Tag: retrofitting

ISOBIO Panel for Internal Retrofitting

The internal retrofitting system is composed of the following layers

  1. Clay reinforcement mortar
  2. ISOBIO rigid panels
  3. CSB panels
  4. Clay plaster

As the first layer, a clay reinforcement mortar is used to attach the ISOBIO rigid panels to the exiting wall.

When the clay reinforcement mortar has acquired its mechanical properties after its curing time, the CSB panels are mechanically or adhesively joined to the ISOBIO rigid panels and placed in a vertical disposition. Finally a clay plaster produced by CLAYTEC is applied as the finishing coating. This plaster is made of earthen clay, hemp powder, pumice and sand.

Functions

In order to reduce the interior dimensions as less as possible, in internal retrofitting activity it have been decided to stuck all the panels to the existing wall with a clay reinforcement mortar avoiding the extra space that a frame would take. The main function of the clay reinforcement mortar is to fix ISOBIO rigid panels to the existing wall that will be retrofitted.

The combination between the ISOBIO rigid panels and the CSB panels helps to maintain the system’s structure and to increase its thermal insulation properties. Moreover, it acts as a moisture buffering layer, providing the system the protection it needs from any moisture-based damages.

The clay Plaster is an easy to use material that acts as a fire retardant while possessing a very stable moisture buffering effect. Moreover, it provides the required esthetical finishing to the interior of the building.

Impact

It will aid in reducing the energy consumption needed for air conditioning housing. It will also protect the building from moisture-based damages and possible outbreaks due to temperature changes. All these make the buildings highly energy efficient while providing an optimal level of comfort for residents at any time of the year.

ISOBIO Panel for External Retrofitting

The external retrofitting system is composed of the following layers

  1. Wood studs
  2. BioFib
  3. Isobio rigid panel
  4. Hemp lime render

The wood studs are joined together by screws or nails to form the structural frame. Its voids are filled with a thick BioF Trio isolation material. Then Isobio rigid panels with predefined dimensions are fixed to the wood studs using screws or nails.

The hemp lime render, which is mainly composed of lime, hemp, and a lime based plaster, will be placed on top of the Isobio panels. The entire panel will be attached to an existing wall using a metallic solution which will depend of the type of façade.

Functions

Wood studs: they provide the structural frame of the entire system. This frame provides structural resistance to the whole system while maintaining the final structure as a single unit when the rest of the layers are added

BioFib: it is an insulating material with an excellent mechanical strength. Because of its natural fibers, it is safe to use, soft to touch and easy to install in houses.

Isobio panel: it is a bio-composite made of commercial hemp shiv grade and a thermosetting bio-based binder. This material is highly water repellent and acts as a fire retardant.

Hemp lime render: it is a lightweight and stable bio-composite material. It can also be personalized by colouring it and acts as a fire retardant with optimal hygrothermal properties.

Impact

They will aid in reducing the energy consumption needed for air conditioning housing. They will also protect the building from moisture-based damages and possible outbreaks due to temperature changes. All these make the buildings highly energy efficient while providing an optimal level of comfort for residents at any time of the year.

Low carbon materials to capture the imagination of homebuilders and owners

Innovation in the construction industry will play an important role in reducing emissions and improving energy efficiency — though developing new materials and methods is only half the battle. Convincing architects and homeowners of the performance and long-term financial benefits of a new product presents a significant challenge.

In Europe, households are responsible for 32% of greenhouse gas emissions and 42% of energy. Cement production alone contributes to 5% of manmade CO2 emissions.

By contrast, bio-based insulation typically have much lower “embodied energy” levels compared with more conventional building materials. Furthermore, the source materials themselves sequester atmospheric carbon dioxide via photosynthesis.

“The beauty of bio-based materials is that they are often a byproduct of growing our food. We can build with carbon. Instead of seeing carbon as a problem, we can recast our relationship with it to one of positive innovation”, says Craig White, director of ModCell, which produces straw-bale eco-homes.

The company is one of the 12 partners in academia, research and industry that are collaborating with the European project ISOBIO. It aims to deliver bio-based insulators with 20% better performance than conventional materials, leading to a 5% total energy reduction over the lifecycle of a building at reduced costs of 15%.

Producers of bio-based insulators have the advantage that users are both receptive to change and familiar with the products in some capacity. In a study conducted by the Architects’ Council Europe (ACE) for the Low Embodied Energy Insulation Materials (LEEMA) project, 94% of architects surveyed said they would consider using a new and innovative insulation material. An overwhelming endorsement for what remains a niche application in the construction and renovation industries.

Renovations present a key market for producers of new insulation materials. According to the Buildings Performance Institute Europe (BPIE), more than 40% of Europe’s existing homes were built before the 1960s, when there were few requirements for energy efficiency, leading to low insulation levels.

Increasing awareness of the importance of insulation among homeowners is an important consideration. Homeowners may be inclined to, for example, upgrade appliances and install energy saving light bulbs, unaware that retrofitting wall and roof insulation leads to the greatest savings opportunities.

Veronika Schröpfer, lead author on the ACE survey, believes that bio-based insulation materials will continue to move from the niche into the mainstream and that new skill requirements will not present significant roadblocks.

Schröpfer says new building materials are often applied the same way as commonly used ones and manufacturers usually offer training when this is not the case. She states the main concerns involve pricing and regulations in different European countries.

“For architects it is important that a new material has all the necessary certificates and that the product information is transparent, to quickly compare its performance and price with traditional products,” says Schröpfer.

White believes that developers will be receptive to change. “The challenge that ISOBIO will overcome will be to bring [products] to market at scale at the price point that matches their performance to market demand,” he says.

Europe’s construction industry has experienced a turnaround over the last two years. After registering negative growth in 2013, the industry grew by 2.1% this year, and is forecast to grow by a further 2% over the next five years.

Evidence suggests that a growing minority of these builds will involve green projects. A market report from the Word Green Building Council states the proportion of architects and engineers that dedicate 60% or more of their project load to sustainable builds more than doubled over a four-year period — from 13% in 2009 to 28% in 2013.

The report states that increasingly, industry consumers not only demand that new innovations improve performance, but also reduce environmental impact. Fertile territory for the right nature-inspired solutions.

By Angus McNeice