This is to certify that the Thesis work entitled, "GLOBAL CATASTROPHE & DISASTER MITIGATION SYSTE... more This is to certify that the Thesis work entitled, "GLOBAL CATASTROPHE & DISASTER MITIGATION SYSTEM @ CHENNAI" is a Bonafide work carried out by Mr. Samriddh Ganapati Dhareshwar as a part of X Semester curriculum in Department of Architecture Under Visvesvaraya Technological University, Belgaum during the year 2009. The Thesis work has been approved as it satisfies the academic requirements in respect of Thesis Work prescribed for the Bachelor of Architecture Degree.
This is an exhaustive collection of my Design works in Architecture & construction (AEC) Career s... more This is an exhaustive collection of my Design works in Architecture & construction (AEC) Career starting from 2004-09 academic works followed by 2010- 2021 professional works thereafter. This document starts with academic works, Competitions, thesis projects of Graduation & PGDM, followed by professional works at various offices (National & international), Important Technical drawings & details, My personal & Private projects, Hand sketches, magazine articles etc.
Liquefied natural gas (LNG) is natural gas that has been cooled to the point that it condenses to... more Liquefied natural gas (LNG) is natural gas that has been cooled to the point that it condenses to a liquid, which occurs at a temperature of approximately -256F0 (- 161 C0) and at atmospheric pressure. Liquefaction reduces the volume by approximately 600 times3 thus making it more economical to transport between continents in specially designed ocean vessels, whereas traditional pipeline 3 LNG production, shipping, and storage are generally reported in metric tons and cubic meters whereas natural gas is generally presented in standard cubic feet or standard cubic meters. One metric ton of LNG is equivalent to 48.7 thousand cubic feet of gas (Mcf). Transportation systems would be less economically attractive and could be technically or politically infeasible. Thus, LNG technology makes natural gas available throughout the world. To make LNG available for use in a country like the India., energy companies must invest in a number of different operations that are highly linked and dependent upon one another. The major stages of the LNG value chain, excluding pipeline operations between the stages, consist of the following: Exploration to find natural gas in the earth’s crust and production of the gas for delivery to gas users. Most of the time natural gas is discovered during the search for oil. Liquefaction to convert natural gas into a liquid state so that it can be transported in ships. Shipping the LNG in special purpose vessels. Storage and Regasification, to convert the LNG stored in specially made storage tanks, from the liquefied phase to the gaseous phase, ready to be moved to the final destination through the natural gas pipeline system. Liquefaction also provides the opportunity to store natural gas for use during high demand periods in areas where geologic conditions are not suitable for developing underground storage facilities. In the north-eastern part of the U.S., which is a region lacking in underground storage, LNG is a critical part of the region’s supply during cold snaps. In regions where pipeline capacity from supply areas can be very expensive and use is highly seasonal, liquefaction and storage of LNG occurs during off-peak periods in order to reduce expensive pipeline capacity commitments during peak periods.
A Photosynthetic, Self sustainable, Revenue Generating Universal Asylum & Disaster mitigation
Sys... more A Photosynthetic, Self sustainable, Revenue Generating Universal Asylum & Disaster mitigation System - Universal Refuge centre & Universal Disaster Management shelter (A self sufficient Hybrid well Engineered System capable enough of Tolerating & manipulating any Catastrophe, Calamity & Disaster {Natural, political, or Man made} ) - Caters Human resources management (Tidal projects, Flood barriers & Floodgates, Sustainable Energy farms, Geothermal & other Power plants) - Management of Diversities & species (Humans, Flora & Fauna) - Energy resources & Industrial management (Contextual) - Conservation & restoration of Ecosystem (Eco sustainability & Bio remediation) - Long term Future planning of Environmental issues & Infrastructure-based or Economical issues Establishes a National administration body required during Crisis. A power house/Mitochondria (in terms of Tourism Revenues & Contextual Industries) of the regional Territory > A Heavy Combination or HYBRID system of Requirements pertaining to Doomsday Vault, Lily pad, Nuclear Bunkers, Refuge centers, Military bases, Energy farms & recycling Industrial Plants (Collectively an Architectural project but necessarily a highly service oriented Engineered Unit whose Mass & Rapid Prototyping being Possible in any part of the world irrespective of the Context, the very fact being that this system would be designed with Universal Considerations )
This is to certify that the Thesis work entitled, "GLOBAL CATASTROPHE & DISASTER MITIGATION SYSTE... more This is to certify that the Thesis work entitled, "GLOBAL CATASTROPHE & DISASTER MITIGATION SYSTEM @ CHENNAI" is a Bonafide work carried out by Mr. Samriddh Ganapati Dhareshwar as a part of X Semester curriculum in Department of Architecture Under Visvesvaraya Technological University, Belgaum during the year 2009. The Thesis work has been approved as it satisfies the academic requirements in respect of Thesis Work prescribed for the Bachelor of Architecture Degree.
This is an exhaustive collection of my Design works in Architecture & construction (AEC) Career s... more This is an exhaustive collection of my Design works in Architecture & construction (AEC) Career starting from 2004-09 academic works followed by 2010- 2021 professional works thereafter. This document starts with academic works, Competitions, thesis projects of Graduation & PGDM, followed by professional works at various offices (National & international), Important Technical drawings & details, My personal & Private projects, Hand sketches, magazine articles etc.
Liquefied natural gas (LNG) is natural gas that has been cooled to the point that it condenses to... more Liquefied natural gas (LNG) is natural gas that has been cooled to the point that it condenses to a liquid, which occurs at a temperature of approximately -256F0 (- 161 C0) and at atmospheric pressure. Liquefaction reduces the volume by approximately 600 times3 thus making it more economical to transport between continents in specially designed ocean vessels, whereas traditional pipeline 3 LNG production, shipping, and storage are generally reported in metric tons and cubic meters whereas natural gas is generally presented in standard cubic feet or standard cubic meters. One metric ton of LNG is equivalent to 48.7 thousand cubic feet of gas (Mcf). Transportation systems would be less economically attractive and could be technically or politically infeasible. Thus, LNG technology makes natural gas available throughout the world. To make LNG available for use in a country like the India., energy companies must invest in a number of different operations that are highly linked and dependent upon one another. The major stages of the LNG value chain, excluding pipeline operations between the stages, consist of the following: Exploration to find natural gas in the earth’s crust and production of the gas for delivery to gas users. Most of the time natural gas is discovered during the search for oil. Liquefaction to convert natural gas into a liquid state so that it can be transported in ships. Shipping the LNG in special purpose vessels. Storage and Regasification, to convert the LNG stored in specially made storage tanks, from the liquefied phase to the gaseous phase, ready to be moved to the final destination through the natural gas pipeline system. Liquefaction also provides the opportunity to store natural gas for use during high demand periods in areas where geologic conditions are not suitable for developing underground storage facilities. In the north-eastern part of the U.S., which is a region lacking in underground storage, LNG is a critical part of the region’s supply during cold snaps. In regions where pipeline capacity from supply areas can be very expensive and use is highly seasonal, liquefaction and storage of LNG occurs during off-peak periods in order to reduce expensive pipeline capacity commitments during peak periods.
A Photosynthetic, Self sustainable, Revenue Generating Universal Asylum & Disaster mitigation
Sys... more A Photosynthetic, Self sustainable, Revenue Generating Universal Asylum & Disaster mitigation System - Universal Refuge centre & Universal Disaster Management shelter (A self sufficient Hybrid well Engineered System capable enough of Tolerating & manipulating any Catastrophe, Calamity & Disaster {Natural, political, or Man made} ) - Caters Human resources management (Tidal projects, Flood barriers & Floodgates, Sustainable Energy farms, Geothermal & other Power plants) - Management of Diversities & species (Humans, Flora & Fauna) - Energy resources & Industrial management (Contextual) - Conservation & restoration of Ecosystem (Eco sustainability & Bio remediation) - Long term Future planning of Environmental issues & Infrastructure-based or Economical issues Establishes a National administration body required during Crisis. A power house/Mitochondria (in terms of Tourism Revenues & Contextual Industries) of the regional Territory > A Heavy Combination or HYBRID system of Requirements pertaining to Doomsday Vault, Lily pad, Nuclear Bunkers, Refuge centers, Military bases, Energy farms & recycling Industrial Plants (Collectively an Architectural project but necessarily a highly service oriented Engineered Unit whose Mass & Rapid Prototyping being Possible in any part of the world irrespective of the Context, the very fact being that this system would be designed with Universal Considerations )
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approximately 600 times3 thus making it more economical to transport between
continents in specially designed ocean vessels, whereas traditional pipeline
3 LNG production, shipping, and storage are generally reported in metric tons and cubic meters whereas natural gas is generally presented in standard cubic feet or standard cubic meters. One metric ton of LNG is equivalent to 48.7 thousand cubic feet of gas (Mcf). Transportation systems would be less economically attractive and could be
technically or politically infeasible. Thus, LNG technology makes natural gas
available throughout the world.
To make LNG available for use in a country like the India., energy companies must invest in a number of different operations that are highly linked and dependent upon one another. The major stages of the LNG value chain, excluding pipeline operations between the stages, consist of the following:
Exploration to find natural gas in the earth’s crust and production of the gas
for delivery to gas users. Most of the time natural gas is discovered during the
search for oil. Liquefaction to convert natural gas into a liquid state so that it can be
transported in ships. Shipping the LNG in special purpose vessels. Storage and Regasification, to convert the LNG stored in specially made
storage tanks, from the liquefied phase to the gaseous phase, ready to be moved to the final destination through the natural gas pipeline system. Liquefaction also provides the opportunity to store natural gas for use during high demand periods in areas where geologic conditions are not suitable for developing underground storage facilities. In the north-eastern part of the U.S., which is a region lacking in underground storage, LNG is a critical part of the region’s supply during cold snaps. In regions where pipeline capacity from supply areas can be very expensive and use is highly seasonal, liquefaction and storage of LNG occurs during off-peak periods in order to reduce expensive pipeline capacity commitments during peak periods.
System
- Universal Refuge centre & Universal Disaster Management shelter (A self sufficient Hybrid
well Engineered System capable enough of Tolerating & manipulating any
Catastrophe, Calamity & Disaster {Natural, political, or Man made} )
- Caters Human resources management (Tidal projects, Flood barriers &
Floodgates, Sustainable Energy farms, Geothermal & other Power plants)
- Management of Diversities & species (Humans, Flora & Fauna)
- Energy resources & Industrial management (Contextual)
- Conservation & restoration of Ecosystem (Eco sustainability & Bio remediation)
- Long term Future planning of Environmental issues & Infrastructure-based or
Economical issues
Establishes a National administration body required during Crisis.
A power house/Mitochondria (in terms of Tourism Revenues & Contextual Industries) of the regional
Territory
> A Heavy Combination or HYBRID system of Requirements pertaining to Doomsday Vault, Lily pad,
Nuclear Bunkers, Refuge centers, Military bases, Energy farms & recycling Industrial Plants
(Collectively an Architectural project but necessarily a highly service oriented Engineered Unit
whose Mass & Rapid Prototyping being Possible in any part of the world irrespective of the
Context, the very fact being that this system would be designed with Universal Considerations )
approximately 600 times3 thus making it more economical to transport between
continents in specially designed ocean vessels, whereas traditional pipeline
3 LNG production, shipping, and storage are generally reported in metric tons and cubic meters whereas natural gas is generally presented in standard cubic feet or standard cubic meters. One metric ton of LNG is equivalent to 48.7 thousand cubic feet of gas (Mcf). Transportation systems would be less economically attractive and could be
technically or politically infeasible. Thus, LNG technology makes natural gas
available throughout the world.
To make LNG available for use in a country like the India., energy companies must invest in a number of different operations that are highly linked and dependent upon one another. The major stages of the LNG value chain, excluding pipeline operations between the stages, consist of the following:
Exploration to find natural gas in the earth’s crust and production of the gas
for delivery to gas users. Most of the time natural gas is discovered during the
search for oil. Liquefaction to convert natural gas into a liquid state so that it can be
transported in ships. Shipping the LNG in special purpose vessels. Storage and Regasification, to convert the LNG stored in specially made
storage tanks, from the liquefied phase to the gaseous phase, ready to be moved to the final destination through the natural gas pipeline system. Liquefaction also provides the opportunity to store natural gas for use during high demand periods in areas where geologic conditions are not suitable for developing underground storage facilities. In the north-eastern part of the U.S., which is a region lacking in underground storage, LNG is a critical part of the region’s supply during cold snaps. In regions where pipeline capacity from supply areas can be very expensive and use is highly seasonal, liquefaction and storage of LNG occurs during off-peak periods in order to reduce expensive pipeline capacity commitments during peak periods.
System
- Universal Refuge centre & Universal Disaster Management shelter (A self sufficient Hybrid
well Engineered System capable enough of Tolerating & manipulating any
Catastrophe, Calamity & Disaster {Natural, political, or Man made} )
- Caters Human resources management (Tidal projects, Flood barriers &
Floodgates, Sustainable Energy farms, Geothermal & other Power plants)
- Management of Diversities & species (Humans, Flora & Fauna)
- Energy resources & Industrial management (Contextual)
- Conservation & restoration of Ecosystem (Eco sustainability & Bio remediation)
- Long term Future planning of Environmental issues & Infrastructure-based or
Economical issues
Establishes a National administration body required during Crisis.
A power house/Mitochondria (in terms of Tourism Revenues & Contextual Industries) of the regional
Territory
> A Heavy Combination or HYBRID system of Requirements pertaining to Doomsday Vault, Lily pad,
Nuclear Bunkers, Refuge centers, Military bases, Energy farms & recycling Industrial Plants
(Collectively an Architectural project but necessarily a highly service oriented Engineered Unit
whose Mass & Rapid Prototyping being Possible in any part of the world irrespective of the
Context, the very fact being that this system would be designed with Universal Considerations )