Paul Badger scite author profile

Paul Badger

4Publications

31Citation Statements Received

0Citation Statements Given

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111

Affiliations

Robert Morris University, Engineering (Italy)

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Environmental, health, and safety issues in rapid prototyping

Short

Sirinterlikci

Badger

et al. 2015

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Purpose – This study aims to investigate the potential impacts of rapid prototyping systems on the health and safety of operators and the environment, a growing concern given its wide-spread use in industry and academia. Design/methodology/approach – Materials, processing and equipment features were used to identify potential health and safety risks and hazards, as well as environmental effects. Findings – The study concludes with a “best practices” guide for rapid prototyping laboratories and service bureaus. Originality/value – A thorough literature search revealed that Stephen M. Deak, the Rapid Prototyping Department Manager at Hasbro Inc., is the pioneer of the safety and health concerns in the rapid prototyping area. He is the only person to publish papers in this field in addition to these authors’ recent publications. His papers focused on the rapid prototyping laboratory safety guidelines and safe work practices in the rapid prototyping area.

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Changes in microbial communities of a passive coal mine drainage bioremediation system

et al. 2019

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Drainage from abandoned mines is one factor greatly affecting the streams and vegetation in and around Pittsburgh and the Appalachian Mountains where coal mining occurred. This drainage may be more acidic, alkaline, or metal based. Different methods for remediation exist. Passive remediation is one method used to naturally allow the metals to precipitate out and aid in cleaning up the water. The goal of this study is to sample different holding ponds in a sequential passive remediation system and determine microbial communities present at each site of an abandoned coal mine drainage site. Sequencing of the 16S rRNA gene of the sediment indicated the most abundant phyla at each of the 5 ponds and wetland area included Proteobacteria (36%–43%), Bacteroidetes (12%–37%), Firmicutes (3%–11%), and Verrucomicrobia (6%–11%). Analysis of genera between the first, and most polluted, pond included Solitalea, Pedosphaera, and Rhodocyclus, whereas the microbial community from the wetland site at the end of the remediation system included Ignavibacterium, Pelotomaculum, and Petrimonas. The results of our microbial community composition study of sediment from a passive treatment system are in line with organisms commonly found in sediment regardless of iron oxide precipitation, while others are preferentially found in the less polluted wetland site.

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Information superhighway

Badger¹

1996

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Biofuels: Algae as

Buxton¹,

Badger²,

Dress³

et al. 2014

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Paul Badger

Environmental, health, and safety issues in rapid prototyping

Changes in microbial communities of a passive coal mine drainage bioremediation system

Information superhighway

Biofuels: Algae as

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