Experiencing mobility in underground transport systems.

A liveable city requires accessible transport systems to serve a diverse range of people; otherwise, citizens may find parts of the city inaccessible. Socio-economic consequences of severance are well known, however the impact of what the author names as ‘vertical severance’ (VS) appears less understood, owing to the relatively recent introduction of step-free underground stations. This paper explains What attitudes and issues caused VS. So What were the implications and actionable insights of VS within the context of liveability within cities, and What Next. To serve a diverse population recommendations include incorporating new design procedures, and new design ideas for existing and new stations. Furthermore, VS could become a measure that describes the how liveable a city is for people of all ages and abilities. In conclusion, a sustainable vision for People Centred Mobility in Liveable Cities requires zero VS within stations and other transport systems

Journeys in the City: Empathising With the Users of Transport Buildings

Accessibility is a considerable and growing issue in the design of many public buildings including vital high use buildings such as train stations. Yet research methods for these buildings are poor. This paper suggests that one new approach to design is to use immersive, auto-ethnographic methods to achieve an empathetic understanding of design needs. The paper asks: what can we learn about the mobility requirements of station users when we are immersed in a train station environment, and what mobile research methods can we use to begin to explore this? The paper reports on a study that used video diaries to explore Canary Wharf Station in a November evening rush hour in dry conditions, and specifically to study passenger behaviours on an island platform within the station. The analysis focused on how to improve mobility in the station from a user’s perspective. This use of auto-ethnography is discussed as part of a broader methodological debate about how to explore universal design issues from a user’s perspective, and in the context of empathetic desig

Iridium-coated rhenium thrusters by CVD

Operation of spacecraft thrusters at increased temperature reduces propellant requirements. Inasmuch as propellant comprises the bulk of a satellite's mass, even a small percentage reduction makes possible a significant enhancement of the mission in terms of increased payload. Because of its excellent high temperature strength, rhenium is often the structural material of choice. It can be fabricated into free-standing shapes by chemical vapor deposition (CVD) onto an expendable mandrel. What rhenium lacks is oxidation resistance, but this can be provided by a coating of iridium, also by CVD. This paper describes the process used by Ultramet to fabricate 22-N (5-lbf) and, more recently, 445-N (100-lbf) Ir/Re thrusters; characterizes the CVD-deposited materials; and summarizes the materials effects of firing these thrusters. Optimal propellant mixture ratios can be employed because the materials withstand an oxidizing environment up to the meltimg temperature of iridium, 2400 C (4350 F)