Scientific Approach Principle for New Resilient Coastal Landscape Design
Author | : Anahita Kianous |
Publisher | : Dissertation.com |
Total Pages | : 79 |
Release | : 2017-06-25 |
ISBN-10 | : 9781612334622 |
ISBN-13 | : 1612334628 |
Rating | : 4/5 (22 Downloads) |
Due to recent climate change, the character of environmental regional planning has shifted to address the anticipated extreme increases in sea level rise. As such, this project, based on existing scientific research/data, proposes a spatial, habitable landscape architectural solution as a model for flood mitigation for the East coastal edge. This proposal tests the potential for resilient coastal landscapes through a particular site located on Revere Beach, along with the New England coast in Massachusetts. The study demonstrates how through new public spaces designed to renew and protect the beach and the broader offshores, residents and visitors will be able to engage with this 21st Century, resilient beachfront. Also, residents and visitors will experience sophisticated efficient flood alleviation strategies during natural successive storm events. The inherent goal of this proposal is to create an innovative design intervention, which applies new principles of resiliency to the coastal landscape through a technical and cultural solution, and which can be a replicable model for global coastal edges elsewhere. Revitalizing Revere Beach, Ma is a case study to mitigate floods based on Bernoulli 's principle. This proposal projects an idea of connecting puddles with fissures a set of "Flute Channels", which is my innovation design approach to transfer water from coast to wetland behind it. It helps to lower down the sea level in high tides and sudden tides. Retrofitting Revere Beach as a case study for flood Mitigate with a New Resilient Coastal Landscape approach started to study the watershed of the East Coast that includes three parts of North, Mid-Atlantic, and South Atlantic. Each has a flow that moves up and then inward to the east, in a concave pattern precipitated scale toward the north caused by the velocity of currents. In compare to the Pacific coast, this figuration came to appears as the convex pattern as the currents also are affected differently based on the climate and the land used materials. The project focused on how to manipulate waves and the currents to preserve the land figuration and creates the natural coastal landscape. Geo Technical research and scientific data is the fundamental study that I got the benefit of understanding the exact waves motion, density, velocity of water and how the different type of currents affect the land shape. My project is translating the science into landscape architecture. Earth and ocean are not sustainable- they’re dynamic, they’re shifting, they’re changing the landscape and coast components; land-used material as such salty sand beaches and ripple effects of waves affect the land in different ways. My hypothesis idea of retrofitting coastal landscape backs to its natural creation, which will be a combination of four components of barrier islands, bay or lagoon, thumb-lands or forelands and wetlands. These four figurations are shaped based on different wave motions and currents. I discovered two scales of the solution. Short and long term phasing. For the long term, I suggested floating island, which I examined it by the different objects adding to the coral reef at the Revere Beach. Objective, found a missing part of coastal components, the floating islands. And, Flute Channel was innovative design approached by science data of Bernoulli’s principle. In this term, water transferred from coast to the wetlands behind it. The connected containers science data was a combination solution to this creation. Due to recent climate change, the character of environmental regional planning has shifted to address the anticipated extreme increases in sea level rise. As such, this project, based on existing scientific research/data, proposes a spatial, habitable landscape architectural solution as a model for flood mitigation for the East coastal edge. This proposal tests the potential for resilient coastal landscapes through a particular site located on Revere Beach, along with the New England coast in Massachusetts. The study demonstrates how through new public spaces designed to renew and protect the beach and the broader offshores, residents and visitors will be able to engage with this 21st Century, resilient beachfront. Also, residents and visitors will experience sophisticated efficient flood alleviation strategies during natural successive storm events. The inherent goal of this proposal is to create an innovative design intervention, which applies new principles of resiliency to the coastal landscape through a technical and cultural solution, and which can be a replicable model for global coastal edges elsewhere. Revitalizing Revere Beach, Ma is a case study to mitigate floods based on Bernoulli 's principle. This proposal projects an idea of connecting puddles with fissures a set of "Flute Channels", which is my innovation design approach to transfer water from coast to wetland behind it. It helps to lower down the sea level in high tides and sudden tides. Retrofitting Revere Beach as a case study for flood Mitigate with a New Resilient Coastal Landscape approach started to study the watershed of the East Coast that includes three parts of North, Mid-Atlantic, and South Atlantic. Each has a flow that moves up and then inward to the east, in a concave pattern precipitated scale toward the north caused by the velocity of currents. In compare to the Pacific coast, this figuration came to appears as the convex pattern as the currents also are affected differently based on the climate and the land used materials. The project focused on how to manipulate waves and the currents to preserve the land figuration and creates the natural coastal landscape. Geo Technical research and scientific data is the fundamental study that I got the benefit of understanding the exact waves motion, density, velocity of water and how the different type of currents affect the land shape. My project is translating the science into landscape architecture. Earth and ocean are not sustainable- they’re dynamic, they’re shifting, they’re changing the landscape and coast components; land-used material as such salty sand beaches and ripple effects of waves affect the land in different ways. My hypothesis idea of retrofitting coastal landscape backs to its natural creation, which will be a combination of four components of barrier islands, bay or lagoon, thumb-lands or forelands and wetlands. These four figurations are shaped based on different wave motions and currents. I discovered two scales of the solution. Short and long term phasing. For the long term, I suggested floating island, which I examined it by the different objects adding to the coral reef at the Revere Beach. Objective, found a missing part of coastal components, the floating islands. And, Flute Channel was innovative design approached by science data of Bernoulli’s principle. In this term, water transferred from coast to the wetlands behind it. The connected containers science data was a combination solution to this creation. Due to recent climate change, the character of environmental regional planning has shifted to address the anticipated extreme increases in sea level rise. As such, this project, based on existing scientific research/data, proposes a spatial, habitable landscape architectural solution as a model for flood mitigation for the East coastal edge. This proposal tests the potential for resilient coastal landscapes through a particular site located on Revere Beach, along with the New England coast in Massachusetts. The study demonstrates how through new public spaces designed to renew and protect the beach and the broader offshores, residents and visitors will be able to engage with this 21st Century, resilient beachfront. Also, residents and visitors will experience sophisticated efficient flood alleviation strategies during natural successive storm events. The inherent goal of this proposal is to create an innovative design intervention, which applies new principles of resiliency to the coastal landscape through a technical and cultural solution, and which can be a replicable model for global coastal edges elsewhere. Revitalizing Revere Beach, Ma is a case study to mitigate floods based on Bernoulli 's principle. This proposal projects an idea of connecting puddles with fissures a set of "Flute Channels", which is my innovation design approach to transfer water from coast to wetland behind it. It helps to lower down the sea level in high tides and sudden tides. Retrofitting Revere Beach as a case study for flood Mitigate with a New Resilient Coastal Landscape approach started to study the watershed of the East Coast that includes three parts of North, Mid-Atlantic, and South Atlantic. Each has a flow that moves up and then inward to the east, in a concave pattern precipitated scale toward the north caused by the velocity of currents. In compare to the Pacific coast, this figuration came to appears as the convex pattern as the currents also are affected differently based on the climate and the land used materials. The project focused on how to manipulate waves and the currents to preserve the land figuration and creates the natural coastal landscape. Geo Technical research and scientific data is the fundamental study that I got the benefit of understanding the exact waves motion, density, velocity of water and how the different type of currents affect the land shape. My project is translating the science into landscape architecture. Earth and ocean are not sustainable- they’re dynamic, they’re shifting, they’re changing the landscape and coast components; land-used material as such salty sand beaches and ripple effects of waves affect the land in different ways. My hypothesis idea of retrofitting coastal landscape backs to its natural creation, which will be a combination of four components of barrier islands, bay or lagoon, thumb-lands or forelands and wetlands. These four figurations are shaped based on different wave motions and currents. I discovered two scales of the solution. Short and long term phasing. For the long term, I suggested floating island, which I examined it by the different objects adding to the coral reef at the Revere Beach. Objective, found a missing part of coastal components, the floating islands. And, Flute Channel was innovative design approached by science data of Bernoulli’s principle. In this term, water transferred from coast to the wetlands behind it. The connected containers science data was a combination solution to this creation.Due to recent climate change, the character of environmental regional planning has shifted to address the anticipated extreme increases in sea level rise. As such, this project, based on existing scientific research/data, proposes a spatial, habitable landscape architectural solution as a model for flood mitigation for the East coastal edge. This proposal tests the potential for resilient coastal landscapes through a particular site located on Revere Beach, along with the New England coast in Massachusetts. The study demonstrates how through new public spaces designed to renew and protect the beach and the broader offshores, residents and visitors will be able to engage with this 21st Century, resilient beachfront. Also, residents and visitors will experience sophisticated efficient flood alleviation strategies during natural successive storm events. The inherent goal of this proposal is to create an innovative design intervention, which applies new principles of resiliency to the coastal landscape through a technical and cultural solution, and which can be a replicable model for global coastal edges elsewhere. Revitalizing Revere Beach, Ma is a case study to mitigate floods based on Bernoulli 's principle. This proposal projects an idea of connecting puddles with fissures a set of "Flute Channels", which is my innovation design approach to transfer water from coast to wetland behind it. It helps to lower down the sea level in high tides and sudden tides. Retrofitting Revere Beach as a case study for flood Mitigate with a New Resilient Coastal Landscape approach started to study the watershed of the East Coast that includes three parts of North, Mid-Atlantic, and South Atlantic. Each has a flow that moves up and then inward to the east, in a concave pattern precipitated scale toward the north caused by the velocity of currents. In compare to the Pacific coast, this figuration came to appears as the convex pattern as the currents also are affected differently based on the climate and the land used materials. The project focused on how to manipulate waves and the currents to preserve the land figuration and creates the natural coastal landscape. Geo Technical research and scientific data is the fundamental study that I got the benefit of understanding the exact waves motion, density, velocity of water and how the different type of currents affect the land shape. My project is translating the science into landscape architecture. Earth and ocean are not sustainable- they’re dynamic, they’re shifting, they’re changing the landscape and coast components; land-used material as such salty sand beaches and ripple effects of waves affect the land in different ways. My hypothesis idea of retrofitting coastal landscape backs to its natural creation, which will be a combination of four components of barrier islands, bay or lagoon, thumb-lands or forelands and wetlands. These four figurations are shaped based on different wave motions and currents. I discovered two scales of the solution. Short and long term phasing. For the long term, I suggested floating island, which I examined it by the different objects adding to the coral reef at the Revere Beach. Objective, found a missing part of coastal components, the floating islands. And, Flute Channel was innovative design approached by science data of Bernoulli’s principle. In this term, water transferred from coast to the wetlands behind it. The connected containers science data was a combination solution to this creation.