Cycle IGCCC) plants is evaluated within the aforementioned framework by pro-actively following sound process safety design principles.

This review considers the techniques of manufacturing Pd-based membranes, the design of membrane reactor modules and the processes for producing pure hydrogen via reforming of hydrocarbons and alcohols.

Pre-investment on risk reducing measures, such as spare safety relief systems (cautionary redundancy) for membrane reactor modules operating at high pressures (e.g. 50 atm), is shown to be economically more attractive than cases where analogous safety measures are not implemented.

Apart from flux measurements exploratory overall conversion measurements were carried out with the membrane reactor module in order to demonstrate its operation performance.

In particular, a detailed Net Present Value (NPV) model has been developed to evaluate the economic viability of an IGCC-MR plant where the membrane reactor module design conforms to basic inherent safety principles.

Since 1994, progress has been achieved in several areas (sol gel deposition of defect free sol gel derived membranes, reduction in thickness of Pd membranes, synthesis of zeolite membranes) whereas stagnation was noticed in some others (high-temperature sealing of membranes into modules, scaling-up of membrane reactor, etc).

The membrane reactor used was a polypropylene microporous hollow fibre membrane module packed with a palladium catalyst in the void space of the shell side.

A membrane module based system is preferable over a membrane reactor of practical reasons.

By assuming that the same membrane performance could be obtained at industrial conditions, it was shown by mathematical modeling that a ZSM-5 membrane reactor could reach 97% COx-conversion per pass, while a ZSM-5 membrane module process could reach 81% conversion per pass for a stoichiometric feed.