How to rebuild responsibly after disaster to serve both the inhabitants and preserve natural resources
Ice fallen from the Himalayan Glacier will be productively reused and carried along the Mekong incorporating Hydrogen Fuel Cell boats, insulated with @Greensulate or similar; thereby, alleviating some potential flood risks associated with glacial melting by carrying the ice downstream and productively reusing it. Walls without ice will adapt a biolife system akin to that of the E. chlorotica sea slug. Together, these interventions will also aid in reducing energy costs and CO2 emissions associated with fossil fuels used to formulate air-conditioning.
In addition, the wall systems at the school and hotel will use @Ecovate natural insulation systems. Natural water cleansing, reuse and recycling systems will be incorporated into the wall systems to provide drinking water and local sustainable agriculture. Naturally occurring, not engineered in a lab, the Hybrid. Plant + Animal genes Solar Powered Sea Slug will inform new Trade Technologies On-Site.
Glacial Waste from the Himalayas melts and disperses into the South China Sea. This concept repurposes this ice energy by using boats made of mushroom insulation to carry the ice along the Mekong River and cool the buildings.
Lessons from Cambodia:
Electricity in Phnom Penh is unreliable with outages lasting a month at times, especially for local users.
Solar Energy costs $5 for equipment. 15W Solar Panels are needed. So, 200 Solar Panels are needed to get 3000W of energy costing $1000.
Hydro Energy may reduce 1 KW to 15 cents. Though, Hydrogen Power Plants on the Mekong are 10 years out, costly and performed by non-Cambodian Governments, China and Vietnam.
βAn ice storage facility was introduced, and large effects in energy saving and operation cost were confirmed as a result of the one year operation. The outline of the system using ice storage and a brine turborefrigerator with zero ozone destruction coefficient, results of the operation and energy saving effect were introduced. Average performance coefficient (COP) in a year of the refrigerator for ice making was improved from 3.3 to 4.1. The reduction of not only electric fee but also the electric power use is expected by the introduction of the ice storage facility.β
https://www.researchgate.net/publication/272239452_Design_of_an_ice_thermal_energy_storage_system_for_a_building_of_hospitality_operation