Compatibility of Phase Change Materials and Metals: Experimental Evaluation Based on the Corrosion Rate.

The construction and maintenance of building stock is responsible for approximately 36% of all CO emissions in the European Union. One of the possibilities of how to achieve high energy-efficient and decarbonized building stock is the integration of renewable energy sources (RES) in building energy systems that contain efficient energy storage capacity. Phase Change Materials (PCMs) are latent heat storage media with a high potential of integration in building structures and technical systems.

Tests on Material Compatibility of Phase Change Materials and Selected Plastics.

Practical applications of Phase Change Materials (PCMs) often require their encapsulation in other materials, such as metals or plastics. This raises the issue of compatibility between PCMs and encapsulating materials, which has still not been sufficiently addressed. The study presented here follows existing research and provides experimental evaluation of the suitability of selected PCMs for proposed integration in building structures.

Regional patterns of declining butternut ( L.) suggest site characteristics for restoration.

Butternut trees dying from a canker disease were first reported in southwestern Wisconsin in 1967. Since then, the disease has caused extensive mortality of butternut throughout its North American range. The objectives of this study were to quantify changes in butternut populations and density across its range and identify habitat characteristics of sites where butternut is surviving in order to locate regions for potential butternut restoration.

Influence of Temperature and Humidity on the Viability of Ophiognomonia clavigignenti-juglandacearum Conidia.

Butternut canker, caused by the fungus Ophiognomonia clavigignenti-juglandacearum, primarily kills butternut (Juglans cinerea). Rain splash and local air currents are the primary means of conidia dispersal but that does not explain its long-distance spread and infection of isolated trees. Dispersal by insect or animal vectors or plant material likely necessitates the ability for conidia to tolerate drying for a period of time over variable temperature and humidity conditions.

Inhibition of Ophiognomonia clavigignenti-juglandacearum by Juglans Species Bark Extracts.

A rapid and reliable technique is needed for identifying butternut trees (Juglans cinerea) with resistance to butternut canker. We investigated the potential of a bark extract bioassay to detect levels of resistance to Ophiognomonia clavigignenti-juglandacearum (Oc-j), the causal agent of butternut canker. Both reagent grade naphthoquinones and crude bark extracts of Juglans species inhibited germination of Oc-j conidia.