UNstudio plans four fluid mixed-use towers for hangzhou, china
CategoriesArchitecture

UNstudio plans four fluid mixed-use towers for hangzhou, china

 

project info:

 

project title: Hiwell Amber Centre

architecture: UNStudio | @unstudio_architecture

location: Hangzhou, China

client: Hiwell Properties

status: under construction

visualizations: SAN © Hiwell Properties / ICON

 

local executive architect: China United Engineering Corporation Limited

structure: Canopy+T3: ARUP
facade (canopy): ARUP
facade (towers): Positive Attitude Group (PAG)
fire engineering (hotel): RJA

MEP (hotel): Squire Mech
MEP (apartment, office): MJP M&E Consultant

kitchen (hotel): RICCA
landscape: JTL Studio
lighting: Brandston Partnership. Inc (BPI)

 

UNStudio team: Ben van Berkel, Hannes Pfau with Erica Fang, Matt Burdalski, Judy Wong, Xiaorong Mo, Rafael Yoon, Zhengda Hou, Chengyang Liu, Cheng Tan, Chris Liu, Albert Yen, Craig Yan, Jon Espinosa Molano, Dongbo Han, Ami Nigam, Joanna Wang, Ray Wong, Haodong Hu, Yu Zhao, Junya Huang, Andres Monis Rodriguez, Ruijie Xu, Yufeng Tu, Joy Li, and Tony Hu, Antoine Muller, Shail Patel, Wei Huang, Biqin Li, Lawrence Ma, Bin Fu, Pedro Manzano Ruiz, Richard Stewart, Arturo Revilla Perez, Maya Calleja Calvo, Dongjie Qiu, Tsung-Yen Hsieh, Harsh Arora, Zhenyu Yang



Reference

Hi-tech fluid makes pumped hydro more affordable
CategoriesSustainable News

Hi-tech fluid makes pumped hydro more affordable

Spotted: Clean energy sources, like solar and wind, are much better for the environment than fossil fuels, but they are less reliable. Increasingly, companies are exploring pumped hydropower as a means of storing renewable energy. But today’s conventional low-density hydro-power systems don’t use renewables to their full efficiency. Enter startup RheEnergise.

Video source RheEnergise

RheEnergise’s High-Density Hydro system pumps a special, hi-tech fluid uphill between storage tanks at times of low energy demand and cost. As energy prices rise, the fluid is released downhill through turbines, which generates electricity to supply the grid. 

RheEnergise’s mineral-rich fluid is two and a half times denser than water, which is normally used in pumped hydropower. As a result, it contains two and a half times the energy and can be used on a hill that is two and a half times smaller. This means the RheEnergise system does not need high mountains to work, leading to more potential sites and substantial reductions in construction costs.

RheEnergise recently received a £1 million grant (about €1.1 million) from the UK Government’s Net Zero Innovation Portfolio. It will use this investment to explore whether minerals or waste materials that do not need to be imported can be used in its fluid. 

The company plans to deploy a demonstrator close to Plymouth by the middle of next year. It is also pursuing other opportunities across the UK and Europe and expects to have its first five-megawatt grid-scale project in operation as early as 2026. RheEnergise has estimated that there are around 6,500 sites in the UK alone that could use the system.

Springwise has spotted other innovations utilising hydropower, including small turbines for use in any river, and a generator that works where fresh water meets the sea.

Written By: Jessica Bradley

Reference