H. de Groot scite author profile

OM&T | Moser Baer Technologies is investigating the approach of texturing glass up to Gen5 size (1.1 x 1.3 m 2 ) by nano-imprinting techniques. For the application of thin film silicon solar cells nano-imprinted 2D periodic gratings were successfully developed and tested as light trapping textures that can realize an increased solar cell efficiency and/or allow to reduce the thickness of the absorber layers. Reliable materials were found and compatibility of the nano-imprinted light management layers with solar module manufacturing processes was demonstrated. Scaling-up towards Gen5 size was realized by first moving from laboratory to Gen2 scale and to incorporate the findings into a processing line that can be used for the production of Gen5 size textured glass.

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Periodically textured glass for 20% bottom cell current increase in a-Si:H/μc-Si:H tandem solar cells

Erven¹,

Steltenpool²,

Rutten³

et al. 2011

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The Dynamic Aspect of Formation Storage Use for CO2 Sequestration

Winkler

Abernathy

Nicolo

et al. 2010

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The Athabasca Oil Sands Project Joint Venture (AOSP JV) owners – Shell Canada Energy (Shell), Chevron Canada Limited (Chevron) and Marathon Oil Sands L.P. (Marathon) – are advancing front-end development plans of a fully integrated carbon capture, pipeline and storage project in Alberta called the Quest CCS Project. A Final Investment Decision for Quest is scheduled for 2012. Quest is designed as a fully integrated CCS project in the oil sands sector involving CO2 capture at the Scotford upgrader near Fort Saskatchewan, pipeline transportation northeast from Scotford and CO2 storage in a deep saline formation zone, the Basal Cambrian Sand. Over the expected lifetime of 25 years, the project will capture and store up to 1.1 Mt of CO2 per year from the steam methane reformer units at the existing Scotford upgrader and at the upgrader’s expansion currently under construction Conventional volumetric methods for the pore space assessment of CO2 storage, such as the guidance provided by the 2008 Carbon Sequestration ATLAS of the United States and Canada, are good tools in estimating the pore space available, while also considering empirical DOE ranges for storage efficiency, such as area and vertical sweep efficiency, gravity contact efficiency and microscopic displacement efficiency. Such assessment would suggest a CO2 storage capacity of the Basal Cambrian Sand at Quest of approximately 7 Mt per township (6 miles x 6 miles). However, such an estimate is of a static nature, not taking into account dynamic system constraints such as required injection rates, bottom-hole pressure constraints and associated well count and well spacing, including pressure interference and regional pore pressure increase. Dynamic reservoir simulation has been performed, for a variety of subsurface realizations, covering the full range of current subsurface uncertainties, with the aim to optimize the development while also estimating the required pore space for CO2 storage. Following the concept of linking the required pore space to pore pressure increase, rather than CO2 plume extension, resulted in a significant reduction of pore space utilization in the Basal Cambrian Sand from the initial 7 Mt per township to only 0.67 Mt per township and will have a potential impact on additional CCS developments in the region.

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H. de Groot

Amorphous carbon fibres from linear low density polyethylene

Atomic force microscopy of thin triblock copolymer films

Gen5 production tool for light management textures

Periodically textured glass for 20% bottom cell current increase in a-Si:H/μc-Si:H tandem solar cells

The Dynamic Aspect of Formation Storage Use for CO2 Sequestration

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Product

Resources

About

H. de Groot

Amorphous carbon fibres from linear low density polyethylene

Atomic force microscopy of thin triblock copolymer films

Gen5 production tool for light management textures

Periodically textured glass for 20% bottom cell current increase in a-Si:H/&#x03BC;c-Si:H tandem solar cells

The Dynamic Aspect of Formation Storage Use for CO2 Sequestration

Contact Info

Product

Resources

About

Periodically textured glass for 20% bottom cell current increase in a-Si:H/μc-Si:H tandem solar cells