Stable Building Structure - Coursework Example

Introduction

Apartments need the best sustainability models to have a better survival structure. The existing market has been modeled to ensure that the standard set for buildings is very high for companies to succeed within. There are significant buildings within the market in Hong Kong, which makes it a dire projection into the future. The Hong Kong client wants a state of the art model that can work through the times (Curtis 2017. Pp. 18-37). The best way to go around all this is to look at better existing residential high-rise apartment towers and not coming up with a new green building.

To achieve the best standards, one should look at the employed technologies within the building for the upgrade process. One may alter the building's significant internal elements plus some extended roofing aspects that need the best improvement, including lighting, windows and fittings, lifts, and the water fixture. These significant changes ensure a general upgrade of the building, thus making it last in the long term. However, to develop such a building, one cannot limit the process to the current issues because there are better ways to upgrade the building standards in general. These recommendations are in line with some of the top successful buildings in the Hong Kong Market, such as the Z.C.B. and Electrical and Mechanical Services Department Headquarters. The two pose a great example to be copied in terms of the sustainability features that have been improved to get the right quality fit for the building (Curtis 2017. Pp. 34-56). The client would be most interested in having a demonstrable and verifiable sustainability model of the building. Necessarily, the clients will end up satisfied because he/she has a better quality building than they had previously.

Definition of sustainability

Sustainability in the context of the building retrofit refers to the modification of specific buildings intending to increase the quality and improve energy efficiency and decrease the energy demand. Essentially, the plan is occasionally to improve the quality of the building through significant changes that the market sees as sustainable measures for the success and growth of a specific building in context.

The Hong Kong market is well known for improving sustainability in the real estate industry by creating better new fixtures, fittings, and reducing the energy demands of a specific demand (Cheng and Tong 2017. Pp. 12-19). The developer's intention always remains to ensure that they can come up with better mechanisms to improve the general standards of the product they already have. Sustainability has been the trending model for most older buildings in the Hong Market. They are remodeled to come through and appear new and, with time, still manage to hit the market as though they had just been discovered. The changes make it possible for such buildings to compete with existing ones in the current market. The developer plans to make sure that the value of the building rises from time to time.

The concept of green buildings in Hong Kong is courtesy of the recent changes in the concept of sustainability. The purpose of the whole concept was to ensure that there era better ways of preserving the environment even though the era of industrialization. They were fully aware of the coming changes that the market was headed for, and the purposed change was structured to control the environmental conservation strategy (Warren-Myers et al. 2017 Pp. 19-45). These measures came up with a direct plan to have the market bow down to the continuing changes witnessed in the real estate market. Primarily, green buildings have been set up to create better sustainability in terms of its basic standards within the market.

Sustainability metrics relevant to the building

There are several metrics for the Construction and building of the select building in question. The first in line are the health and environmental issues in question. As a result of the current practices within the market, it is essential to understand the building's health standards and the sustainable environmental issues that the building will be facing. The apartment will need to look at the significant sewer line first as the first option for controlling any form of pollution into the environment. With the modifications in mind, the developer could be looking for better mechanisms to ensure better control of the environment and subsequently devoting more time towards having a clean environment. For the health standards, the building would also require standard staircases and a purifier for the kitchen. That would mean that all the kitchen smoke would come from a single outlet, which ensures it is purified before it is released. The same applies to any other form of smoke that could come out from the same building.

Other considerations include climate change and energy use. The Hong Kong market considers the green buildings concept because it offers a safer option for the development of structures that release safer energies. Subsequently, the focus steadily lies on maintaining the best quality in the building by creating frameworks for cleaning the building and having a safer model that adapts to the climatic change. Energy use remains a considerable challenge for most Hong Kong buildings because it demands alternative measures for energy conservation (Kim et al. 2017, Pp. 10-15). The best option for such buildings is through the use of solar. With the high humidity and solar availability, the best way out would be to source for it and create sustainable energy for the building to use. The two metrics create an opportunity for the developer to develop a structure that appreciates environmental change as the way to success. Necessarily, the building would need to appreciate the climate change and energy use models in place.

Existing building technologies

A postmodern solar system is a way out for the building. The current building requires an ultra-modern solar system that can assure the existence of renewable energy. The perfect example would be the structure taken up by the Z.C.B. building, which has a better solar system that controls the whole system.

Image: Solar system at Z.C.B. building

From the overview, Z.C.B. building possesses a substantial solar structure that adequately provides sufficient energy to the rest of the building. It offers enough supply for fulltime electricity to exist. Further, from the image, natural vegetation around the building directly handles the freshness of the environment surrounding the building.

For the building in question, it would be better to come up with such a structure to keep in mind the urgent need to protect the environment and ensure better conservation of energy. The energy demands for the building are very high such that the best way to survive is for the investors to look out for alternative methods. With the location being in Hong Kong and having ready buildings that have shown it is workable to operate with alternative energy sources, it would be possible to develop the same frameworks for the building in question. These measures would be essential to minimize any possible losses in the environment.

Image: Use of 3D printing model for the building for the Electric and Mechanical Services Headquarters

To better the looks for the building, the 3D printing model was the way out for creating a standard structure in the market. However, these are model structures that have been adopted in the field of technology. Currently, the market has changed its structure such that the development procedure that the market has adopted involves more of the 3D printing which betters the look. The glass model from the Electric and Mechanical Services Headquarters represents a better design technologically. In terms of the quality of glass, it has been modelled such that it can clearly be seen from the outside as a shiny structure but clearer form the inside by the employees within the building (Kim et al. 2016. Pp. 21-45). However, the most important thing in terms of the technology employed in the market relates to how much the glass can manage in terms of the amount of pressure the glasses can handle.

The serenity around the building operates on a controlled weather model which is technologically managed. The weather is generally stable because it has adequate control from the technological models that have been employed. Additionally, the existing measures work best through development of better frameworks in the field that can work best with controlling the surrounding weather in place already.

The other technological metrics should be the existence of sensors within the building. It is generally important to take note of the fact that a majority of the post modern buildings currently have sensors for lighting purposes. It is the best way to conserve energy. For the Z.C.B. and the Headquarters buildings, the two of them have sufficient capacity in terms of the model that brings in light into the house does not go on full time but rather just goes on depending on the need. As a result, the lights are only on when there is someone within the floor and once a person goes off and there is no one within that floor, it automatically goes off (Passer et al. 2017. Pp. 21-34). As a result, the building conserves a lot of energy through such technology and equally keeps in line with the energy requirements that have been set within the said market. There have been very high standards set across the market, thus increasing the unending charge to improve the building as such.

Passive strategies are another metric used for construction process. They include making a cross-ventilated layout and a high-performance façade. Often, they are used to improve the energy conservation levels hence reducing the consumption of energy by an average 20%. The perfect example is the Z.C.B. building which comes through which a zero-carbon technological structure to reduce the rate of energy consumed within the building. For the developer, this would be an advantageous situation because it poses to them a possibility of improving on their building’s quality all through. They have used some mechanical systems including high-volume-low-speed fans and other desiccant dehumidification for energy saving processes. These are newest technological structural ensuring that the building adheres to the energy and techno-demands within the current construction industry. Additionally, there are other efficient models for the production of renewable energy which have efficiently increased the utilization of energy into the building by approximately seventy five percent compared to the usual supply of electricity from the energy grid in the country.

Existing building performance

Currently, the building does not have any solar power generator to propel its energy. From the metrics set, it would mean that it is not up to the required standards of such buildings set within the market. It is important to understand that such a building needs the best energy conservation model. The current building lacks any solar system that can propel alternative energy hence has a very high electric use from the major electric company. Despite not being energy friendly, the models are equally not cost efficient for the survival of such a building within the current industry.

The building employs zero passive strategies to ensure better collection of energy. As a result, the energy use goes above the 75% minimum set by other top buildings in Hong Kong such as A.Z.B. The buildings came up with the concept of the green to ensure there are better options available for the future entrepreneurs within the market. However, all these options are explored with the best mentality in place and ensured to pass through with a model that can progressively set up good structures in the current market. The energy industry has revolutionized itself such that the current market demands more when it comes to energy saving processes (Saldaña-Márquez et al. 2018. Pp. 23-34). The current building does offer such high level performance hence low efficiency models when it comes to saving of energy.

The building comes with zero sensors across the staircases. Through the floors, which are currently identical, there are no sensors to limit the lighting process across the hallway. In the postmodern era, most buildings are coming up with a sensory technique to limit their energy use. The idea in the use of sensors is to ensure that there are better ways of reducing any energy expenditure in a particular building. Where there are no sensors, it limits the energy saving practices because it would mean that other rooms remain powered at a time when there is no one completely. Sensors work on an automatic and need basis such that they allow lights to come on where there is someone in a room and once there is no movement of an animal or a person, it goes off automatically. Their ability to detect human movement remains a wonder because it is the set of efficiency that makes them unique in all course hence being able to improve on their standards from the onset (Saldaña-Márquez et al. 2018. Pp. 45-67). At such a time, lacking sensors brings down the whole process because it sets a dilemma as to whether the building should invest more in the sensors and avoid further energy wastage or continue incurring higher costs.

The building is below its potential performance levels that should be because of failure to fulfill the set standards by some of the top buildings as mentioned. Currently, buildings are not only beautiful structures but also zones that set up the pace when it comes to the development agenda as a whole. The most important forum that should be explored is to make sure that they are technologically up to date and environmentally friendly. The current building in assessment falls short in the two processes hence creating a shortage in terms of the possibilities that can be stretched through in the current process. The better way out is to ensure that new models are improved with the direct intention of improvising the employed technology failed areas such as the sensors and alternative energy sources have to be set up if the building is to get to the correct standards it plans to get to in future. All these models and mechanisms are set up with a specific purpose which is to improve the general operations of the structure into the unforeseeable future.

The best limitation of the analysis is that it does not touch on the technology employed on the roofing. Postmodern development does not have any structural part without a technological reasoning, hence the lack of mention of the roofing standards relays the fact that low expectations have been set on some parts of the building going forward. These models limit the structural capacity of the building. The techno-world demands that every part of Construction should have a specific use in the building system. However, the current building has the limitation hence stretching it into the current analysis. There is not so much to talk about the roofing standards because the model used is simply for shelter and designing hence the best option is to find a new path to stretch further for use in the current process.

Proposed technology upgrades

Employment of passive environmental conservation strategies is the first step towards technological growth in the building. It should involve the use of cross-ventilated layouts and higher performances facades which would be set up with the sole intention of improving the progress of the building and keeping it techno-friendly from the onset. These mechanisms should be used to improve the energy conservation models and would likely reduce the rate of consumption to an average 20% in the future. As a progressive developer, one would be looking at how best to reduce the current rates as they are standing very high and might prompt more pressure for the development of new structures and within the current markets and setting up the right trends for use as well. Essentially, such strategies should be able to improvise and turn out to be the best way out for the market.

The mechanical systems should be in the form of high-volume-low-speed fans and stretch into desiccant dehumidification systems. These techniques should be out to ensure that the building can enhance its energy saving to approximately 25% as the base rate currently. The way to go for such buildings should be structured in the form of how best they apply in relation to the energy conservation standards that have been set forth so far. The building should be in line with the current standards through technological enhancement, so that it can scale up the rates of energy saving to at least 15% for a start and set the 25% target as a realistic future position to achieve within no time as such (Tang et al. 2019. 21-34).

Employment of improvement standards towards the wall structures. Currently, there are no sound resistance models. In the current environment, it would be quite backward to imagine that such a building might lack such a necessity because it makes it fall short of the improvised demands within the market. Such buildings should not be letting out any noises into the environment as they would contribute to noise pollution within the protected zone. For the developer, one’s current intention has to go in line with the energy demands that have been set up and propelling environmental conservation, which would mean that any form of pollution, whether, water, air or soil should not be a product of the building being within the current environment. Instead of going through that route, the best way out would be to ensure that there are improved models around the walls to ensure that there are no sounds coming out. This should be backed up by a proper alarming service for the emergency cases. While there are increased standards within the building, it would be important to have an emergency plan for any cases that might come up in the future. Sound pollution is common from commercial and residential building and the current environmental standards demands that such buildings should minimize any such outlets. The other purpose for such a move is to avoid any distractions between the opposing rooms. Such technology is available for several buildings and in the model Z.B.C. and the Headquarters’ buildings, the technology has been well employed, hence a good precedence of such a success already exists currently.

Expected Sustainability Outcomes

The first standard would-be high-energy conservation ratings. The best buildings in the current century have a better conservation model. They have structured themselves in a way that can directly improve on the energy usage ratings within the current environment. For the current building, the set demand is on ensuring that there are better energy conservation mechanisms that have been set up with the future in mind. All these techniques work best because they are on the road to increasing the chain of distribution of energy within the selected building. With the modifications, the best way out is to reduce the energy usage within the building through the technological recommendations that have so far been brought up. They are all intended at improvising the building and setting the higher standards within the current market.

Another sustainability outcome that would be following the building is improved building strength through the current moment. With reinforced walls and sound proof systems, there is a higher likelihood that the whole block would be sustainable for the future reference and can directly work in regard to the current pressures. These modifications should be moved better through advanced systems that are propelled through a market efficiently pushed with the need for reducing any form of environmental pollution starting from sound which would effectively be reduced through improvisation of the walls at this set time.

Long term energy conservation is another set sustainability model for the building. With the use of solar energy and other energy conservation frameworks set within the building, there would be ease of conserving the precious commodity. At the moment, the building incurs very high energy use and the best way out has been to work out a formula to scale it down. Through solar energy use and the sensor adoption, there are higher chance of reduced energy use thus reducing the demands within the building to reasonable levels.

Conclusion

Adoption of technology and energy conservation is one of the best ways to improve a building. The postmodern era strongly focuses on new techniques that developers can use to ensure buildings are sustainable. Hong Kong has set up the pace when it comes to environmental preservation. Structural models within the market such as the current Z.C.B. and the Electrical and Mechanical Services Department Headquarters have been the reason behind impeccable success within the industry. These are the current models that most building follow when they are looking for the right quality that the market should be following up. The structural designs are meant to improve their sustainability and thus better enhancement have to be reinforced to reach the current demanded standard.

However, for the sake of sustainability, I would recommend the following:

• Improvement of the walls by placing sound proof models. It would enhance environmental conservation and reduce any noises within the apartment since it is a residential area.
• Setting up solar systems as an alternative energy system. The current model for most companies is to go for the alternative sources of energy which would directly propel progress of a specific building. They are to be used to create a newer source of energy that the whole building can rely on.
• Enhancing sensors within the building. To avoid any wastage of energy when it is not in use, the building especially at the staircases should have a sensor system which only comes on when a person step on. The same should work for the lift such that it can only power on where there is someone.

The concept of green buildings in Hong Kong is courtesy of the recent changes in the concept of sustainability. The purpose of the whole concept was to ensure that there era better ways of preserving the environment even though the era of industrialization. They were fully aware of the coming changes that the market was headed for, and the purposed change was structured to control the environmental conservation strategy (Warren-Myers et al. 2017 Pp. 19-45). These measures came up with a direct plan to have the market bow down to the continuing changes witnessed in the real estate market. Primarily, green buildings have been set up to create better sustainability in terms of its basic standards within the market.

Sustainability metrics relevant to the building

There are several metrics for the Construction and building of the select building in question. The first in line are the health and environmental issues in question. As a result of the current practices within the market, it is essential to understand the building's health standards and the sustainable environmental issues that the building will be facing. The apartment will need to look at the significant sewer line first as the first option for controlling any form of pollution into the environment. With the modifications in mind, the developer could be looking for better mechanisms to ensure better control of the environment and subsequently devoting more time towards having a clean environment. For the health standards, the building would also require standard staircases and a purifier for the kitchen. That would mean that all the kitchen smoke would come from a single outlet, which ensures it is purified before it is released. The same applies to any other form of smoke that could come out from the same building.

Other considerations include climate change and energy use. The Hong Kong market considers the green buildings concept because it offers a safer option for the development of structures that release safer energies. Subsequently, the focus steadily lies on maintaining the best quality in the building by creating frameworks for cleaning the building and having a safer model that adapts to the climatic change. Energy use remains a considerable challenge for most Hong Kong buildings because it demands alternative measures for energy conservation (Kim et al. 2017, Pp. 10-15). The best option for such buildings is through the use of solar. With the high humidity and solar availability, the best way out would be to source for it and create sustainable energy for the building to use. The two metrics create an opportunity for the developer to develop a structure that appreciates environmental change as the way to success. Necessarily, the building would need to appreciate the climate change and energy use models in place.

Existing building technologies

A postmodern solar system is a way out for the building. The current building requires an ultra-modern solar system that can assure the existence of renewable energy. The perfect example would be the structure taken up by the Z.C.B. building, which has a better solar system that controls the whole system.

Image: Solar system at Z.C.B. building

From the overview, Z.C.B. building possesses a substantial solar structure that adequately provides sufficient energy to the rest of the building. It offers enough supply for fulltime electricity to exist. Read More