The Southern Hotel: The adaptive re-use and renovation of a historic building in downtown Covington, Louisiana

January 2015

0 / SPK / specialcollections@tulane.edu

Covington--Historic Building--Renovation

Viability of Photogrammetry for As-built Surveys without Control Points in Building Renovation Projects

Liu, Yang

16 December 2013

In recent years, it is becoming more and more common to utilize 3D modeling technology to reconstruct cultural heritages. The most common way to deliver the 3D model of an existing object is based on hands-on surveys and CAD tools which could be impractical for large or complex structure in term of time consumption and cost. Recently, laser scanning technology and more automated photogrammetric modeling methods become available, and making the 3D reconstruction process of real world objects easier. Photogrammetry is one of the most cost-effective approaches we could use to gather the physical information of an object, such as size, location, and appearance. Also, the operation of the equipment of photogrammetry, which is a camera, is very easy and cost-effective. However, it also has its drawback, which is mainly caused the outcome’s low accuracy level. Accurate drawings or models only have been achieved with other approaches, such as 3D laser scanning or total station. The 3D model of the Francis Hall at Texas A&M University, which will be renovated soon, was created in order to investigate whether the image-based 3D model produced using photogrammetry technology would be acceptable or not for the use in renovation projects. For this investigation, the elapsed time for data acquisition and 3D modeling was measured. The accuracy level of the image-based 3D model and the deficiencies of this approach were also recorded. Then, the image-based 3D model of Francis Hall was presented in the BIM CAVE to four industry professionals and one graduate student. The regular 3D model of the Francis Hall, which was created, using dimensions extracted from 2D drawings, was also presented to the interviewees in the BIM CAVE. After watching two different 3D models (image-based 3D model and regular 3D model) of the same Francis Hall, five interviewees were requested to describe the differences they noticed between image-based 3D model and regular 3D model presented in the BIM CAVE. By reviewing and analyzing the data from interviews. Following conclusions could be made. First, the image-based 3D model of Francis Hall gave people more feeling of reality than the traditional CAD drawings or BIM models. Second, the image-based 3D model could be used for saving travels, showing details, improving coordination, improving design, facilities management tool, and marketing tool. Third, in order to make it practical for the industry, the time consumption and cost of generating the image-based 3D model should be at least equivalent to time consumption and cost for architects to conduct survey and generate CAD drawings or BIM model.

Image-based 3D modeling

Building renovation project

Feasibility of the SIMSUPER Simulation Model in the Renovation of Building Projects

Jimenez, Jose Manuel

26 May 1999

Building renovation projects are unique in its nature and quite different from new building construction projects. Uncertainties and unforeseen conditions play a much bigger role in building renovation projects making construction planning traditional methods not suitable for these purposes. Soft-logic allows for the modification of predefined network models when a new set of conditions is encountered. An existing computer simulation program called SIMSUPER provides such approach. SIMSUPER (SIMulation SUPERvisor) is a network-based, discrete-event simulation model that has the capability of incorporating conditions of uncertainty and to dynamically respond to changed conditions. The model is capable of combining different networks to respond to changed external factors already embedded in the model networks. The logic followed by SIMSUPER has the flexibility of selecting between networks depending on the conditions inputted. SIMSUPER was primarily developed to conduct research in productivity analysis for adaptable tunneling construction, where excavation and support methods are adapted to changing ground conditions. The main objective of this research is to determine the ability of SIMSUPER to analyze the dynamics of the building renovation process under its particular conditions of uncertainty and to provide the user with the flexibility of adapting the model as these conditions change, optimizing project's productivity. The renovation of Daniels Hall, a four-story dormitory facility at Worcester Polytechnic Institute (WPI), Worcester, Massachusetts, is used as the case study of this research. Two computer runs, the contractor's plan, and observed data were tested using the WPI's running version of SIMSUPER. Differences between the computer simulation and observed actions were found. A hand simulation that incorporates resource allocation, preempting rules and conflict management capabilities was conducted to investigate the observed actions in more detail. The hand simulation was able to replicate the observed actions. The concept contained in the program proved to be efficient. The soft-logic rules that drive the simulation of the process replicated the observed plans.

renovation projects

simsuper

building renovation projects

building renovation

Buildings

Repair and reconstruction

Simulation methods

Construction industry

Management

Building Renovation and Property Value

Shahbandian, Maryam

January 2019

The concern of climate change and Greenhouse Gas emission have increased national consideration toward energy efficiency. Despite noticeable action which have taken by EU cities and Sweden government to mitigate the climate change, there is still shortage in appropriate energy measurements in old residential buildings. Due to the fact that a large share of residential buildings in Sweden have constructed more than 40 years ago, most of them need energy renovation  to enhance efficiency and saving more energy. In order to encourage home owners toward energy efficiency renovations, some cost effective measurements have to introduce to people with the view of effect on property value.  To this end, 50 detached houses and villas in Kronoberg County in Sweden have been chosen and analyzed to identify how renovation can increase the property value. These houses have been set in different categories by location, heating system, deep renovation, energy and aesthetic renovation. After that, compares the sold prices and biding prices for each category. Moreover, it analyses the people behavior toward renovation to see how can motive people to adopt necessary energy efficient renovation. This research also shows the current situation of building renovation, the most favourite renovation which are adopted by people as well as providing information about the factors affect the value of the house after renovation.

Building Renovation

Deep Renovation

Aesthetic Renovation

Property Value

Bioenergy

Bioenergi

Energy Systems

Energisystem

Boosting EU’s Building Renovation Rates with Energy Performance Contracting

Azevedo, Filipe

January 2020

Annual building renovation rates in Europe currently stand at 0.4 to 1.2%. In order for Europe to meetits energy efficiency targets a “renovation wave” will have to be triggered that will, at least double, the current rates (“A European Green Deal | European Commission” 2019). It is clear, in the “Clean Energy Package for All Europeans”, that the European Commission regards Energy Performance Contracting (EPC) as a key tool to boost the aforementioned “renovation wave”. This is a renovation model in which the client shares the performance and financial risk of the energy efficiency renovation with the Energy Service (ESCO), responsible for designing, implementing, and operating the project during its lifetime. This is a model that has not seen the expected uptake in Europe its potential suggested, due to a set of, already well identified, regulatory, market, financial and social barriers. This project proposes an innovative EPC model – the Integrated Benefits Model – that aims at tackling some of the current barriers and envisions what the future of energy consumption in buildings can be. This model was tested in a real case study and was shown to reduce the project’s payback time by 16% when compared to a traditional energy efficiency renovation. This increases the attractiveness of energy retrofits among building owners. To address some of the remaining barriers, a set of recommendations to stakeholders was drafted, in order to facilitate a wider adoption of EPCs (and in particular the Integrated Benefits Model) across the whole value chain. / Byggnadsrenoveringsgraden ligger för närvarande på 0,4 till 1,2%. För att Europa ska kunna uppnå sina energieffektivitetsmål måste en ”renoveringsvåg” utlösas som åtminstone kommer att fördubbla den uvarande siffrorona (“A European Green Deal | European Commission” 2019). Det är tydligt i satsningen "Ren energi för alla européer" att Europeiska kommissionen ser Energy Performance Contracting (EPC) som ett nyckelverktyg för att utlösa den ovannämnda "renoveringsvågen". Detta är en renoveringsmodell där kunden delar prestanda och finansiell risk för energieffektivitetsrenoveringen med ett s.k. Energy Service Company (ESCO), som ansvarar för att utforma, implementera och driva projektet under dess livstid. Detta är dock en modell som inte har utvecklats som väntat i Europa trots sin potential. Skälet till detta är på grund av en uppsättning väl identifierade reglerande, marknadsmässiga, finansiella och sociala hinder. Detta projekt föreslår en innovativ EPC-modell - Integrated Benefits Model - som syftar till att ta itu med några av de nuvarande hindren. Denna modell testades i en riktig fallstudie och visade sig minska projektets återbetalningstid med 16% jämfört med en traditionell energieffektivitetsrenovering. Detta ökar attraktiviteten för energieffektiviseringsåtgärder bland byggnadsägare. För att ta itu med några av de återstående hindren har en uppsättning rekommendationer utarbetades till intressenter för att möjliggöra EPC:er (och särskilt den integrerade förmånsmodellen) över hela värdekedjan.

Energy Engineering

Energiteknik

Case study of the energy performance of a school building in Laholm, Sweden : Energy modeling for the formulation of efficient renovation strategies

Gutiérrez Prieto, Daniel Andrés

January 2022

This study has been focusing on a school located in the municipality of Laholm, South of Sweden. Employing an energy balance of the last five (5) years, a proposal for measures is made in terms of performance for comparison with the baseline of the current consumption trend. This comparison allowed us to narrow down the alternatives for the renovation with the potential to have a great impact on the school's energy use and indoor environment, but also on the preserved characteristics without any violation of the laws and regulations. A complementary analysis was used to analyze important variables for decision-making and implementation of improvements. This analysis consists of an exergy analysis which was utilized as a pre-design tool for an optimized building renovation proposal. Exergy losses were calculated to assess the performance of the systems. The study revealed that in relation to the use of new technologies and materials, aerogel and vacuum insulation panels bring relevant savings as their insulation mechanisms are the most efficient for such a building in a climate like Laholm. As for the heating system, it was evident that the use of a geothermal heat pump associated to PV panels brings considerable energy benefits when compared to the current oil boiler system and given that the village does not yet have a local district heating system. When the proposed measures are applied during 2022- 2023, the results will show that also older buildings can be energy efficient which is demanded of the buildings stock throughout the European Union.

Aerogel

building renovation

energy modeling

exergy analysis

new technologies

phase change materials

vacuum insulation panels.

Construction Management

Byggproduktion

Decreasing Energy Use by 50% in Swedish Multifamily buildings by 2050 - Obstacles and Opportunities

Shafqat, Omar

January 2012

Building sector in Sweden constitutes a major part of the overall energy consumption, making up for around 40% of the total energy use. During the 60s and 70s, there was a big surge in housing in Sweden with over a million dwellings, both single family houses and multi-family apartments, constructed over a period of ten years. These buildings constructed according to the pre-oil crisis standards, suffer from poor energy performance and are in dire need for large scale renovations. This makes it a very interesting area to focus on to meet the Swedish government targets of 50% energy reduction by 2050. This study tries to assess the prevailing situation in multifamily housing sector and focuses on various obstacles and hinders in the path towards achieving long term energy saving goals. A model has been developed using bottom-up approach to study different scenarios for energy use in 2050 based on various renovation possibilities in the building stock.

Energy efficiency in buildings

multifamily buildings

miljon program

building renovation

Swedish energy efficiency targets

energy scenarios

Energy Engineering

Energiteknik

Governance of Innovative Building Practices: Case of the 3rd District Municipality of Budapest

Miklós, Zsófia

January 2017

This paper presents an analytical framework of governing innovative building practices at a municipal level based on conclusions drawn from the Strategic Niche Management (SNM) approach. The analytical framework viewed the Village House Block demonstration project and EnSURE transnational research collaboration as important facilitators to create the necessary conditions for governing innovation during the renovation of the outdated building stock located in the 3rd District Municipality of Budapest, Hungary. These necessary conditions were articulated in accordance with the three internal processes (the articulation of expectations and visions, the building of social networks and the fostering of learning processes) defined by SNM research. Additionally, the Sustainable Energy Action Plan (SEAP) methodology was considered as a viable tool to guide energy efficient urban development in the district. It was found in this research that the Village House Block renovation represented a local technological niche project during which the feasibility of active and passive building technology was tested. This study revealed that the necessary conditions for governing innovation were present in this project. EnSURE was a collaborative research project which did not represent a clear example of technological niche development. It was defined as an important initiative to collect and accumulate knowledge and experiences from local niche projects to create a strategic tool for supporting energy efficient urban development at the municipal level. In this case study, the tool was the Sustainable Energy Action Plan. Overall, it was found that the necessary conditions did not only appear in technological niche projects, such as the Village House Block demonstration project but also in other types of projects, such as EnSURE. Furthermore, it could be argued that the governance of innovative approaches requires an operational framework in which different projects are managed to create these necessary conditions for local technological niche development. At global niche-level, it was revealed that the SEAP or other action plan methodologies could offer a tool to utilise experiences gained from local niches to create an energy efficient urban development strategy. In practice, it was shown that the importance of experimentation with new technologies and the governance of innovation on a strategic way still in its infancy in the 3rd District.

Sustainable Development

innovative building renovation practices

Strategic Niche Management

innovation governance

energy efficient urban development

Earth and Related Environmental Sciences

Geovetenskap och miljövetenskap

Metodologia para desenvolvimento de projeto de fachacas leves. / Methodology to develop lightweight facade design.

Oliveira, Luciana Alves de

29 October 2009

A vedação de fachada, incluindo esquadrias e revestimento, um dos mais relevantes subsistemas do edifício, é responsável pelas condições de habitabilidade e estética, contribui para a valorização do empreendimento e tem um papel importante com relação à sustentabilidade. Além disso, os custos de execução e de manutenção da fachada são expressivos com relação aos dos outros subsistemas. Pela sua importância técnica e econômica, as tecnologias construtivas responsáveis pela execução das fachadas, frequentemente, passam por evoluções, como o surgimento das tecnologias de fachadas leves, as quais podem ser empregadas em vários segmentos da construção. Dois desses segmentos são o da construção de edifícios comerciais e o de reabilitação ou renovação de edifícios. Entretanto, essas tecnologias ainda são carentes de desenvolvimentos tecnológicos nacionais mais específicos e projetos melhor elaborados, nos quais se considerem questões do processo de projeto e de execução, bem como do desempenho da fachada em uso, como segurança, eficiência energética, isolamento acústico, estanqueidade à água, durabilidade e manutenabilidade. Nesse contexto, o objetivo deste trabalho é propor uma metodologia para o desenvolvimento do processo de projeto de vedações de fachada, particularizados para as tecnologias de fachadas leves, para edifícios comerciais de múltiplos pavimentos, considerando tanto a possibilidade da construção quanto da renovação, discutindo-se aspectos de gestão e tecnologia. A proposição da metodologia foi baseada em estudos bibliográficos e em comparações entre exemplos reais do processo da produção de empreendimentos de construção e renovação no Brasil e na França. Dessa forma, o desenvolvimento e conclusão deste trabalho foram divididos em quatro grupos: estudos no Brasil; estudos na França; análise comparativa dos resultados desses estudos; e elaboração da metodologia e sua discussão. A metodologia proposta considera de forma sistêmica alguns aspectos do processo de projeto, particularizados para as tecnologias de fachadas leves, contemplando aspectos de gestão e de tecnologia, incorporando contribuições de um grupo de profissionais. / The facades are considered one of the most relevant building subsystems, contributing both to building valuation and its performance, and has a great importance concerning the sustainability. In addition, its execution and maintenance costs are expressive when compared to others subsystems. Because of its economical and technical importance, the façade technologies have been passing through constant evolution, for example the development of the lightweight façades system that can be used in many construction segments, as commercial building construction and building renovation. Although the use of lightweight façades technologies is increasing worldwide, its application in Brazil requires more precise researches regarding design and construction management and also performance requirements, as security, thermal and acoustic isolation, energy efficiency, watertightness, durability and maintenance. In this context, the objective of this work is to propose a methodology to develop the design process of the lightweight facade system for office buildings, applicable either to construction either to building renovation, discussing management and technology aspects. This work will be based on existing bibliography and on comparative study between Brazilian and French construction and renovation building practices. Thus, this work was divided in four stages: Brazilian studies; French studies; comparative analyses between these studies; and elaboration of the methodology. Concluding, the methodology proposed considers some aspects of the design process, particularized to lightweight façade technologies, taking into account management (agents, design management phases and aims, interfaces, technology selection and design and product critical analyses) and technological aspects (façade performance specifications).

Building renovation

Desempenho

Design

Exterior wall

Fachada leve

Fachada pré-fabricada

Lightweight façade

Performance

Precast façade system

Projeto

Qualidade

Quality

Reabilitação

Renovação

Vedações de fachada

Vedações verticais

Constraint-based design : two-dimensional insulating panels configuration / Conception sous contraintes : configuration de panneaux isolants à deux dimensions

Barco Santa, Andrés Felipe

20 September 2016

Les travaux de recherche présentés dans cette thèse se situent dans une problématique d’aide à la conception d’enveloppes isolantes pour la rénovation thermique de bâtiments résidentiels collectifs. Ces enveloppes isolantes sont composées de panneaux multifonctionnels rectangulaires, configurables et préfabriqués en usine. Leur conception repose sur les cinq caractéristiques suivantes. Premièrement, le nombre de panneaux nécessaires pour concevoir une enveloppe ainsi que leur taille respective ne sont pas
 connus au début de la rénovation (mais leur taille est cependant bornée). Deuxièmement, en raison des contraintes de fabrication, chaque fenêtre et chaque porte présentes sur la façade à rénover doivent être insérées dans un et un seul panneau. Troisièmement, les panneaux sont fixés à des endroits spécifiques de la façade, assez résistants pour supporter leur poids, nommés zones d’accroche. Quatrièmement, ni trous (zone non couverte), ni chevauchements entre panneaux ne sont autorisés. Cinquièmement, afin de garantir une isolation thermique performante tout en minimisant son coût, les enveloppes doivent être
 composées d’un nombre minimal de panneaux. Aux vues de la complexité de ce problème, nous restreignons nos travaux de recherche aux façades rectangulaires portant des menuiseries et des zones d’accroche rectangulaires. Compte tenu des cinq caractéristiques énoncées et de l’hypothèse de forme rectangulaire des éléments traités (panneaux, façades, menuiseries, zones d’accroche), la conception des enveloppes est à la fois un problème de découpe et de conditionnement à deux dimensions et un problème de configuration. Ce problème est formalisé et traité comme un problème de satisfaction de contraintes et a pour but d’aider la conception dédites enveloppes isolantes. En tant que tel, les travaux de cette thèse présentent deux contributions majeures. En raison des caractéristiques originales du problème de calepinage de façades, sa description et sa formalisation comme un problème de satisfaction de contraintes constituent la première contribution de ces travaux de thèse. Deuxièmement, les solutions algorithmiques basées sur les contraintes constituent notre seconde contribution. En particulier, ces travaux de thèse présentent deux solutions manuelles et trois automatiques pour le problème de conception d’enveloppes isolantes. / The research presented in this thesis falls within the problem of supporting the design of thermal insulating envelopes for the renovation of collective residential buildings. These insulating envelopes are composed of rectangular multi-functional panels, configurable and prefabricated in the factory. Their design is based on the following five characteristics. First, the number of panels needed to design an envelope and their size are not known at the beginning of the renovation (but their size is however bounded). Second, because of manufacturing constraints, every window and every door present on the facade to be renovated must be inserted into one and only one panel. Third, panels are attached to specific areas of the facade strong enough to support their weight, called supporting areas. Fourth, neither holes (uncovered area) or overlapping between panels are allowed. Fifth, to ensure efficient thermal insulation while minimizing cost, envelopes should be composed of a minimum number of panels. In view of the complexity of this problem, we restrict our research to rectangular facades with rectangular joinery and supporting areas. Given the five stated characteristics and the assumption of rectangular elements (panels, facades, 
joinery, supporting areas), the envelopes design is both a two-dimensional Cutting & Packing problem as well as a configuration one. This problem is formalized and treated as a constraint satisfaction problem and aims to support the design of such insulating structures. As such, the thesis presents two major contributions. Given the original features of the building renovation problem, its description and its formalization as a constraint satisfaction problem are the first contribution of the work. Second, constraint-based algorithmic solution’s are our second contribution. In particular, the thesis presents two manual and three automatic solutions for the design problem of insulating envelopes.

Problème de satisfaction de contrainte

Configuration

Calepinage

Aide à la décision

Rénovation du bâtiment

Génie civil

Constraint satisfaction problem

Configuration

Layout synthesis

Decision support system

Building renovation

Civil engineering

624.697