- UHRA Home
- Browsing by Author
Browsing by Author "Lodge, Matthew"
Now showing items 1-13 of 13
-
2x Prototype ASEF Systems - (D10) : Automated Sample Extraction from Filters
Johnston, Ian; Tracey, Mark; Lodge, Matthew; Kaye, Richard; Baxter, Richard; School of Engineering and Technology; Science & Technology Research Institute; Centre for Engineering Research; Centre for Hazard Detection and Protection Research; Microfluidics and Microengineering; Department of Engineering and Technology; Munro, Ian; McCluskey, Daniel (UH MEMS, 2015-03-11)The Automated Sample Extraction from Filters (ASEF) unit is a prototype automated aerosol sample extraction unit. The application is for the detection and identification of pathogenic micro-organisms (bacteria and viruses) ... -
Agreed Design Specification - (D05) : Automated Sample Extraction from Filters
McCluskey, Daniel; Johnston, Ian; Tracey, Mark; Munro, Ian; Kaye, Richard; Baxter, Richard; Lodge, Matthew (RED Scientific, 2014-11-18) -
Agreed Test Specifications - (D06) : Automated Sample Extraction from Filters
McCluskey, Daniel; Johnston, Ian; Tracey, Mark; Tan, Christabel; Munro, Ian; Kaye, Richard; Baxter, Richard; Lodge, Matthew (RED Scientific, 2014-11-19) -
Delivery of Prototype Automated Sample Processing Unit for Incorporation into a Biological Identification System
Tan, Christabel; Tracey, Mark; School of Engineering and Technology; Enterprise and Business Development; Micro Electro-Mechanical Systems; Centre for Engineering Research; Centre for Hazard Detection and Protection Research; Microfluidics and Microengineering; Department of Engineering and Technology; Johnston, Ian; McCluskey, Daniel; Lodge, Matthew; Munro, Ian (UH MEMS, 2017-02-28) -
Design Review of ESP/EWOD/ESP Translation Mechanisms - (D3.1): Worn Bio-detector Phase 2
McCluskey, Daniel; Lodge, Matthew; Coudron, Loic; Munro, Ian (UH, 2017-10-31) -
Final Report on prototype unit for enhanced experimental testing and performance characterisation - (D01) : Hardened ASEF (H-ASEF)
McCluskey, Daniel; Lodge, Matthew; Munro, Ian; Kaye, Richard; Johnston, Ian; Tracey, Mark (UH MEMS, 2017-03-29) -
Final System Design Engineering Drawings - (D09) : Automated Sample Extraction from Filters
McCluskey, Daniel; Johnston, Ian; Tracey, Mark; Munro, Ian; Lodge, Matthew; Kaye, Richard; Baxter, Richard (RED Scientific, 2014-12-17) -
Final Technical Report : Automated Sample Processing Unit for Incorporation into a Biological Identification System
Johnston, Ian; McCluskey, Daniel; Tan, Christabel; Lodge, Matthew; Munro, Ian; Tracey, Mark (UH MEMS, 2017-03-27) -
Interim report and pre-build design - (D3.2): Worn Bio-detector Phase 2
McCluskey, Daniel; Coudron, Loic; Munro, Ian; Lodge, Matthew; Baxter, Richard; Johnston, Ian; Tracey, Mark (UH, 2017-10-31) -
Prototype H-ASEF System : Hardened Automated Sample Extraction from Filters
School of Engineering and Technology; Enterprise and Business Development; Micro Electro-Mechanical Systems; Centre for Engineering Research; Centre for Hazard Detection and Protection Research; Microfluidics and Microengineering; Department of Engineering and Technology; McCluskey, Daniel; Lodge, Matthew; Munro, Ian (UH MEMS, 2017-03-29)The Hardened Automated Sample Extraction from Filters (H-ASEF) unit is a redevelopment of the previously design ASEF platform to allow for more robust and extensive performance testing. The H-ASEF platform is concerned ... -
Report on Stage 1 Elution Testing : Thales Group SPINNAKER evaluation
McCluskey, Daniel; Tan, Christabel; Baxter, Richard; Johnston, Ian; Tracey, Mark; Coudron, Loic; Lodge, Matthew (Thales Group, 2016-02-06) -
Report on Stage 2 Inlet Testing : Thales Group SPINNAKER evaluation
McCluskey, Daniel; Baxter, Richard; Lodge, Matthew; Tracey, Mark; Johnston, Ian; Coudron, Loic; Tan, Christabel (Thales Group, 2016-03-29) -
Wet Foam Elution Report - (D06) : Development of Wet Foam Method of Extraction of BW Simulants from Aerosol Filters
Tan, Christabel; Johnston, Ian; McCluskey, Daniel; Tracey, Mark; Coudron, Loic; Munro, Ian; Lodge, Matthew; Kaye, Richard; Baxter, Richard (UH MEMS, 2017-05-19)