Risk management for the implementation of energy efficient and renewable technologies in Australian green office buildings

Green buildings are becoming popular these days, mainly due to the increasing governmental and public awareness of the need to reduce the impacts of global warming caused by the production of greenhouse gas emissions and the consumption of natural resources. Paradoxically, green buildings are not becoming as common as researchers/governments had hoped. Certain types of technologies, such as energy efficient and renewable technologies (EERTs), are used in green buildings in order to help them become more environmentally-friendly. This research focuses on four main categories of energy related technologies, including two energy efficient categories which are related to heating, ventilating, and air conditioning (HVAC) and lighting systems, and two renewable energy categories which are related to solar and wind resources. A total of nine technologies are selected for study within these four categories. Under the HVAC category there are four technologies: radiant systems, chilled beams, underfloor air distribution systems, and night purge and natural ventilation. Under the lighting category there are two technologies: energy efficient light bulbs and motion sensors. Under the solar category there are two technologies: photovoltaic panels and thermal heating systems. The single technology under the wind category is wind turbines. Unfortunately, these technologies are relatively new and may present many risks during their implementation lifecycle for different project stakeholders. This research focuses on identifying and managing the critical risks influencing the application of EERTs in Australian green office buildings. The data collection methods consist of questionnaires, interviews and case studies. The questionnaires resulted in the identification of 14 critical risks for EERTs implemented in Australian green office buildings. They also revealed that the owners of these technologies are the most affected by the risks of EERTs and the operational stage of the lifecycle is the most likely phase of occurrence for these risks. The interviews resulted in the identification of 36 different measures to manage the 14 critical risks of EERTs. Furthermore, the research identifies the persons to manage these critical risks and the lifecycle stages at which to take action against these critical risks. The research results also disclose 37 causes and 18 impacts of these critical risks. The main purpose of the case studies is to validate the framework on two six star certified Australian green office buildings and improve the framework by practical experience. The final outcome of this research is the creation of a framework for the critical risk management of the implementation of EERTs in Australian green office buildings. This research will provide guidance to and enable informed decisions by industry practitioners and stakeholders in implementing EERTs in Australian green office buildings. This research is the first of its kind and lays the foundations for future related research

Introduction—Food Security and Food Waste Reduction: A Social Innovation Approach to Current Social, Environmental, and Political Concerns

This chapter presents the research rationale underpinning the book. It addresses the intertwining challenges of food security and surplus food management, discussing recent data and literature. It also presents how social innovation is conceptualized in the book as the theoretical framework to analyse partnerships between business and non-profit organisations in managing food surplus. The methodology of the research is also detailed, along with the book structure

Review of risks for the implementation of energy efficient and renewable technologies in green office buildings

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Study on risk management for the implementation of energy efficient and renewable technologies in green office buildings

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Identification of critical risks influencing the application of energy efficient and renewable technologies in Australian green office buildings: Preliminary findings of a survey

In recent years, energy efficient and renewable technologies (EERTs) have been gradually adopted to make office buildings green. Along with this movement was the risk concern among green building stakeholders. This paper presents the results of a survey questionnaire aimed at identifying the critical risks associated with the implementation of EERTs in green office buildings in Australia

Managing critical risks of energy efficient and renewable technologies implemented in Australian green office buildings

Green building projects can be classified as complex projects. This is because of the integration of all the different structural and service elements of a building and the need to adopt a systematic approach in all technological aspects when dealing with green buildings. Therefore, green building development may be exposed to critical risks that may threaten the green technologt implementation and negatively impact stakeholders. As part of a risk management study, this paper will present the findings of a series of interviews conducted to explore ways of managing the critical risks of energy efficient and renewable technologies (EERTs) implemented in Australian green office buildings. The outcomes will provide informed advice to green buildings stakeholders on how to deal with the critical risks of EERTs. The advice is based on the opinions of different professional practitioners in the green building industry, including architects, controctors, engineers and project managers

A model for analysing non-profit organisations in the food recovery, management and redistribution chain

Il capitolo si concentra sulle organizzazioni non profit come principali attori nel recupero delle eccedenze alimentari, proponendo un framework interpretativo del loro ruolo e funzione