Space Design Competition - Round Two by Oliver Baldock

VA ROUND TWO INTERNATIONAL SPACE DESIGN COMPETITION OLIVER BALDOCK. JUNE 2012.

VULTURE AVIATION

Why

• An innovative honeycomb shape d • Elegantly floats between layers in t • The efficient server provides excell settlement • Immaculate and prompt emergenc services are in place to keep every present and future generations to • The reliable V-TAT transportation s materials and goods • A modified SPS Satellite can produ orbiting Venus, providing enough f

y us?

design with sleek and subtle finish the atmosphere of Venus lent relays of information within the

cy procedures and healthcare yone safe, adults and children alike, come system ensures rapid deliveries of

uce huge amounts of energy while for the generations

Overall View

External Ballasting as provided by platform contractor not shown

of Settlement

ndividual Module

Slight Concavity (Enables directional control & stability)

• • • • • •

Individual Modu

Floating settlement Dimensions : 0.5km each side, 37m Dual airlock system between modu Stabilizing Engines along the perim Module is neutrally buoyant Entire structure is symmetrical, enh

37 m

• Docking present in the middle of e • One dock provided, other 2 docks

ule Configuration

m high vertical walls ules meter of each module

hancing stability

0.5 km

each platform requested by vulture

Constructi No.

MATERIALS/Equi pment

USE

1) Reardonium

Exterior of structure, Houses

2) RTV Adhesive

Binds materials together

3) Silicon Carbide

Robots

4) Carbon Fibres (reinforced Polymer)

Furnitures & Robots

5) Expanded Polystyrene (ESP) 39

Furnitures

6) Silica Aerogel

Insulation

7) Silicon dioxide Glass

Windows

Platform Material & Enveloping Fab CONTRACTORS

ion Materials

SOURCE

METHOD OF DELIVERY

Aynah

Planet Clippers

Venus (Mining)

V-TAT

Venus (Mining)

V-TAT

Venus (Extraction)

V-TAT

Commercial Industries (Earth)

V-TAT

Venus (Mining)

V-TAT

Venus (Mining)

V-TAT

bric Material supplied by PLATFORM

Phase 1:

Construction P

• The platform is fitted with central dock and m to cloud layers

Phase 2:

• Bots build and lay out computer systems, po systems, while the electrical power receiver is acquired

Phase 3:

• Robots begin to add housings and furnishing furnished humans can start to move in to aid i construction

Phase 4 • Construct industry part of module Phase 5

• Construct agricultural part of module

Phase 6 • Finish residential area of module

Phase 7

•Connect 3 pods together and finish civiliza

Process

moved

ower s

End of phase 1

gs - Once in

End of phase 6

ation

End of phase 7

Buoyancy control while const Envelope

Pump System

Has filter and temp. regulator

Pum

V-TAT provides temporary support

Pump

System

Regulates pressure, air content and temp

Pum

System

Air

tructing

Platform

Pump Configuration of V-TAT supports

Pump

Mass

Air

Utilities & Infr

Construction Robot

Number

1) Laying of pipes and cables for communication

C th

2) Interior finishing

2840

F c

1.2 m

Utility bot

1.3 m 1m Robot

Number

Maintenance F1M8

1500 doc

Carrier Bots

Docked in

Livestock Collection

Docked o

Livestock Processing Facility

Present in

Service Droid

Docking f

Ultra Soaker

2 discreet

Internal Maintenance

4 docking

rastructure

Description

Carried out by the Utility Bot before the construction of he downsurface.

F1M8 robots with attachments such as plasma cutters, concrete nozzles, rollers and auger drills.

All materials and robots are transported to Asimov by Planet Clippers.

r Docked

cked externally in a docking facility

n 1 of 5 assigned facility when unused

outside the food processing facility

n the Food processing centre always

facilities available in every home

t docking locations for every module

g stations for every module

Calculation of Ma

aximum Mass

+/- 200,000 kg

Operations Specification

Total Mass (3 pods Mass (Kg)

Water, Waste

37,000

Transport

60,000

Engines

23,000

Power receiver and grid

100,000

Industrial

10,346,000

Automation Specification

Mass (Kg)

Robots

3,128,000

Servers Structure Specification

F Bu

26,000 Mass (Kg)

Housing

1,706,000 kg

Sub Floor/storage floors

10,094,000k

Extra space will be used for ballast or ext need.

s) = 54,432,000kg

Specification

Mass (Kg)

Agriculture

14,034,000

Furniture

159,000

Luxuries, Entertainment

3,000

People

840,000

Food usiness Development

1,917,000

Specification

Mass (Kg)

Laboratories

24,000

Aircrafts

73,000

Humans

54,432,000 kg total mass available -42,570,000 kg total mass used . 11,862,000 kg between 3 pods of free space

tra storage the foundation society my

Interi

Agriculture Section

Surface Area m2

% of To

Aeroponics

110000

18.00 %

Hydroponics

150000

23.00 %

Aquaponics

210000

32.00 %

Vertical Farming

140000

22.00 %

Processing

32500

5.00 %

Total

650000

100.00

Industry Section

Surface Area m2

% of To

Industry

325000

50.00 %

Food Storage

108000

16.67 %

Shipping

108000

16.67 %

Waste

108000

16.67 %

Total

650000

100%

*Calculations are approximate, and due to round may not add up completely.

ior

otal

Agriculture Storage Industry commercial Recreation Housing Reardonium reinforcement

ding errors during calculations, total

Interior U

Uses of the storage space

1/6th of the entire module is dedicated to storage. Water, food, power, robots, servers, contingency servers, backup servers, early terraforming tools, and aircrafts for surface survey & exploration

Use of Space

2.2.2 For overall map of Interior areas refer to Human Factors interior map of a hexagonal module.

Interior Allocation

Total residential area: 260,000 m 2 Total industrial area: 324,000 m 2 Total agricultural area: 650,000 m 2 Total storage area: 325,000 m 2 INDUSTRY

% Allocation

Venus Terraforming tools, mining industries Robot Repair Unit (RRU) Food Packaging Food Processing Sugar Rubber Plastics and Explosives Consumables (Non Electronic) Consumables (Electronic) Textile Paper Manufacture Recycling Plants Medicines and Chemicals Area for Expansion

22% 15% 13% 5% 9% 7% 8% 12% 3% 6%

% Allocation for Residential Feature

% Allocation

Park

Housing

Pathways

Expansion Areas 8 Commercial

% Allocation for Agricultural Rice

Wheat, Lentils

Potatoes, Beans Tomato, Carrot, Onion, Spinach, Lettuce

Corn, Oats, Spices, Herbs

Apples

Melons, Grapes, Banana, Sugarcane, Lemon

Cross Sections

s of Segments

Steering and Altitude 10 m

E t

20m

Aero Cow

Motor to turn propeller

30m

Protective gauze to catch debris

50m

e Control Engines

- Permanent engines

Electric Motors to turn engine

odynamic wling

Variable Pitch Nozzle

- Two initial/back-up engines (fold inwards when not in use)

Solar Power O Equations used

Sys SPS Orbital path taken to enter Venus orbit

Batt syst

Orbital System

50m

750m

35m Modified SPS satellite •SPS’s orbit at 9152km from the planets centre. •Orbit velocity of SPS’s is 5957 m/s. •Orbital time of 2.68 hours

stem orbital system

tery back up tem

Energy production

18.144 Mw (minimum) 1.13 Twh (1122 tonnes)

Phased Array, Bac Distrib

•Phase each SP Asimov •Transm receive microw •Can al transm

Phased array

•Three main cables from phased array to docking ports •Smaller cables connect each module through air locks •This size cable then distribute it around each module

ck Up and Power bution

ed array on PS and on v mits and es waves lso send missions

Phased array system

•Silicon nanowire backup battery details: •1008 Kwh/kg •1123 tones •1.13 Twh stored •Provides emergency power for 24 hours

Internal & External

Method

Transfer Rate

Frequency

Optical fibre Cables

100 Tb/s

205-220Thz

I C n

Wimax +

1Tb/s

2-11Ghz

I C n F d

Radio Waves and Micro waves

100Mb/s2Gb/s

Alternating

FSO

70Gb/s

E c n

l Communications

Function

Devices used

Internal Communicatio ns

Subcontracted from orbit link communications and OFDM used.

Internal Communicatio ns For portable devices

Full duplex Wimax towers and receivers .

External communicatio ns

Antennas, Wave tube amplifiers, transponders, SPS Satellites with communication antennas are used to transmit data to orbit link satellites else where.

Atmosphere, Climate, a

• • • • •

Season

Temperature

Humidity

Day Lengt

Spring

23 °C to 26 °C

35% to 39%

10 Ho

Summer

27 °C to 32 °C

43% to 44%

12 Ho

Autumn

23 °C to 26 °C

43% to 45%

10 Ho

Winter

20 °C to 22 °C

36% to 41%

8 Hou

High-Efficiency Particulate Air (HEPA) f Automated temperature and humidity OLED lights simulate day/night cycles Individualized room climate control by Isolated weather parks will simulate Ea

and Day/Night Cycles

ours

urs

filters y control

y residents arthlike weather (rain, snow, wind, etc.)

• • • • •

Resident

Balanced diet will provide nutritional v Residents will be recommended to hav Women should have 2100 calories and day. Free Recipe books are provided to all r Three restaurants providing food from professional Michelin starred chefs.

Food Pro

Using a mixture of aeroponics, hydroponic GM foods Crops harvested daily by monitored robot Fresh produce refrigerated at 4oC, other fo emergency rations kept in every module Airtight sealing prevents microbes from fo Transported to supermarkets via inflatable Purchases are monitored by Smartprints™ undertaken by all.

tial Diet

values for residents for health. ve 3 litres of water per day. d men should have 2700 calories per

residents to improve nutrition in diets m around the world cooked by

oduction

cs, aquaponics and vertical farming of

ts when ready (8-week cycle) oods dried and stored underground with

orming e trucks ™ to ensure a balanced diet is being

Water Man

Source: Water is obtained from the following reac C + 2H2SO4 → CO2 + 2SO2 + 2H2O Carbon is obtained from splitting carbon d Creations and sulfuric acid is obtained fro

Storage: Water is stored in the Water and Food Sto will be distributed according to the needs Distribution and sewer routing: The water is distributed throughout the settlement through underground pipes from the Water and Food Storage Area. Water Treatment and Recycling: The sewage water is collected and treated and the purified water is again sent for various purposes.

nagement

ction:

dioxide with technology from Carbon om the Venusian atmosphere .

orage Area of the each module and s. Sewer Routings

Automated Was

ste processing Paper/cardboard Metal cans

Glass

Plastic

• •

Food (compost)

•

• •

Household waste stored in foldaway-shaft for collection (sorted by consumers) Removed by waste-collector/ compressed via pneumatic press Contents disposed into appropriate compartments/transported to waste processing facility

Automated loadtransportation vehicle Applies pneumatic mechanism to collect loads

Sewage and Solid Waste

Sewage

Conventional water treatment (along with UV treatment)

Biodegrada

Nisarg Techno Dual Membrane (Microfiltration and reverse osmosis)

Portable Water for Consumption

Nutrient rich water

B me

Agricultural Purpo

Waste systems capacity per day per module

Management

able

gruna ology

Biogas ethane

oses

Solid wastes Segregation by RSU robot Non-Biodegradable Thermal Depolymerisation

Water

Gases

Crude Oil

Industrial Purposes

Power Treatment Process

e = 305,000 Kilograms per module

Activit We have a variety of entertainment of • • • •

Physical Health and Fitness Commercial Complex Cinema Social Complex

• These activities are all designed to k the Physical Health and Fitness com

• Medical Centers can are highly adap • Dedicated Psychiatric Areas, for men • Medical research will be carried out for intelligent individuals. • Medicine consumption will be moni prescription. • Space suits are all being bought from Technologies (EST), whilst Lunar Adv Vehicles for the venetian surface.

ties activities available:

keep the settlers in good physical shape and mplex is mandatory.

ptive, catering to all demand. ntal health check ups. t as well as offering possibility of scholarships

itored and medicine only available through

m the sub contractor Extreme Survival ventures are being subcontracted to provide

Human Nec

Psychological

Factor

Solution

 

Well designed comm Cognitive therapy

Insomnia /Interrupted sleep cycles

  

Cognitive behavioral t Well monitored work Proper day and night

Nyctophobia

 Well regulated sunlight  proper day and night cyc

Solipsism syndrome

 

Claustrophobia

Reacreation centers Environment with cha

Clothing Total Requirement 58500 pairs

Item

Q.P.Y

Footwear Socks/Underw ear Formal Wear

5 Pairs

9 Sets

105300 sets

Informal Wear

14 Sets

163800 sets

Warm wear

3 no's

35100 no’s

Work Gloves

5 Pairs

58500 pairs

8 Pairs

93600 pairs

Others: Electronics [Refrigerator, Tablet, Laptops, Smart T.V] an unifor

cessities

l Factors

munity ,houses, parks , open spaces

treatment k period cycle

cles

anging patterns

Toiletries Item

Q.P.Y

Total Requirement

Toothbrush

4 nos’

46800

Toothpaste

300 gm

4680000 Kg

oap/Shampoo

11700 L

Shaving Brush

2 nos’

23400

Tissue

2 Kg

23400 Kg

nd Medical Utilities[Medicines, Surgical Equiment, Operation rm]

Check-ups • Physical and mental assessment prior to inhabitation. • Personalised scheme for check-ups.

Health

Personal Device • Monitors blood sugar, protein and lipid levels. • Any abnormalities trigger a notifications so appropriate action can take place

Ambulanc • 4 stan inflatab • Staffed • Individ • Total c • Runnin • Mass =

Paramed Seating

Climate control and water systems cleanse appropriate substance to reduce risk transferable disease

hcare

ces ndardly equipped ambulances using XP ble vehicle system throughout settlement. d with minimum of 1 paramedic (max 3) dual cost= $250,000 cost= $1,000,000 ng cost for ambulance fleet = $62,500/year = 280kg Design for an ambulance Advanced Equipment Bed 3m

dic Bed

3.2 m

Automated Systems t

System

Description

Climate Control

Monitors air compositio sensors. Makes necessa operations. Subsidiary s

Food Management

Monitors vegetation (in ready before transporta for distribution amongs

Water Management

Takes delivery of water inputting into water net and storage for emerge

Waste management

Processes and recycles preceding biogas collec depolymerisation on no

Medical Monitoring

Brings together informa ups for concise medical

Settlement Maintenance

Through use of records, and initiates repair and

Projectile Tracking System

Located on energy sate evaluates threat before

to enhance Livability

on, temperature, humidity and pressure with series of ary adjustments in line with figures outline in system for “weather park”.

ncluding hydroponics) and livestock. Collects when ation to slaughterhouse and processing facility ready st inhabitants. Also includes production of Spirulina.

from Aynah transferred by fusion clippers before etwork then carrying out process of recycling after use ency situations.

biodegradable waste through aerobic digesters ction. Monitors and carries out thermal on-biodegradable material.

ation collected by birds-eye interface and health checkl records assisting doctors and nurses in diagnosis .

, mean time before failure figures and sensors predicts d replacement of settlement devices.

ellites, tracks projectiles heading towards Asimov and e altering settlement location accordingly.

External & Inte

ernal Designs:

Ground Floor

House type Single Occupancy Double Occupancy (Couples) Triple Occupancy Total number

First Floor

Number of houses

People accommodated

5635

2760

5520

115

345

8510

11500

Product Aerogel Silicon Geofoam (EPS39)

Efficient De Use

Insulation Furniture

Carbon Fiber

Furniture

PVC Glass

Windows

Nanospray

Windows

Memory Foam

Mattresses

Design

Benefit

Fold up beds

The beds c into the w minimal sp

Mirrors:

Walls lined

Multipurpose Capsules:

Capsules o

Vertical Micro bathrooms.

Fold out expandable tables

esign Features Density

2 kg/m³ 1 kg/m³

48 kg/m³ .03 kg/m³ N/A 4.5 kg/mattress

can be folded into an upright position fitting wall, saving space and providing more room in paces.

d with mirrors provide a ‘larger area’ illusion.

open to form sitting areas, tables etc.

Subfloor transpo

•6 meters wide •4 meters high •Carrier bots carry industrial goods

Elevator to Docking Facilities beneath and upper floors above

ortation routes

Grid of residentia blocks- 7 houses/bl 6 m

Display Screen

Platfor

2m Rail Line

ASTR

Reducing Weig

Material to reduce weights of robots:

Descriptio

1) PVC Glass

Low dens control pa

2) Carbon-fiber-reinforced polymer (CFRP)

Used for b Carrier’.

ghts of Vehicles 6m

on:

sity glass used for the touch screen of the anel.

building the platform of the ‘People

Security and

Birdseye Personal Device Average size 2.5 cm

• • • • •

Level

Sta un Co fla Tra un no Als usi ma Tra int

Permissions

Admin

Has complete control of system robots

Police

Can override a robot’s regularly scheduled processes and shut it

Technician

Able to repair or otherwise mod settings of the settlement’s rob

Regular User

Use of household computers an systems, and Birdseye personal

d livability

ate-of-the-art retinal contact lenses providing a nique virtual interface for each resident . ontains a radio frequency antenna, fabricated on a at substrate made of PET. ack the eye movements of the wearer and provide nobtrusive information without interfering with ormal vision. Acts as a security pass for doorways so monitors blood glucose, protein and lipid levels ing tear fluid so that diet and medication can be anaged more accurately. ansmits this information wirelessly at regular tervals to a recording device. • On arrival all resident will have their right thumb print taken. • This will then be used to pay for all objects in Asimov by placing your ms and right thumb on a finger print scanner. y • The currency used will be the space t off standard currency that is used dify the across all space settlements. bots • Whatever residents buy will be able nd to be monitored so that they can l device. not buy too much of one object and not exceed their set limit.

Server Hie

Computing Systems

Privacy of personal data: Personal data transfer is highly encrypted using Quantum Cryptography. Data Storage: Asimov data is stored on data systems provided by Grumbos Electronics Systems Group. All personal computers will have surveillance and conditions monitoring.

Data Collection: The user preferences are recognised by a system of smart computers considering a number of factors making their access of data convenient.

Software Requirements Type

Number

Servers Mainframe

Personal Computing OS 12000

Communications Server 5

Office Suite for workplace computers

Operating Control Server

Type

8000

Number

Personal Computing Devices

12000

Workplace Computing Devices

11500

Robotics Co-Ordination Server

3 (1 per module) 3 (1 per module)

Backup Servers

Emergency Provision Servers

3 (1 per module)

Communications Server

Internal Communications

External Communications

Intra Settlement Communications

Communication with the Venus surface equipment

Entertainment and Public Data Portals

Inter Settlement Communications

Independent Servers Backup Servers

Emergency Servers

Provisions for Emergency Extra Settlement Communications

S.O.S. Transm

erarchy

mitters

Mainframe Control Systems

Robotics Coordination Server

Operating Control Server

Settlement Maintenance

Security and Authorization

Legend Red Blocks

Mainframe (16 PetaFLOPS, 512 petabytes)

Green Blocks

Primary Servers (4 PetaFLOPS, 64 Petabytes)

Aqua Blocks

Communication and control systems (4 PetaFLOPS, 64 Petabytes)

Black Blocks

Server Peripherals (1PetaFLOPS, 8 Petabytes)

Wired Comms

100 TB/s

Wireless Comms

1 TB/s

Emergency

Contingenc

Fire

System of sprinklers and m settlement to work with Se capabilities) to put out fire

Sulfuric Rain

Acid will be vacuumed and before inputting into our w

Crime

Surveillance cameras will id conducted routinely.

Epidemic

Sections of the modules wi

Systems Failure

Backups, which are routine

Breach in hull

Move people to other pods breach.

Projectiles

Monitoring system evaluate

1) The SAC-87 is a hovering robot which has capabilities to take in and neutralize sulfur. 2) Built with a reardonium exterior, it resists extreme heat of Venus.

cy Plans Plan

manual fire extinguishers distributed throughout ervice droids (enabled with fire fighting e.

collected by the SAC-87 (Sulfuric acid collector), water system.

dentify any threats, and security checks will be

ill be quarantined until safe to leave module.

ely saved, will be immediately accessed.

s then use specialized F1M8s help to fix the

es threat and moves settlement if necessary.

s the

0.8m

1.4m 0.3m

Automation systems an livab Name Of Robot

Purpose / Description

Livestock Collection Device

Locates healthy livestock and transports it to the processing facility.

Livestock Processing Facility

Livestock is processed and prepared for distribution and consumption.

Hydroponic Collection Device

Collects and transports hydroponically produced food.

Service Droid

CFRP outfitted device to provide general household assistance.

Internal Maintenance

System of sensors monitors for small scale damage before alerting Internal maintenance bot allowing it fix.

H C

nd Robotics to enhance bility Quantity

Dimensions WxLxH (Meters)

Weight Per Unit (kg)

Total cost ($)

3x6x2

804

4,824,0000

4x5x3

10002

5,610,000

3x3x1

1200

1,080,000

240

0.5 x 0.25 x 1

340,000

1250

0.5 x 0.5 x 2

12,000,000

Hydroponic Collection Device

Automation Robotics w effic Name Of Robot

Purpose / Description

V-TAT I, II, III (Venusian Transportation and Terraforming)

Lifting loads from Venusian surface to Asimov settlement and distributing terraforming organisations.

F1M8

Initially used for internal construction before reprogramming and adaption for use as external maintenance.

Omni-V

Drills, collects, processes and transports materials to V-TAT collection point

V-T V-T V-T

Silicon carbide (SiC)

Silicon carbide (SiC)-based sem devices and circuits are used du temperatures and radiation

working to improve work ciency

uantity

Dimensions WxLxH (Meters)

Weight Per Unit (kg)

44 x 44 x 8

12,000 (loaded)

140,000,000

1503

Varies with specific requirements

200

13,527,000

4 x 10 x 4

3000

52,000,000

TAT I = 3 TAT II = 5 TAT III = 6

miconductors, electronic ue to its resistivity to high-

Total cost ($)

Floorplan of Venu Library/Meeting room: 6 ft, 14.5 ft

Airlock System 15 ft

Cafeteria: 6 ft width, 14.5 ft length First story of surface habitat

Sta

Seco

•The Airlock System maintains pressur •Temperature is controlled in a similar

us Surface Habitat Computer Lab: 7.5 ft, 13 ft

D: 13 ft

aircase

ond story of surface habit

re r way to the full settlement.

Centrifuge Chamber: 6.5 ft, 6.5 ft

Floorplan of Ven

Bedroom: 6.5 ft, 6.5 ft

D: 13 ft

Third story of surface habitat

Extraction C 13 ft, 6.5 ft

nus Surface Habitat

Chambers: t

Internal Flying Buttresses External view of surface habitat

V-T 15m

Vehicle

7m 4m

Cargo Container

Side view

8m Overall design

44 m

TAT

•

Quad-rotor flying vehicle used (transporting crates of manufactured goods and early terraforming tools) – –

• • •

44 m • • •

–

Maximum manoeuvrability Fully autonomous (above collection) Lithium ion batteries

Container size: 7m x 7m x 4m Weight limit: Multi-purpose: – –

–

Human transport Transporting sulphuric-eating bacteria Goods transport

Load capacity: 3000kg Empty weight: 5000kg Power: 100,000 W

• • • • • •

Venusian Resource

OmniV is a flexible mining robot that will op minerals, drill into the surface with an elect transport ore to manufacturing and refining OmniV utilizes gas/vapor mass spectromet of the underlying crust. Mining systems adapts to Venusian environ high pressure, a Stirling engine with superc temperature, and a magnetic no-contact dr High quantities of carbon (building materia extraterrestrial cities and settlements comm Unprecedented research and exploration o be licensed and new technologies develope 9,230,000 Pa greater pressure on Venus dra

3m 10m

es and Harvesting

perate on the Venusian surface to scan for tromagnetic rail, and extract, store, and g sites on the surface. ters to determine the chemical compositions

nment by using reardonium to accommodate critical CO2 refrigerant to accommodate high rill to prevent potential dust abrasion. al) and oxygen can be sold in bulk to other mon in 2087. of Venus mean the rights and discoveries can ed. amatically eases production of diamonds.

•

• •

Unique Venusian Product Trans

Venusian environment enables unique to extreme heat and pressure, and rela are difficult to find elsewhere, such as carbon dioxide, and the noble gases. Other contractors will develop Venus s facilities, resulting in improved electro efficiencies (e.g. ZAP! Industries) Manufactured products will be transpo (refer to next slide)

ts and Venus-to-Asimov sport

e opportunities for manufacturing due atively high amounts of resources that s deuterium, tritium, sulfuric acid,

surface refining and manufacturing onics and solar panels with greater

orted using the V-TAT III transporter

Terraforming 7m 21 m • • • •

27 m

Terra Laboratory on the surface of Venus w improve special microbial strains for terraf Genetically engineered Desulfovibrio bacte sulfur and genetically engineered cyanoba oxygen. Organisms are modified with recombinant resistant to harsh environments and posse Bacteria will be cultured and incubated at aerosol using atomizers on V-TAT. One des three different uses which withstand differ in each cloud layer.

g Procedures

will genetically engineer, develop, and forming suited for specific cloud layers. eria will reduce sulfuric acid into elemental acteria photosynthesize carbon dioxide into

t DNA technology to form endospores ess traits of select extremophiles. the Terra Laboratory, and deployed as an sign is being utilized for the V-TAT but with rent pressures and atmospheric conditions

Cos

Commodity

Cost ($)

Raw Construction materials

1.2 billion

Manufacturing and Refining

2 billion

Construction

0.7 billion

Waste Management

0.5 billion

Internal Transport

1.6 billion

Engines

0.6 billion

Power Receiver & Grid

2 billion

Industrial

4 billion

Agricultural

3 billion

Furniture

0.2 billion

Luxuries & Entertainment

0.2 billion

Total

16 billion

TOTAL COST =

sts

Commodity

Cost ($)

Food

4 billion

Robots

2.7 billion

Servers

2.5 billion

Housing

4 billion

Docking

0.5 billion

Sub Contractors

12.2 billion

Shipping Materials

15.4 billion

Mining

3 billion

= 60.3 billion $

TOTAL

44.3 billion

OCCUPATION Scientists

Salar

Engineers Researchers Teachers Businessmen Miscellaneous

Total Annual Sal

ries

lary

TOTAL PAY ($) 20,000,000 21,600,000 3,300,000 3,000,000 12,000,000 10,000,000

69,900,000

Sch

heduling