Aquecimento solar de água e medição individualizada: sistemas para edifícios multifamiliares. / Solar water heating system and individualization: systems for multifamily buildings.

Pimenta, Cristina Cardoso

20 February 2019

A matriz energética mundial atual gera inúmeros impactos ambientais e, com isso, fontes de energia alternativas são necessárias para um futuro imediato. Desta forma, a energia solar se apresenta como uma das possíveis alternativas. A energia solar, principalmente quando utilizada para o aquecimento de água, ou seja, na sua forma térmica, não apresenta impactos ambientais durante sua produção e possui um funcionamento simples. Devido aos seus benefícios, sistemas de aquecimento solar de água já são muito utilizados em diversos países e, inclusive, incentivados por leis, como na cidade de São Paulo. Mesmo este sistema já tendo sido muito estudado, quando a sua aplicação é destinada a residências unifamiliares, ainda há algumas lacunas quando se trata da aplicação em residências multifamiliares. Um exemplo de lacuna é a questão da medição individualizada dos sistemas prediais, incluindo da energia solar. Sendo assim, o objetivo da presente pesquisa é encontrar um sistema de aquecimento solar mais apropriado quanto à medição individualizada. Para tanto, são analisados, teoricamente, diferentes sistemas e suas caraterísticas. Além disso, é realizado um estudo de caso para se avaliar as características de um sistema em funcionamento em um edifício localizado na cidade de São Paulo. Utilizando-se da junção dos conhecimentos adquiridos na seção teórica e na seção prática, são simuladas algumas propostas de alternativas do sistema, visando avaliar o comportamento da produção dos mesmos em situações distintas. Ao final é possível identificar que o sistema Solar coletivo com acumulação privado e auxiliar instantâneo privado foi o que atendeu a um maior número dos requisitos gerais de sistemas de aquecimento solar e dos requisitos de individualização, e não apresentou problemas de perdas térmicas significativas, apesar de inovações, vislumbradas para um futuro próximo, terem potencial para elevar ainda mais a qualidade do sistema. / The current global energy matrix generates many environments impacts and, thereby, alternative energy sources are required by an immediate future. Indeed, solar energy is presented as one of the possible alternatives. Solar energy, as more when it heats water, or in other words, when its thermal form is used on the system, does not generate environment impacts during its use and has a simple operation. Due its benefits, solar water heating systems are already widely used in many countries and even encouraged by laws, for example in São Paulo city. Even though this system has already been studied by many scientific researches regarding its application for single family dwellings, there are some gaps when it is related to multifamily dwellings. One example of it is the individualization of the building systems aspect, including the individualization of the solar energy use. Therefore, the aim of this research is find a solar water heating system more appropriated regarding the individualization aspect. Thereunto, different systems from various places are theoretically analyzed by their characteristics. Furthermore, a study case is held to evaluate characteristics of a working system in a residential building located in São Paulo city. Using the junction of both, theoretical and practical studies, some alternative proposals are simulated to evaluate how the production of the systems are in different situations. As a conclusion, it is possible to define the system with a shared solar energy, private boiler and instantaneous auxiliary energy heating as the system that meet a larger number of the general solar heating system requirements and of the individualization requirements and do not have significative thermal loss issues, although, prospected near future innovations have potential to further improve the system.

Building systems

Consumo de água (Medição)

Edifícios residenciais

Energia solar

High-rise residential buildings

Individualization

Sistemas prediais

Solar energy

Solar water heating system

Sustainability Of High-rise Buildings:energy Consumption By Service Core Configuration

Guryay, Ilkay

01 September 2012

The concept of &#039 / sustainability&#039 / came into question during the last few decades world-wide. As one of the main source of carbon emission, construction industry is also affected by this movement. High-rise buildings which became proliferative components of construction industry dominate today&#039 / s urban centers. Although they are defended as being inherently energy efficient by some people, specially designed sustainable high-rise building examples emerged after the sustainability movement all over the world. This dissertation examines the role of the service core configuration on the sustainability of high-rise buildings. In this context, the effect of different core types and locations on the energy consumption of high-buildings is evaluated. For this respect, sixteen alternative configuration models with central, end and split core types are determined as the representative of possible design choices. The alternatives share the same height, net and gross floor area, floor efficiency, materials, internal gains, etc. They just vary in type and location of the service core and orientation of the building mass. Energy consumptions of the sixteen models are tested with eQUEST, a thermal simulation program, by using the climatic data of Istanbul. The simulation is conducted according to two air conditioning scenarios for office and core zones. For both of the scenarios, split core alternatives are found as the most energy efficient configurations regardless of the core location and building orientation. Moreover, it is observed that while the end core alternatives giving average values, central core configurations have the highest energy consumption results, as predicted.

Planning Considerations Of Tall Buildings: Service Core Configuration And Typologies

Keskin, Zeynep

01 November 2012

In general, tall buildings, some of which are termed as &ldquo / skyscrapers&rdquo / , are among the typical and almost unavoidable features of the metropolitan cities. There is a competititive race of constructing higher and higher buildings since the birth of the infamous Home Insurance Building in Chicago which is still considered to be the pioneer of the modern tall buildings. Recently, an efficient service core design is strongly needed and inquired with the increase in height and capacity of tall buildings. Such needs and demands are primarily due to the circulation volume of occupants since height has an adverse effect on the size and capacity of the service core. This thesis investigates the features of service cores that play an important role in the planning considerations of tall building design, and their effect on architectural, structural and sustainable design. Within this context, a classification of service cores based on their location in architectural design is proposed.

Retrofitting a high-rise residential building to reduce energy use by a factor of 10

Richards, Christopher John

30 April 2007

This thesis details the ways in which energy is consumed in an existing Canadian high-rise apartment building and outlines a strategy to reduce its consumption of grid purchased energy by 90%. Grid purchased energy is targeted because the building is located in Saskatchewan where energy is predominantly generated from fossil fuels that release greenhouse gas emissions into the environment. Greenhouse gas emissions are targeted because of the growing consensus that human activities are the cause of recent global climate destabilization and the general trend towards global warming. Energy consumption is also a concern because of anticipated resource shortages resulting from increases in both global population and average per capita consumption. Many researchers are beginning to claim that a factor 10 reduction in energy use by industrialized nations will be required in order for our civilization to be sustainable.<p>The building that was studied is an 11 story seniors high-rise with a total above ground floor area of 8,351 m2. It was constructed in 1985, in Saskatoon, SK, and it is an average user of energy for this region of the world and for a building of its size and type. Numerous field measurements were taken in the building, both during this study and previously by the Saskatchewan Research Council. These measurements were used to create a computer model of the building using EE4. After the computer model of the building was created different energy saving retrofits were simulated and compared. <p>Over 40 retrofits are presented and together they reduce the annual grid purchased energy of the building from 360 kWh/m2 (based on above ground floor area) to 36 kWh/m2, a factor 10 reduction. Natural gas consumption was reduced by approximately 94% and grid purchased electrical consumption was reduced by approximately 81%. As a result of these energy savings, a factor 6.6 reduction (85%) in greenhouse gas emissions was also achieved. The goal of factor 10 could not be achieved only through energy conservation and the final design includes two solar water heating systems and grid-connected photovoltaic panels. These systems were modeled using RETScreen project analysis tools.<p>Capital cost estimates and simple payback periods for each retrofit are also presented. The total cost to retrofit the building is estimated to be $3,123,000 and the resulting utility savings from the retrofits are approximately $150,000 per year. This is a factor 6.0 reduction (83%) in annual utility costs in comparison to the base building. While the typical response to proposing a green building is that financial sacrifices are required, there is also research available stating that operating in a more sustainable manner is economically advantageous. This research project adds to the green building economics debate by detailing savings and costs for each retrofit and ranking each retrofit that was proposed. The most economically advantageous mechanical system that was added to the building was energy recovery in the outdoor ventilation air. It should also be noted that there was already a glycol run-around heat recovery system in the building and even greater savings would have been obtained from installing the energy recovery system had this not been the case.<p>While the goal of factor 10 required economically unjustifiable retrofits to be proposed, the majority of the retrofits had simple payback periods of less than 20 years (30 out of 49). This research shows that certain retrofits have highly desirable rates of return and that when making decisions regarding investing in auditing a building, improving energy efficiency, promoting conservation, or utilizing renewable energy technologies, maintaining the status quo may be economically detrimental. This would be especially true in the case of new building construction.

Heat Recovery

Energy Recovery

Mult-Unit Residential

Energy Consumption

Energy Efficiency

Apartment

High-Rise

Building Energy Audit

Solar Energy

Renewable Energy

MURB

Greenhouse Gases

An Investigation On The Performance Of Aluminium Panel Curtain Wall System In Relation To The Facade Tests

Sengun Dogan, Banu Nur

01 January 2013

Extruded aluminium has become the material of choice for building envelope owing to its lightness, wide range of possibilities for profile design, durability and the eco-friendly attitude. In the light of recent technological developments in metal and glass industries, there has been various new approaches towards aluminum curtain wall systems which are mostly preferred by architects in high-rise buildings. Herein, the panel curtain wall system is determined as innovative and the modern aluminium curtain wall system. Furthermore, in the recent prestigious high-rise buildings, the demand of the architects and the contractors begins to replace the conventional curtain wall system which is constructed via stick construction technique, with panel curtain wall system which is applied to the building in a modular form . The main aim of this study is to investigate why the panel curtain wall system comes to the forefront especially for high-rise buildings. Accordingly, the basic architectural, structural and constructional design principles of unitized aluminium curtain wall systems are defined, analyzed and then the advantages and disadvantages of this system are pointed out from an architectural point of view. In order to evaluate the performance of panel curtain wall system against environmental factors, the facade tests, which are new and still-developing methods in Turkey, are used. The extensive facade tests have been conducted on full-scale specimen under field conditions reproduced in an equipped test chamber by authorized facade testing company and the assessment of this curtain wall performance was provided accordance with related standards. The two story full-size specimen, was 3000 mm to 7600 mm, belongs to one of the prestigious office towers constructed in Istanbul. The facade tests conducted to the specimen include watertightness, air permeability, wind resistance and building movement tests. In this study, the performance criteria of panel curtain wall system were investigated not only against environmental factors but also against human sourced factors. It is expected that this study will provide a guideline for system designers on the future research and development phase and for architects on the selection of curtain wall systems for their buildings due to the conducted test results and other advantages taken throughout this study.

Retrofitting a high-rise residential building to reduce energy use by a factor of 10

Richards, Christopher John

30 April 2007

This thesis details the ways in which energy is consumed in an existing Canadian high-rise apartment building and outlines a strategy to reduce its consumption of grid purchased energy by 90%. Grid purchased energy is targeted because the building is located in Saskatchewan where energy is predominantly generated from fossil fuels that release greenhouse gas emissions into the environment. Greenhouse gas emissions are targeted because of the growing consensus that human activities are the cause of recent global climate destabilization and the general trend towards global warming. Energy consumption is also a concern because of anticipated resource shortages resulting from increases in both global population and average per capita consumption. Many researchers are beginning to claim that a factor 10 reduction in energy use by industrialized nations will be required in order for our civilization to be sustainable.<p>The building that was studied is an 11 story seniors high-rise with a total above ground floor area of 8,351 m2. It was constructed in 1985, in Saskatoon, SK, and it is an average user of energy for this region of the world and for a building of its size and type. Numerous field measurements were taken in the building, both during this study and previously by the Saskatchewan Research Council. These measurements were used to create a computer model of the building using EE4. After the computer model of the building was created different energy saving retrofits were simulated and compared. <p>Over 40 retrofits are presented and together they reduce the annual grid purchased energy of the building from 360 kWh/m2 (based on above ground floor area) to 36 kWh/m2, a factor 10 reduction. Natural gas consumption was reduced by approximately 94% and grid purchased electrical consumption was reduced by approximately 81%. As a result of these energy savings, a factor 6.6 reduction (85%) in greenhouse gas emissions was also achieved. The goal of factor 10 could not be achieved only through energy conservation and the final design includes two solar water heating systems and grid-connected photovoltaic panels. These systems were modeled using RETScreen project analysis tools.<p>Capital cost estimates and simple payback periods for each retrofit are also presented. The total cost to retrofit the building is estimated to be $3,123,000 and the resulting utility savings from the retrofits are approximately $150,000 per year. This is a factor 6.0 reduction (83%) in annual utility costs in comparison to the base building. While the typical response to proposing a green building is that financial sacrifices are required, there is also research available stating that operating in a more sustainable manner is economically advantageous. This research project adds to the green building economics debate by detailing savings and costs for each retrofit and ranking each retrofit that was proposed. The most economically advantageous mechanical system that was added to the building was energy recovery in the outdoor ventilation air. It should also be noted that there was already a glycol run-around heat recovery system in the building and even greater savings would have been obtained from installing the energy recovery system had this not been the case.<p>While the goal of factor 10 required economically unjustifiable retrofits to be proposed, the majority of the retrofits had simple payback periods of less than 20 years (30 out of 49). This research shows that certain retrofits have highly desirable rates of return and that when making decisions regarding investing in auditing a building, improving energy efficiency, promoting conservation, or utilizing renewable energy technologies, maintaining the status quo may be economically detrimental. This would be especially true in the case of new building construction.

Heat Recovery

Energy Recovery

Mult-Unit Residential

Energy Consumption

Energy Efficiency

Apartment

High-Rise

Building Energy Audit

Solar Energy

Renewable Energy

MURB

Greenhouse Gases

Property management and property value of high-rise private residential buildings in Hong Kong

Lam, Sze-nok, Candy., 林詩諾.

January 2003

published_or_final_version / Housing Management / Master / Master of Housing Management

An analysis of the Hong Kong government's private building management policy

Cheung, Kwei-ying., 張桂英.

January 1990

published_or_final_version / Public Administration / Master / Master of Public Administration

Housing management - Government policy.

How to provide quality service in view of recent changes: a study of the private property management industry

Fung, Po-kwong., 馮寶光.

January 1997

published_or_final_version / Housing Management / Master / Master of Housing Management

Housing management - China - Hong Kong.

Total quality management.

Housing management.

Housing management - Case studies.

Racionalaus dangoraižio modelio kūrimas statybos technologijos aspektu / The creation of rational skyscraper model in technological aspect

Volvačiovas, Robertas

22 June 2010

Baigiamojo magistro darbo tikslas – sukurti racionalų dangoraižio modelį statybos technologijos aspektu. Baigiamojo magistro darbo uždaviniai – apžvelgti dangoraižių evoliucionavimą ir apibrėžti dangoraižių aukštį, išskirti ir išnagrinėti dangoraižių statybos technologijos ypatumus remiantis naujausia su dangoraižiais susijusia užsienio šalių literatūra, kuriant racionalų dangoraižio modelį statybos technologijos aspektu remtis Lietuvoje galiojančia teisine sistema. Baigiamojo magistro darbo metodinė dalis yra parašyta remiantis užsienio šalių patirtimi, o mokslinėje dalyje sukurtas modelis – remiantis Lietuvoje galiojančia teisine sistema, tačiau bendrais bruožais šis modelis yra tinkamas naudoti ir užsienyje. Sukurtame modelyje didžiausias dėmesys skiriamas dangoraižio projektavimo etape iškylančių problemų sprendimui susijusių su dangoraižiais kaip atskira pastatų rūšimi. Sukurtu modeliu galima vadovautis įgyvendinant dangoraižių statybos projektus nuo idėjos gimimo iki dangoraižio nugriovimo. Darbą sudaro 6 dalys: įvadas, dangoraižių evoliucionavimas ir jų aukščio apibrėžimas, dangoraižių statybos technologijos ypatumai, racionalaus dangoraižio modelio kūrimas, išvados ir pasiūlymai, literatūros sąrašas. Darbo apimtis – 73 p. teksto be priedų, 42 paveikslai, 3 lentelės, 63 bibliografiniai šaltiniai. Atskirai pridedami darbo priedai. / This master thesis focuses on creating the most rational skyscraper model in technological aspect. This is done through the completion of several key tasks. Firstly, the study evaluates the development of the skyscrapers, defines their height. Then the work assesses the key technological features of the skyscraper construction. The assessment is based on contemporary foreign literature and meets the legal requirements of the Republic of Lithuania. The academic part of the thesis presents a model which fulfils the legal requirements of the Republic of Lithuania. However, this model is also valid in foreign countries as it is based on the contemporary foreign literature. The core objective of this model is to find solutions for the key issues that arise during the skyscraper design stage. Therefore, this model can play a significant part in all stages of the skyscraper construction from the creation of the initial idea of the skyscraper to its demolition. The thesis consists of 6 parts: introduction, the development of the skyscrapers, the key features of the skyscraper construction, the creation of the rational skyscraper model, conclusions and suggestions, references. The thesis consists of: 73 p. text without appendixes, 42 pictures, 3 tables, 63 bibliographical entries. Appendixes included.

Civil Enginering

Aukštybiniai pastatai

Dangoraižiai

Dangoraižio modelis

Dangoraižių aukštis

Dangoraižių ypatumai

High-rise buildings

Skyscrapers

Skyscraper model

Skyscrapers high

Skyscrapers peculiarity